Reconstruct User Manual
Contents
1. 3D Object Representations An object is added to the 3D Scene Chapter 12 The 3D Scene using one of several possible 3D representations Which representation is generated is determined by the selection in the Generate box of the 3D tab of the Series Options dialog Fig 11 2 The 3D representation is generated only for the traces of the object in the section range indicated WARNING Closing the series during 3D generation will crash RECONSTRUCT Se 2X Movements Proxies Thumbnails AutoTracing General Names Colors Grids 3D Lists Specify how 3D scene objects will be generated from traces m Generate fe Traces Traceslabs Trace midpoints f Box C Boissonnatsurface Oylinder Ellipsoid Sphere using traces in sections 1 through 20 Shiftwhole object by x IN iy D z D microns and sections by this z trace gt Di Normals None Face e Vertex lt minus this gt Di Facets C 4 ce 8 gi 22 Size A 1 Bie 1 e W microns Boissannat Surfaces Don t connect points further than 1 microns Generate V op and v bottom horizontal faces Figure 11 2 The 3D tab of the Series Options determines how an object will be represented in the 3D Scene Reconstruct v1 1 0 0 130 Chapter 11 Objects Traces The Traces option in the Generate box Fig 11 2 produces 3D lines corresponding to the traces defined in th2. Reconstruct v1 1 0 0 147 Chapter 12 The 3D Scene Traces shifted by x y z Trace Slabs shifted by x y z Trace Midpoints size a b shifted by x y z Box size abc shift by x y z Boissonnat Surface shifted by x y z Cylinder center x y Z axes x y Z X yz X yz size wh shifted by x yz Ellipsoid center x y z axes x y Z X y Z X yz size wh shifted by x y z Sphere center x y z size a shifted by x y z These comment values record the settings of the Shift Object By and Size settings of the 3D Options tab In the case of the cylinder and ellipsoid however the I w h values reflect the Size parameter settings only when these are positive Otherwise the actual eigenvalues calculated from the scatter matrix Chapter 11 Objects are reported with the diameter of the principal axis w the diameter of the secondary axis and h the diameter of the minor axis The axes are the eigenvectors of the scatter matrix given in the same order The center is the centroid of the trace points For the sphere the center is calculated midpoint of the object extent and the size is the diameter of the sphere specified by the Size A parameter setting Reconstruct v1 1 0 0 148 Chapter 12 The 3D Scene VRML 1 0 Since some older programs accept VRML 1 0 input but not VRML 2 0 a provision is provided to export the scene as VRML 1 0 Output is similar in all respects to the VRML 2 0 except the wrl file created a
3. series letters ser in the Files section of the RECONSTRUCT Users Group http tech groups yahoo com group reconstruct_users You can copy the font into your series and then copy and paste or stamp letters using the Stamp or Grid tools It s not as convenient as typing text but it may be enough if you have very simple labels Can I personalize RECONSTRUCT to create and save my own palette See Chapter 8 Yes Use the Names Colors tab to set the individual palette entries You can change the shape of the first 10 palette entries by 1 pressing the palette button 2 picking up the Stamp Tool 3 going to the trace whose shape you want to copy and pressing the left mouse button while holding the Ctrl key down and 4 pressing Ctrl 1 or any other digit where 1 is the second button on the palette the first button is zero The new palette entries will be saved when the Series is saved Each series saves its own palette and you have to copy the palette from a previous series to get it into a new one using the Import Series dialog Can I switch tools using the keyboard See Chapter 4 When you re tracing and need to switch to the Arrow Tool press Ctrl Tab and then Tab followed by Enter To get back to another tool using the keyboard just add more Tabs before pressing Enter Reconstruct v1 1 0 0 158 Appendix 1 Why do my traces expand shift when edit them See Chapter 8 The expansion of traces is caused by the Simplif
4. Consequently turning on the Hide all traces option with the Automatically save sections option will hide traces as sections are accessed and these traces will remain hidden even after the Hide all traces option is turned off To make the traces visible again the Unhide all traces option should be turned on Reconstruct v1 1 0 0 36 Chapter 5 Series lt Series Options E Movements Proxies Thumbnails AutoTracing General Names Colors Grids 3D Lists as All option settings are saved with the series Series units description microns Data precision is k significant digits v Automatically save series when closing v Warn before deleting unsaved sections Jv Automatically save sections before deleting V Beep when deleting V Beep when paging fails Hide all traces when loading section Unhide all traces when loading section Hide all domains when loading section Unhide all domains when loading section Use absolute paths far new domains Default section thickness 0 05 Computer z distance to middle of section instead of tap Figure 5 1 The Series Options Dialog The General tab has options for automatically saving the series and sections files and the units description and default section thickness Any changes will be accepted with the OK button and rejected with the Cancel button To ensure that the change persist after the series is closed save the series
5. PCX PCC GEM Raster IMG Portable Greyscale map binary P5 type PGM and Portable Pixel map binary P6 type PPM After Importing or calibrating images why do I see only part of them or none at all See Chapter 6 Use the Section List to make sure your sections exist and to Page To one of them Then hit the Home key to bring the section image into view If you still can t see anything check the Domain List to verify that there is actually a domain image present Why does Export Images produce such a huge image See Chapter 6 Export Images at full resolution takes the smallest pixel size of any image and the total area occupied by the entire series and renders at that resolution So if you had a minimum pixel size of 0 00254 microns and a section touched 22 22 and another section touched 21 7 21 7 microns in x and y full resolution is 43 7 0 00254 pixels times 3 bytes per pixel 847 Mb You ll obviously want to type in a more reasonable pixel size in the Export Images dialog The real underlying problem may be that your aligned series is really very big because there s a shift in the sections as you go through the series This is why RECONSTRUCT transforms your images in real time rather than creating new bitmaps to save on this huge wasted memory overhead and speed up paging of sections NOTE Export Images always exports RGB color Why can t I Export Images from my series See Chapter 6 If you get a uniforml
6. Reconstruct v1 1 0 0 67 Chapter 7 Domain Images copy of the domain image you can define sub regions of the image that can be moved independently Hiding Domains A domain can be hidden from view even though it still exists in the section This can be used to reveal images underneath a domain or to speed up section display by reducing the amount of image data displayed Hidden domains appear in the Domain List with a red H icon Thus the Domain List can be used to hide and unhide domains All domains can be hidden at the time the section is first displayed This allows all images to be removed from display leaving only traces that can be displayed very quickly Hide all domains with the checkbox in the General tab of the Series Options To prevent a permanent change to the section make sure the Autosave checkboxes for sections are unchecked All domains can be unhidden with an option as well If both checkboxes are checked simultaneously all hidden domains will be revealed while all visible domains will be hidden This feature can be used to quickly switch between two sets of domains for the series Proxies Proxy images are smaller versions of domain images that can be quickly displayed for low magnification views of the section When proxies are in use the paging of sections at low magnification and the rendering of thumbnails can be faster because less image data needs to be read from the hard disk Initially no proxy images
7. Open the Object List and highlight the object name e g myObject you want to break into parts Select Modify gt Attributes gt Of Traces from the top of the Object List This opens the Trace Attributes dialog on the object In the Name field of the Attributes dialog change myObject to myObject_ and press OK Use caution when renaming to not give the parts of an object the name of another existing object because then they will become part of that object and may be difficult to separate Reconstruct v1 1 0 0 161 Appendix 1 Reopen the Object List and see that myObject has become a set of objects myObject_1 myObject_2 myObject_3 Each of these objects corresponds to one section of myObject Now it is possible to rename a group of sections into one subpart For example highlight myObject_10 through myObject_19 and select Modify gt Attributes gt Of Traces changing the name field from to myObject_part2 Reopen the Object List to see the change You can verify that myObject_part2 is a slice of the object by generating a 3D representation To put all the parts back together into one object highlight them all and Modify Trace Attributes changing the name field from to myObject When you reopen the list the original myObject will be all that you see Why does Add to Scene never finish and then crash when I close the series See Chapter 12 The problem is probably that you are too impatient for the complexity of
8. Reconstruct v1 1 0 0 6 Chapter 1 Quick Start From the Series menu select Options This opens a dialog that will allow you to configure the default parameters for tracing Select the Names Colors options tab at the top the dialog Put the cursor in the Name edit box and type a name for the object to be traced such as myObject This will be the name given to the profiles you draw All profiles with the same name are considered part of the same object Hit Enter or select the OK button to close the Options dialog The Tools window Figure 1 2 should be visible at the top of the main window Use the cursor to select the tool button that looks like a pencil The cursor will change to a pencil when the cursor is moved back into the main window Place the tip of the pencil on the edge of the profile to be traced as shown in Figure 1 4 Press and hold down the left mouse button Drag the tip of the pencil around the profile and release the mouse button when the tip gets near the start of the trace The trace will be completed closed and filled with a color og Oe Figure 1 4 Drawing a trace with the freehand drawing tool left Start of the tracing The pencil is positioned at the profile to be traced and the left mouse button pressed and held down middle Just before release of the mouse button The pencil left a trail where it was moved with the mouse from the start position right Right after release of the mouse button
9. The 3D Scene Hardware Requirements Reconstruct v1 1 0 0 18 Chapter 3 Software Overview Performance of RECONSTRUCT is determined by three main hardware components the graphics display adaptor the amount of RAM and the speed of the hard drive A high quality graphics display adaptor that accelerates OpenGL is highly desirable for 3D Scene operations Most modern game adaptors are satisfactory for this purpose The software was tested on a Radeon VE adaptor with 32 Mb of memory This device gave excellent OpenGL performance RECONSTRUCT is not a very demanding application from a memory standpoint because the data from only two sections is held in memory at one time Thus a very long series of hundreds of sections will not require any more memory than a short one A minimum requirement for good performance is free RAM equal to at least 3 times the total amount of data on a section Thus if a section contains 40 Mb of image data 40 40 40 120 Mb of RAM would be needed for running the program Allow for an additional 128Mb for the Windows XP operating system and desktop along with 20 40 Mb for each major application Acrobat Outlook Word Excel etc used simultaneously with RECONSTRUCT 512Mb of memory was adequate for all data used to test the software The greatest performance enhancer is a fast hard drive Note that hard drive performance is not necessarily the transfer rate given in the hard drive specifications
10. The contents of this section are two domains domain1 and domain2 and one trace named dendrite composed as shown in the upper left Each trace and domain is associated with an independent transformation that determines the size and location of the element on the section In this example each domain has a rectangular boundary that defines the area of the image to be displayed Reprinted from Fiala 2005 Reconstruct v1 1 0 0 12 Chapter 3 Software Overview Each image within a section is called a domain reflecting that it has a defined boundary and independent position within the section Multiple image domains can be placed side by side within a section to make a montage which is a composite picture of the section from many small images Images are entered into the computer by digitizing photographic prints negatives or by direct digital imaging with a digital camera For example the negatives on EM film are typically scanned at 1000 dpi using a conventional desktop scanner These files are saved as Bitmaps or TIFFs from the scanner software usually with a number in the filename indicating the section number The image files are then imported into RECONSTRUCT as domains within the sections RECONSTRUCT is designed to facilitate image cropping scaling and alignment Cropping is achieved by drawing a new domain boundary that specifies the region to be displayed on the section Image scaling is specified by a pixel si
11. The trace is closed and filled with color Press the Page Up key to advance to the next section The trace on the previous section will be saved automatically as long as the default save options were not changed in the Series Options dialog Repeat the process of tracing the profile with the mouse Continue paging and tracing until several sections have been traced Use the Page Down button to go back and verify that the data was saved correctly View Three Dimensional Object Select List objects from the Object menu to see the list of objects defined by traces in the series Use the left mouse button to double click the object name in the list or use a single mouse click and select Add to scene from the Scene menu at the top of the list window A three dimensional view of the object traces will appear in a 3D Scene window after a brief delay You can rotate the object representation by placing the mouse in the 3D Scene window and pressing and dragging with the left mouse button You can zoom in or stop the object s spin by pressing the right mouse button Pressing both mouse buttons together allows you to pan the scene To surface the object open the Series Options dialog and select the 3D tab In the 3D options change the Generate option from Traces to Boissonnat surface and click OK Go Reconstruct v1 1 0 0 7 Chapter 1 Quick Start back to the Object List window and again double click on the object name The object will be
12. This will move the correpondence points into alignment which can be verified by flickering Step 3 Select the domain from section II Use Ctrl R to repeat the alignment that was applied to the traces The domain will now have the correct transformation on section II that it should have on section If desired the alignment can be verified by merging and flickering however at the end of this step the domain should be selected Step 4 From the Movement submenu use Record from selected to capture the domain transformation from section Il Merge the domain back into section II Step 5 Import the domain image into section using the same pixel size as used when importing it into section II Select the new domain on section and repeat the transformation recorded from section II by using Ctrl R The domain will now be correctly positioned on section Go back and delete the domain from section II If desired the deletion can occur in Step 4 immediately after recording the transformation Reconstruct v1 1 0 0 117 Chapter 10 Alignments and Movements Aligning By Correlation A simple alternative to the point correspondence technique can sometimes be used to align domains or sections This technique uses the By correlation movement command Ctrl By correlation computes the peak of the cross correlation function between the front section and the back section so two sections or a domain and a section must be available
13. Users Group is available to everyone at http groups yahoo com group reconstruct_users A RECONSTRUCT Developers Group has been established at htip groups yahoo com group reconstruct_developers to provide a forum for collaborative open source development Anyone may contribute to the next version of RECONSTRUCT by joining the RECONSTRUCT Developers Group Members of the Developers Group gain access to the source code and may participate in developing the next version of RECONSTRUCT The developers group also provides additional information and links to the free development tools used for creating the application Reconstruct v1 1 0 0 Chapter 2 Software History w E e reconstruct_users Reconstruct Users Group a Z r v lz Page ba G Tools Si Search for other groups d Home Messages Links Activity within 7 days 1 New Member New Questions Database Polls Description SE Welcome to the Reconstruct Users Calendar Group Promote Reconstruct is a Windows application for Groups Labs montaging aligning tracing measuring and Beta reconstructing objects from serial section images For details see Fiala JC 2005 Reconstruct a free editor for Settings serial section microscopy J Microscopy 218 52 61 Group Information By subscribing to this group you will receive announcements about future releases and be able to participate in discussions about using Category Specifi
14. additional gap traces would be needed in this case to get accurate surface areas and volumes Reconstruct v1 1 0 0 101 Chapter 9 Calibration and Measurement Status Bar Measurements Traces are quantified in various ways and these values are reported in the lists as discussed below In addition the status bar reports incremental measurements related to the position of the mouse pointer on the screen When no tool is active the status bar reports the name of the trace nearest the pointer and the position of the pointer on the section in series units When a selected domain is displayed instead of a trace name the domain is reported along with the position of the pointer in image pixels When a drawing tool is active the reported value depends of the particular tool in use bk Gei IO These tools create a rectangular region when dragging while the left mouse button is depressed The status bar reports the area of this rectangle in series units Squared except in the case of the ellipse For the ellipse the rectangular area is multiplied by 7 4 giving the area of the ellipse that would be created when the mouse button is released For the Panning and Domain Selection Tools the status bar reports the total distance moved by a left mouse drag When a line is being drawn with the Line Tool the status bar reports the length of the candidate line on the section If the section is changed during drawing the 3D length is not report
15. proxy_scale the dimension of the proxy image divided by the dimension of src image The Contour element paired with an Image element is the set of points defining the boundary of the image domain A Contour element is the set of points defining a trace on the section The Contour element contains no other elements but has many attributes name the identifier of object to which the trace belongs hidden whether trace is displayed closed whether the trace closes on itself simplified whether trace points have been simplified border the displayed color of the polygonal representation fill the color of the interior of the trace when filled mode the type of filling operation used comment a string of user information points the sequence of x y coordinates of the trace Fig 3 3 shows a valid XML section data file based on the DTD Note that a similar DTD is defined for the series data file Series dtd but it is not expounded here because the large number of series options makes the file very long To read the DTD format open the series dtd file using any text editor lt xml version 1 0 gt lt DOCTYPE Section SYSTEM section dtd gt lt Section index 7 thickness 0 05 alignLocked true gt lt Transform dim 6 xcoef 0 240299 0 999416 0 0182671 0 0 On ycoef _ 0 0104287 0 0297386 0 997894 0 0 0 gt lt Image mag 0 002691 contrast 1 brightness 0 src _unaligned 7 gt lt Contour name domainl hidde
16. the Simplify command will have no effect Therefore to simplify an object you must first uncheck the simplified flag on all traces This can be done by opening the Object List Attributes dialog and clearing the simplified box NOTE There is no undo for simplifying objects Deleting Objects All the traces associated with a set of objects can be deleted from the series by using the Delete key on the Object List or selecting the Delete item from the Modify menu Deleting objects is permanent the deleted traces cannot be recovered For this reason any request to delete objects will be challenged by a warning dialog NOTE There is no undo for deleting objects Reconstruct v1 1 0 0 128 Chapter 11 Objects Creating Objects The Create menu provides a set of commands for creating z traces and objects from existing objects In the later case traces are created on multiple sections as needed to fulfill the command Copying Objects Selecting Copy from the Create menu of the Object List will duplicate all the traces for every highlighted object in the list The duplicate traces have the prefix Copy of added to the name While there is no undo for this multi section operation the copied object can be easily deleted The Copy command will create a duplicate set of traces on the sections These traces will exactly overlay the existing traces of the object so be careful about selecting and editing traces of copied objects as
17. 0 means no ambient light color while 1 gives the maximum reflectance for ambient light Transparency The transparency value determines whether light from other sources passes through the object A value of 1 0 makes the object completely transparent while 0 0 makes the object completely opaque Note that the implementation of transparency in the scene is not completely correct although it is often reasonable Fig 12 2 For better transparency export the scene to another application for rendering Specular Color Specular Color and Shininess together determine the specular highlights e g the shiny spot on the sphere in Fig 12 2 The areas of a surface perpendicular to the view direction receive the Specular Color in addition to any diffuse and ambient colors To make a surface shiny choose a whiter more intense Specular Color To make a surface non shiny set the Specular Color to black Shininess Shininess is a real value from 0 to 1 that determines the spread of the specular reflection Lower shininess values produce broad glows while higher values result in sharper highlights Filled or Wireframe Faces By default the triangular surface patches are filled with the color of the object both when seen from the front and when seen from the back Generally speaking the front surfaces are those seen from the exterior of the object while the back surfaces are those exposed to the interior of the object Fig 12 2 To display t
18. 1 94 p12 1 94 D15 1 94 D18 1 94 D20 1 94 1 94 Figure 11 1 The Object List window Objects are listed along with the range of sections in which traces of the object were found The Scene and Modify menus appear above the list The object D21 has been highlighted in the list The object D12 has been added to the 3D Scene as indicated by the shaded icon with the cyan background None of the other objects are in the scene as denoted by the yellow icon with lines representing section profiles The rows of the list were limited to objects with names that consist of the letter D followed by 2 digits as indicated by D in the title bar Multiple objects can be selected in the list by using the control or shift keys in combination with the left mouse button Pressing the Enter key or double clicking the mouse causes the selected objects to be added to the scene Selected objects can also be added to the scene by using the Add to scene item from the Scene menu When an object has been added to the scene the object s icon in the Object List is changed to a shaded figure with a cyan colored background Fig 11 1 By this mechanism the Object List indicates which objects are in the 3D Scene This allows particular scene objects to be selected and removed Selected scene objects are removed from the scene using the Remove from scene menu item from the Scene menu The Object List window can be made to include 3D measurements of objects suc
19. 56 i em Figure 9 5 Computation of the flat areas of a cell to cell junction imaged by electron microscopy The junction lies on the surface of two cell membranes In section 57 top the junction lies mostly within the section and is represented as a closed trace red In section 56 bottom the junction lies mostly perpendicular to the section and is represented as an open profile red The flat area is the enclosed areas of the closed traces plus the lengths of the open traces times the section thicknesses Some sections of the object not shown See Chapter 8 for detailed information on Open and Closed traces Volume Volume is computed using the Cavalieri formula Reconstruct v1 1 0 0 107 Chapter 9 Calibration and Measurement Volume 8 area X thickness allsections Each trace contributes the product of its enclosed area as computed in the Trace List times the section thickness Traces with negative areas diminish the volume and open traces contribute nothing Z Trace List Measurements Lengths of z traces are reported in the Z Trace List window All values are computed at the time the Z Trace List window is filled To make sure that the values are up to date after adjusting section thicknesses refresh the Z Trace List All values are in series units Length The length of a z trace is the sum of the distances between points length By ETA ETC EE AE TEEN H The x and y positions of the points were deter
20. 6 The Trace List window This example list includes each of the possible list icons and trace names that correspond to the attributes for these icons In this list only the Area data column was included Note that open traces have zero enclosed area The in the title bar is the default limit string which effectively displays every trace in the section Multiple traces can be selected from the Trace List by highlighting trace names with the mouse and then pressing Enter or the Se ect menu item at the top of the list When traces are selected from the list any traces previously selected in the section are deselected the list traces are selected and unhidden if necessary and control is returned to the main window Editing Traces Existing traces can be edited using the tool that looks like scissors The Scissors Tool is used to break a trace at the cursor point and start redrawing it using the point by point method Backspace can be used to undo a portion of the trace after breaking it with the scissors If the trace is clockwise as most are then be sure to select a point further clockwise than the part of the trace to be redrawn This will ensure that backspace which is usually counterclockwise gets rid of the unwanted part of the trace When the left mouse button is pressed the segment of the trace nearest the cursor is removed and the tool is immediately switched to a Point by Point Drawing Tool If an open trace is edited the
21. Adding objects to the scene expands the bounding box but removing Reconstruct v1 1 0 0 145 Chapter 12 The 3D Scene objects from the scene does not reduce the bounding box This allows arbitrary centers of rotation to be defined by adding appropriately positioned objects to the scene and then removing them To reset the bounding box after removing objects it is necessary to clear the scene add any desired objects and then reset the scene The scene can be viewed in two different modes perspective or orthographic In perspective mode the default the scene can be magnified by zooming in until the scene passes through the front view plane Similarly the scene can be demagnified by zooming out until the scene passes the rear of the viewing volume In orthographic mode the scene can only be magnified by enlarging the window not by zooming Zooming in orthographic mode only moves the scene relative to the viewing volume This feature may be useful for creating a cutting plane to reveal the interior of the object Objects in a scene with zigzag appearance are usually due to misalignments between sections Realignment of sections and traces can correct this problem Rotating Panning and Zooming To rotate the scene press and hold the left mouse button in the 3D Scene window Drag the cursor across the scene in the desired direction of rotation The scene will begin to rotate at a speed proportional to the speed of the cursor movement
22. I close the series Surfacing and 3D Output 1 Why does my Boissonnat surface have irregularities 2 Can I fix surface irregularities with Simplify 3 How do I generate a 3D representation for an object that appears on a single 4 section 5 Icopied the same trace on adjacent sections Why is the 3D surface so bad 6 7 8 9 1 How can I reduce the number of lines faces in my VRML output How can I bring multiple series together accurately within the 3D Scene How can a 3D scene window be reset Why does the program crash when I open or interact with the 3D Scene 0 Why does my object appear as only lines in the 3D Scene Reconstruct v1 1 0 0 153 Appendix 1 11 Why can t I smooth my reconstruction in 3D Studio MAX 12 How can I record save a video sequence of my rotating 3D Scene 13 How can I view a saved VRML scene ANSWERS General Is it possible to run RECONSTRUCT on a Mac RECONSTRUCT will run under other operating systems provided a Win32 emulator translator in installed RECONSTRUCT binary may run on Virtual PC Apple s Pentium Windows emulator but this has not been systematically tested by the developers of RECONSTRUCT Anectodal feedback suggests RECONSTUCT runs in Bootcamp and in Parallels Bootcamp is a tool from Apple that lets you partition your computer s hard drive and install Windows on one of the partitions Once you ve done this it s basically like
23. Manager select the Applications tab and find the RECONSTRUCT icon beside the name of the series If the Status is listed as Not Responding highlight this entry with the mouse and then click on the End Task button Warning Unsaved changes to the current and previous sections or to the series options will be lost by aborting RECONSTRUCT from the Task Manager Copyright 2006 by John C Fiala Revised by K Harris and K Sorra 2009 Reconstruct v1 1 0 0 34 ae Chapter 5 Series A series consists of set of files in a single writable folder although the image data can reside in read only files in another folder or drive This chapter describes how to create and manipulate a series Manipulation of sections within the series is described in the next chapter Creating a Series A new series can be created by selecting New from the Series menu The New Series dialog will appear Navigate to an existing folder or create a new one for the series Type a name for the series in the Filename box Each series in a folder must be given a unique name following the usual rules for filenames given by the operating system The maximum length for the series name is 255 characters The extension ser will be appended to the filename if it is not typed in the box After selecting the Save button the ser file will be created with default settings WARNING Any existing series file with the same name will be overwritten The next ste
24. Section box If the sections are not numbered correctly and the filenames contain numbers indicating the correct order you can use the Sort Numerically checkbox to reorder the files in the list For finer control of section numbering you may have to import images in stages Create the section files by selecting the Import button in the dialog As the image files are added to the series they will be deleted from the list After the images have been imported you can repeat the process to add more images to your series When all images have been added use the Quit button to close the Import Images dialog To view the sections open the List sections from the Section Menu and double click on one of the listed sections This will move the display to that section in the series Press the Home key After a brief delay the image of the first section will be centered in the Reconstruct v1 1 0 0 3 Chapter 1 Quick Start main window Use the Page Up and Page Down keys to advance section by section through the series Verify that the images were imported as expected with the correct section numbers The number of each section appears in the title bar of the main window Calibrate Pixel Size An important parameter during image import is the pixel size which we ignored in the previous section This parameter specifies the size of image picture elements pixels in terms of the units of measure of the series Chapter 9 If the pixel size in th
25. The information in a list may occasionally need refreshing after changes to the sections or traces of the series Any list can be regenerated by closing it and repopening it or by selecting the Refresh item from the List menu Refresh will erase the current list and refill it based on the current series data Thumbnails Window Thumbnails images of the sections can be viewed by selecting Thumbnails from the Section menu Fig 4 4 Each thumbnail image is placed on a button in the Thumbnails window and the buttons are displayed in one of two ways In the default display mode the thumbnail buttons are arranged to fill the window starting in the upper left hand corner Resizing the window results in rearrangement of the buttons to fill the window lt NewSeries Program Series em Domain Trace Object Help List sections ice New Save Thickness Blend Space Zoom Movement Figure 4 4 The Thumbnails item from the Section menu in the main RECONSTRUCT window Putting the pointer over a thumbnail button for a certain amount of time results in display of the section number in the title bar when the Thumbnails window is active Selecting a thumbnail with the left mouse button results in the main window being activated and paging to the section The thumbnail buttons cannot be navigated with the keyboard but can be scrolled through using the scroll button on the mouse Table 4 6 Reconstruct v1 1 0 0 26 Chapter
26. above Z NewSeries 2 Program Series Section Domain Trace Object Help Figure 7 7d Proper alignment results in sharp clear features where regions of interest are in cross section Reconstruct v1 1 0 0 66 Chapter 7 Domain Images To fix the appearance of a cracked section import the section image Fig 7 7a to create a new domain Redraw the domain boundary around the section on one side of the crack Fig 7 7b Align the domain with the section above or below it Fig 7 7c in the series Alignment can be accomplished by translating the domain by using keyboard commands e g up and down arrows or left mouse button Blend the new domain with the section and shift it until the edges of the two pieces match Fig 7 7d Merge the domain into the section If desired import the cracked image a second time and redraw the domain around the other side of the crack Merge the second domain into the section to complete the process and align Use similar methods to fix undesirable folds in a section Reinitializing a Domain When a domain is selected the Reinitialize submenu becomes accessible on the Domain menu This submenu provides a way to reset all of the changes in contrast and brightness the domain boundary and in the positioning of an image Contrast The Contrast item of the Reinitialize menu clears the contrast setting to 1 and the brightness setting to 0 These are the values when the domain image is first
27. across the window Releasing the mouse button results in the scene continuing to rotate at this speed in spin animation To stop this rotational spin press the right mouse button Scene rotation with the mouse is in two directions left to right horizontal rotation or up and down vertical rotation The final motion can be a combination of these rotation directions but not a rotation in the plane of the scene window To roll the scene in the plane of the scene window it is necessary to use a combination of rotations First rotate the scene 90 degrees horizontally then apply the desired vertical rotation and horizontally rotate the scene back to the original viewpoint To pan the scene press and hold both left and right mouse buttons simultaneously Then drag the cursor to shift the scene in a particular direction To avoid activating rotational spin release the left button before releasing the right button The scene can be zoomed by using the right mouse button alone Dragging the cursor upward with the right mouse moves the viewpoint away from the scene effectively zooming out Dragging downward zooms in bringing the scene closer As parts of the scene get very close to the viewpoint they will disappear from view This feature can be used to look through the exterior surface of an object to see the inside Spin An important aspect of viewing scenes is dynamic rotation to allow the 3D structure to be fully appreciated on a 2D computer scree
28. all the traces of the selected objects in all sections of the series For example to change the color of an object select the object in the Object List and then open the Attributes dialog The Object Attributes dialog will appear with a title indicating that 1 object will be changed Fields of the dialog will be grayed to indicate that no changes will be made to these fields unless a change is specifically entered in the dialog Click on the Border button and select a color for the object Close the color dialog and click the Apply button to change the border color of all the traces of the object in all sections NOTE There is no undo for changing object attributes Changes made to the object traces will not be reflected in the Object List or 3D Scene immediately If a change is made to the color of an object s traces and that object is already in the 3D Scene the object will need to re added to the scene to show the color change Obviously a simpler way to change the color in the scene is to use the Color Transparency command from the Object List Scene menu Renaming Objects Objects are renamed by changing the name attribute of the object s traces Unlike the Attribute dialog the Rename dialog allows the operation to be applied to a subset of the object s traces The operation is carried out over a range of sections specified in the dialog The default section range will apply the name change to all traces of the object To limit
29. be permanently deleted Delete all image files referenced from these sections This operation cannot be Undone Continue Figure 6 3 The Delete Sections dialog invoked whenever the user requests to delete sections from the Section List The Undo Stack Each section has an undo stack associated with it The undo stack keeps copies of the section data as changes are made allowing the user to return to previous versions of the section Changes saved in the undo stack include movements of sections domains and traces adding or deleting traces and domains etc The undo stack can hold up to 16 changes The undo stack for a section is cleared each time the section is loaded into memory A section is loaded into memory whenever it is displayed in the main window as the current section The exception is when it was the previous section displayed in which case the undo stack is retained in memory Only when two new sections have been displayed is the undo stack for a section finally deleted from memory To restore the section to the state prior to the last change select the Undo item from the Section menu This can be accomplished more quickly by using Ctrl Z on the keyboard If the Undo item is disabled then the undo stack is empty To return to the state prior to the first change in the undo stack select the Reset item from the Section menu Immediately after an undo is made the state of the section prior to the undo can be restored us
30. before closing it Shown are the default settings for a new series Names Colors The Names Colors tab defines the default trace parameters i e the name color and other attributes that will be used whenever a new trace is drawn Use this tab to set the values before starting to draw See Chapter 8 Traces for details on trace names and other attributes The Names Colors tab also allows the trace palette entries to be edited The trace palette can be accessed from the Trace menu to quickly switch between trace names and attributes while drawing Note that changes to palette entries are carried out immediately rather than waiting for an OK in the Series Options dialog Such changes cannot be cancelled using the Cancel button Grids The trace parameters for the Grid Tool are specified in the Grids tab Grid traces are predefined shapes that are drawn onto the section in repetitive patterns or arrays For more details on the types of grid patterns that can be generated using these options see Chapter 8 Traces Reconstruct v1 1 0 0 37 Chapter 5 Series 3D The 3D tab specifies how three dimensional representations of objects are generated from traces Chapter 11 Objects These representations determine the size position and appearance of objects in the 3D Scene The 3D tab also controls the section number range from which such representations are created When generating objects from the traces make sure the sections are included
31. but data can be be organized to the extent that name strings limit the view of the data e g show only the objects associated with dendrite D01 and their measurements This is possible in RECONSTRUCT through object names and their limit strings in the Lists tab of the Series Options For example if one names objects as follows N01D01 N01D01Synapse01 N01D01Synapse02 N01D01Synapse22 N01D02 N01D02Synapse01 N01D03 Reconstruct v1 1 0 0 154 Appendix 1 N0O1D03Synapse01 N02D01 N02D02 N03D01 Then if the Limit string for the Object List is set to N01 the Object List will only show the objects associated with neuron N01 To see all synapses on all neurons one can use the limit string N D Synapse To see all the dendrites on Neuron N02 one can use limit string NO2D And so on Limiting the view of the traces to relevant Objects is also possible Select everything you don t want to see in the Object list and then Modify gt Attributes to set the Hidden flag for these objects Then when you browse the sections the traces of these objects will not be displayed only the selected objects will be visible To unhide check the Unhide all traces when loading section option in the General tab More information on limit strings can be found in Chapter 5 of the Users Manual If your series is becoming to complicated you can use file system subfolders to break your series into manageable subsets For example suppo
32. changes can easily be made on the wrong object Smoothing Objects The Smoother version command will copy every highlighted object in the Object List and apply the Smooth operation Chapter 8 Traces to every copied trace The smoothed traces have the suffix _smooth added to the name where is replaced by the filter length used during smoothing The filter length specified in the Autotracing tab of the Series Options will be used during smoothing Since smoothing may modify the traces in such a way that loops are created smoothed traces are marked as unsimplified Thus the Smoother version command can be followed immediately by the Simplify command Note that the Smoother version command does not smooth the shifts between sections caused by misalignments of domain images Smoothing of these section to section offsets requires the generation of z traces along the object Creating Z traces at Midpoints A z trace can be automatically generated along the midpoints of an object by using the Z trace at midpoints command from the Create menu The midpoints are the average of the maximum and minimum extents in the x and y directions of the traces of the object on each section If an object has only one trace on a section the z trace point will be placed at the midpoint for that trace If an object has multiple traces on a section the midpoint will be placed at the center of the group Calculating the Distances Between Objects A dist
33. color i e it is grayscale Hue is actual color red green blue etc To get a visual picture of the colors defined by different hue saturation and brightness values open a color dialog by clicking on the Fill color button in Names Colors tab Note that brightness is sometimes referred to as luminance A stop criterion can be disabled by selecting the differs by relation with a large 255 value For example to Reconstruct v1 1 0 0 91 Chapter 8 Traces ignore color during region growing set Hue differs by 255 Since this can never be true a change in hue will never stop a region from growing In addition to the stop criteria Wildfires can be contained by creating firebreaks with the right mouse button This is typically used to separate two regions that are connected by a small gap Such gaps are often discovered after having created a Wildfire that spread more than expected To correct the spread of the Wildfire delete the bad trace and place the cursor at one edge of the gap Press and hold the right mouse button The cursor will change to a burnt out match Drag the cursor across the gap leaving a small black line Release the mouse button to create the firebreak Use the left mouse button to repeat the original Wildfire The region growth will not pass through the firebreak although it can still grow around it if additional gaps remain During Wildfire region growing the cursor will change to an hourglass This should
34. comment strings Trace Clipboard The trace clipboard is an internal memory of the most recent set of traces copied or cut from the series This clipboard is distinct from the Windows clipboard and cannot be used to paste data into another application It can be used to paste trace data between sections within a series or even between series Put the selected trace on the trace clipboard by selecting Copy from the Trace menu Ctrl C This item is only enabled when one or more traces have been selected in the section To also remove the selected traces from the section use Cut Ctrl X Copying or cutting to the trace clipboard deletes any traces currently in the clipboard before storing the new ones Traces deleted with the Delete key or menu item are not put on the clipboard Reconstruct v1 1 0 0 89 Chapter 8 Traces When the trace clipboard has data that can be pasted into the section the Paste item in the Trace menu is enabled Select Paste from the menu or use Cirl V to add the traces to the section Any traces that are selected on the section are deselected and the pasted traces are selected Pasting data does not empty the trace clipboard and the same traces can be repeatedly pasted into sections Use Paste attributes Ctrl B to copy the attributes of the first clipboard trace onto the selected traces The Get Clipboard button in the Trace Attributes dialog also allows the attributes of a clipboard trace to be copied to ot
35. data is possible This remapping can be used to move an image on the section or to increase the size of a trace for example Keyboard Increments As described in Chapter 4 User Interface the keyboard performs diverse functions in the main window but an important additional function is making movements Table 10 2 summarizes the movements that can be performed by keystrokes This information is also available by selecting Key commands from the Help menu A keyboard overlay can also be used as a quick reference see Appendix B Generally all keyboard movements can be applied to traces domains or entire sections If a trace or domain is selected then keyboard movements apply only to the selection Selected elements are always moveable locking the section does not prevent movement of selected elements If no elements are selected and the section is unlocked then keyboard movements are applied to the entire section including all traces and domains TABLE 10 2 Movement keystrokes in the Main Windows Keystroke Action F1 Flip horizontally F2 Rotate 90 degrees clockwise F3 Rotate counterclockwise increment F4 Rotate clockwise increment F5 Slant deform horizontally in counterclockwise direction F6 Slant deform vertically in counterclockwise direction F7 Slant deform vertically in clockwise direction F8 Slant deform horizontally in clockwise direction F9 Scale to shrink horizontally F10 Scale to shrink vertically F11 Scale
36. dendrite3 bmp BMP 3 0 000000 0 000000 microns RA dendrite4 bmp BMP H 0 000000 0 000000 microns ZH dendrites bmp BMP 5 0 000000 0 000000 microns KA dendrite6 bmp BMP 6 0 000000 0 000000 microns KA dendrite7 bmp BMP 7 0 000000 0 000000 microns RA dendrites bmp BMP 8 0 000000 0 000000 microns ZH dendriteo bmp BMP 9 0 000000 0 000000 microns Figure 1 1 The Import Images dialog box after images have been selected using the Select button Since the file names contain the section index automatic numbering is realized by having a 1 specified in the First Section box Choose image files using the Select button This button will open a file selection dialog In this dialog navigate to the folder containing the image files and highlight the image files using the mouse Multiple files can be highlighted using the Ctrl or Shift keys The filenames will appear in quotes in the Filename box when multiple files are selected When all desired images have been selected use the Open button to transport the filenames into the Import Images list Figure 1 1 shows the Import Images dialog after some images have been selected The source directory is given at the top of the dialog The filenames of recognized image files and their formats are listed in the left most columns of the list The third column gives the section number to which each image will be imported Set the first section number of the sequence by typing the number typically 1 in the First
37. described in detail elsewhere in this chapter The Tools window Fig 8 1 opens automatically when starting RECONSTRUCT or can be accessed by selecting Program gt Windows gt Tools window Several drawing tools are provided in the Tools window Each Tools window button indicates the type of trace to be drawn Point by Point Drawing Tool Freehand Drawing Tool Closed Point by Point Drawing Tool Ellipse Tool Rectangle Tool and Line Tool Pressing a tool button places the description of the tool in the title bar of the Tools window Moving into the main window changes the mouse pointer to the tool cursor Most drawing tools also support a precision crosshair cursor Ctrl P Program Seles Sector Bomar Trace Object ale 3 EE Pass EES aN Main Menu di Tools Window Mam Window Te Status Bar section 17 Figure 8 1 Initial window layout in RECONSTRUCT showing the floating Tools window Reconsttuct v1 1 0 0 71 Chapter 8 Traces Open Point by Point Drawing This tool is used for drawing an open trace as a sequence of line segments Select the tool and begin drawing in the main window by pressing and releasing the left mouse button A candidate line segment is shown as the mouse is moved When the line segment is as desired click the left mouse button again to add the segment to the trace Segments are sequentially added in this manner until the right mouse button is pressed to complete the trace Duri
38. executing a subsequent Linear or Rigid alignment After a Linear alignment an Undo is not necessary prior to adding points and trying again with a Linear Deformal or Quadratic alignment Repeating an Alignment A command from the Align submenu can be repeated and propagated just like any other movement Use the Repeat item from the Movement submenu to apply the same adjustment to subsequent sections Use Propagate to apply the same adjustment to many sections Remember Repeat can be undone but Propagate cannot section 101 section 102 section 103 section 104 section 105 Figure 10 2 A series with a misalignment between sections 103 and 104 By comparing the view of the faces all the lower sections 101 through 103 are aligned to each other All the upper sections 104 200 are also aligned but a misalignment between sections 103 and 104 spoils the complete series alignment Sometimes a misalignment is found in the middle of an aligned series creating the scenario depicted in Figure 10 2 To fix such an alignment mistake align the section on the upper side of the mistake section 104 in the figure to the section on the lower side section 103 Keep undoing the alignment command fixing the points and repeating the alignment command until completely satisfied with the result Only the last alignment command can be propagated so using multiple commands from the Align submenu without Undos between them will not work in this
39. files box to copy the image data into the same folder as the current series Without this the current series will create a relative path to the images in the original folder Checking the Copy from Sections box enables importing of section data from a series Data will be imported only from existing sections within the range specified Importing domains or traces will add these elements to the corresponding sections in the current series If a corresponding section does not exist in the current series then the section will be created The matching strings in the Import Series dialog can be used to select which domains or objects to import This trace matching string works just like the limit string in the Object List So if you can limit the Object List to just the objects desired to be exported from one series using that same limit string in the Import Series dialog will ensure that only those objects are imported Be aware that importing an existing object will create multiple copies of the object traces in the current series To merge an object from two series first rename the object in the current series then import it from the other series and perform a section by section comparison of traces to decide which ones to keep The Import Series dialog can be used to copy and rename an entire series This includes copying the actual image source files but it does not facilitate renaming these files Copyright 2006 by John C Fiala Revi
40. immediately to the palette entry The palette entries can also be selected and set using the keyboard Table 4 2 even when the Trace Palette window is not open Pressing the number keys 0 through 9 when the main window has the keyboard focus sets the default trace attributes for drawing from the corresponding palette entry of the first ten entries The Ctrl key in combination with the number key sets the current default drawing attributes onto the corresponding palette entry Although only the first ten palette entries can be accessed using the keyboard the last ten entries can be switched with the first ten by using the Swap Rows button in the Names Colors tab of the Series Options This also allows stamp shapes to be set as described above on the last ten palette entries When the palette name contains automatic numbering it does not get updated like the default trace name does during tracing Use the Ctrl number key command to update the palette after tracing For example if the Oth palette entry name is set to d00 then selected and used for drawing 4 traces the default trace name would be incremented d01 d02 d03 d04 but the palette entry would remain d00 Pressing Ctrl O would update the palette entry to d04 The palette is mainly for quickly changing the default attributes when drawing new traces However it can be used to modify existing traces as well To give the attributes of a palette entry to an existing trace select
41. imported Boundary Reinitializing the boundary sets it to a rectangle that borders the entire image The last boundary can be recovered by Undo Ctrl Z until the section is saved and removed from memory Transform By reinitializing the transform all positioning and alignment information will be cleared from the domain and it will be set to the origin of the section The pixel size information will not be changed but any magnification information stored in the transform will be removed as well Ctrl Z Undo can be used to recover the transform while the section is still in memory Copying Domains When an image has severe distortion due to cracks or folds in the section it may be useful to define two or more domains for the image that can be moved or aligned independently To make this task easier a command is provided in the Domain List to copy a domain image within a section To copy a domain open the Domain List and highlight the name of the domain to be copied then select Copy from the Create menu A domain identical to the highlighted domain will be added to the section Since the domain has the same image and transform as the original domain it will exactly overlay the original image so that the section does not appear different You can select the domain and move it to verify that two domains are now overlaid in the image but both domains should also appear in the domain list By drawing a different domain boundary for each
42. in the section number range in this tab Lists The options in the Lists tab Fig 5 2 determine what data values are displayed in the data columns of the list windows The columns of the lists are specified by checkboxes for each list These settings are saved with the series The rows of a list are determined by the limit string in the Limit tool box The limit strings are reset to the default value whenever a series is opened The rows of this list will be all elements that match the limit string A limit string can be a specific value such as mito which would display only rows named mito Se Series Options 2 x Movements Proxies Thumbnails AutoTracing General Names Colors Grids 3D Lists Use wildcard string to limit rows Check Columns to display Section List r Trace List Object List Limit To Limit To Limit To Oo MEO V Thickness V Comment Range V Length IT Count r Domain List V Area Surface area Limit To V Centroid IT Flatarea F v Extent Volume Vv Z distance m zZ Traces v Source Je Thickness tere v Pixel size Distances List F Length Limit To Area P Kg TC Midpoint KE V Length Figure 5 2 The Lists tab of the Series Options Dialog The settings in the Lists tab determine what rows and columns will be displayed in the list windows Any changes will be accepted with the OK button and rejected
43. main window always has the same effect as Page Up and Page Down Create a Series Start the RECONSTRUCT program and from the Series menu select the New menu item A file open dialog will appear Navigate to a folder on the hard drive where the new series files can be written If desired you may create a new folder from this dialog The word newSeries should appear in the Filename box near the bottom of the dialog This will be the name of the series files created to store the series data Select the Save button in the New Series dialog to create the series Import Section Images Import section images into the series using the mages item from the Import submenu of the Series menu This will open a dialog for creating the section files from a set of image files Fig 1 1 Image files can be in a variety of formats including Windows Bitmaps GIF TIFF and or JPEG Each image file should contain a single image not an image stack representing one section in a series and should use a representation of 8 or 24 bits per pixel Reconstruct v1 1 0 0 2 Chapter 1 Quick Start Source C fialaJRECONSTRUCTitest Import Pixel Size 0 002540 OfsetX 0 0 sl 00 v Copy files to series folder Quit Randomize IT Sort numerically Start numbering at 3 and increment by 1 Place Image of Type into Section _at Position E dendrite1 bmp BMP 1 0 000000 0 000000 microns KA dendrite2 bmp BMP 2 0 000000 0 000000 microns ES
44. object to the scene to reveal the smoothed reconstruction The effect is demonstrated in Fig 11 5 Reconstruct v1 1 0 0 136 Chapter 11 Objects Figure 11 5 Reconstructions of the same data with and without smoothing using the difference of z traces The top object shows the original reconstruction while the bottom one shows the dramatic effect of the smoothing operation Note that the smoothing shift is applied to any objects reconstructed in this case including the synapses on the surface of the denarite Normals All representations except Traces define surfaces To properly reflect light and produce a shaded 3D shape each part of the surface should have a surface normal vector For Trace Midpoints no normals are generated because these representations use emissive color rather than diffuse color see Chapter 12 The 3D Scene For Trace Slabs face normals are generated For all other representations the Normals option allows normals to be generated for faces vertices or eliminated altogether Eliminating normals will result in an unrecognizable 3D shape because there will be no shading Face normals generally produce a faceted appearance to the 3D object Vertex normals produce a smoother shading transition between faces Consequently vertex normals are best except when the object really does have sharp corners e g the Box object When exporting an object for use in another rendering program such as 3D Studio MAX use fa
45. of faces in 3D output dimensions of 3D object default type of grid trace to draw number of elements in x and y size of elements in x and y separation between elements in XY wildfire hue stop criterion wildfire hue stop value wildfire saturation stop criterion wildfire saturation stop value wildfire intensity stop criterion wildfire autotrace area change wildfire minimum region size wildfire intensity stop value wildfires stop at traces if true sizes of keyboard movements sizes of keyboard movements when Ctrl key is held down sizes of keyboard movements when the Shift key is held down palette contour attributes and stamp shapes Reconstruct v1 1 0 0 42 Chapter 5 Series Exporting and Importing Images Sections contain a set of transformed images domains and traces Importing multiple images into sections can be carried out by opening the Images dialog from Series Import menu This dialog is documented in Creating a Domain in Chapter 7 Domain Images Entire sets of section data can be exported to image files using the Images dialog from the Series Export menu This dialog is described in Exporting Section Images in Chapter 6 Sections Exporting Trace Lists The Trace List window provides a listing of traces and trace measurements from the current section see Chapter 4 User Interface and Chapter 8 Traces These individual Trace Lists can be saved to a file and then imported into Excel by using the S
46. of the Series Options the absolute path including both the folder name and the file name will be stored as the domain path This option would allow the series folder to be moved around while the image files remain in a fixed location Reconstruct v1 1 0 0 62 Chapter 7 Domain Images Information about the source image file is also included in the attributes dialog This information included the image file format the number of bits per pixel and the file size The size is given both as width and height dimensions in pixels and as the number of kilobytes of memory the image requires when decompressed The Attributes dialog also reports the name of the proxy image file if one exists and the dimension reduction factor of the proxy image These values can only be changed in the Proxies tab of the Series Options see below Pixel Size The pixel size specifies the size of the image picture elements pixels in terms of the units of measure of the series This can be changed for a domain by typing a new value in the Attributes dialog The pixel size can also be changed by using the Pixel Size dialog from the Section List or by calibrating traces It is best to calibrate the pixel size at the time images are imported For more information on the pixel size parameter and its calibration see Chapter 9 Calibration and Measurement Note Changing the pixel size of a domain will effect the alignment of the domain image with traces and with oth
47. of traces completely change the Fill mode to be None The selected traces are filled when they are not selected by checking that box in the Attributes dialog The trace will be given a transparent interior when they are selected This is useful for showing particular regions as highlighted on the sections or in the thumbnails The Fill mode determines how the fill color will be combined with the underlying image or other trace data to produce the final display A Fill mode of Solid will color the interior with a solid color no image data will be visible A Fill mode of None means that no filling will be applied to trace regions Darken fill mode sets the display to a combination of the colors common to both the fill color and the underlying image such that a fill color of white would result in a completely transparent fill while a black color would result in a solid black fill A pure blue 0 0 255 fill on a grayscale image would result in shades of blue replacing the grayscale Lighten uses a combination of the fill color and the image color such that the opposite effect is produced Black fill results in transparency while white fill color produces a solid white interior The basic colors that have either 0 or 255 for the red green and blue channels work best for fill modes using Lighten or Darken Hidden A trace can be hidden from view in a section by checking the Hidden checkbox in the Attributes dialog A hidden trace will not be dra
48. one zooms into a section such that there is no black border on screen and selects Make Images Resemble Current View from the Export Images dialog Fig 6 5 there will not be a black border on the exported images Reconstruct v1 1 0 0 53 Chapter 6 Sections NewSeries 4 Program Series Section Domain Trace Object Help ES eae S Ae E fad Section 4 Position 7 05267 6 74409 microns Figure 6 6 A black border may appear around an image The position of the image relative to the black border is determined by the original transformation used to align the images The sections can be rendered at any resolution by adjusting the pixel size The pixel size is the number of section units per pixel Chapter 9 Calibration and Measurement By decreasing the pixel size more pixels will be used to render the data A larger pixel size will result in fewer pixels being used to represent the same image data An arbitrary positive number can be typed in the Pixel Size box to specify the number of pixels used in the output For convenience two different pixel sizes are automatically provided for full and current view resolutions Full resolution uses the smallest pixel size detected among all domains in all sections Essentially every pixel in the original data will have at least one full pixel in the rendered output provided there are no scaling transformations applied to the data For any pixel size the resulting width and heig
49. range in z trace Reconstruct v1 1 0 0 41 Chapter 5 Series listZTraceLength borderColors fillColors offset8D max3Dconnection first3Dsection last3Dsection type3Dobject upper3Dfaces lower3Dfaces faceNormals vertexNormals facets3D dim3D gridType gridNumber gridSize gridDistance hueStopWhen hueStopValue satStopWhen satStopValue brightStopWhen areaStopPercent areaStopSize brightStopValue tracesStopWhen mvmtincrement ctrilncrement shiftIncrement contours boolean true floats 0 0 0 floats 0 0 0 floats 0 0 0 float 1 integer 1 integer 9999 integer 0 boolean true boolean true boolean false boolean true integer 8 floats 1 1 1 integer 0 integers 1 1 floats 1 1 floats 1 1 integer 3 integer 50 integer 3 integer 50 integer 0 float 999 0 float 0 0 integer 100 boolean false 0 022 1 11 01 1 01 0 02 0 02 0 001 0 001 0 0044 0 01 0 01 1 002 floats 1 002 0 004 0 004 0 0002 0 0002 floats floats 9 005 0 005 various various 0 11 10 10 1 05 1 05 0 1 0 1 list include length in z trace list custom colors for trace borders custom colors for trace fills positional shift applied to object Boissonnat surfacing parameter first section for 3D generation last section for 3D generation type of 3D representation to use Boissonnat surfacing parameter Boissonnat surfacing parameter whether to create face normals whether to create vertex normals density
50. running Windows on any other machine with full 3D hardware acceleration etc Parallels is a 3rd party application that lets you use the Bootcamp partition to run Windows within the Mac environment much like any other application Can use RECONSTRUCT for stereological measurements such as unbiased counts See Chapter 8 Yes RECONSTRUCT works well for making stereological measurements on serial sections and includes facilities for generating sampling grids Can I use RECONSTRUCT with light microscopic sections Yes RECONSTRUCT allows you to align and reconstruct from any serial section images If you have optical sections which are already aligned using them will be no problem For sections mounted and imaged separately the challenge in realigning them depends on the amount of warping distortion in the sections Can I use RECONSTRUCT with confocal microscopy Yes individual section images or TIFF image stacks from confocal microscopy can be imported into RECONSTRUCT The Wildfire Tool has been used successfully to semiautomatically reconstruct confocal image data How many different colors objects can I trace RECONSTRUCT offers more than 16 million colors for tracing shading and more than 10 different trace names so you can create more objects than you will ever need Is it possible to organize data in a hierarchical tree See Chapter 5 RECONSTRUCT does not have built in object classes or a data hierarchy
51. sections are affected in the same way The relative position of a section is not changed by panning or zooming Moving or aligning a section permanently changes the relationship of the section to the rest of series Paging Sections Sections in the series can be accessed sequentially by using the Page Up or Page Down keys Page Up changes the displayed section to the next higher section number while Page Down changes to the next lower section number If no higher or lower section is found for Page Up or Page Down respectively a warning beep may be issued depending on the Series Options settings Paging can also be performed by the mouse wheel when the mouse is in the main window Blending and Flickering Sections RECONSTRUCT maintains two sections in memory the currently displayed section and the section previously displayed It is therefore possible to rapidly switch the main window display between these two sections This can be done with the key Pressing and releasing the key will switch the display back to the previous section If no previous section is available a warning beep will be issued provided the Beep when paging fails option is turned on Holding the key down will flicker between to the two memory sections Flickering sections is sometimes useful to detecting misalignments by observing apparent motion of objects in the images Chapter 10 Movements and Alignments The first after paging may require re rendering o
52. series Enter Generate the 3D objects and add to the scene Shift Highlight multiple objects Left Mouse Click Highlight the object under the pointer Left Mouse Dbl Click Generate and add object under the pointer 3D Scene Window The 3D Scene window displays the 3D representations of objects using OpenGL OpenGL libraries must be available in order to view this window The window can be opened or closed from the Object menu Fig 4 9 or by creating a 3D object representation from the Object List window Reconstruct v1 1 0 0 31 Chapter 4 User Interface lt NewSeries Program Series Section Domain Trace Baaze Help List objects 2 Traces R Distances Figure 4 9 The 3D Scene item from the Object menu in the main RECONSTRUCT window Details of the 3D scene manipulations using the mouse are described in Chapter 12 The 3D Scene but are briefly summarized in Table 4 11 If the scene or menus flicker in the 3D Scene window unchecking the Spin item in the View menu may remedy the problem The animation performance may also be affected by having other windows open in the application or on the desktop TABLE 4 11 Mouse Actions in 3D Scene Window Mouse Action Left mouse drag Rotate scene Right mouse drag Zoom scene Left and right drag Pan scene Note Pressing the right mouse button will pause any on going animation Z Trace List Window The Z Trace List window is opened fr
53. set the threshold to less than the domain dimensions and set the proxy fraction for thumbnail display thumbnail height proxy fraction 1 2 x Ge domain height Copyright 2006 by John C Fiala Revised by K Harris and K Sorra 2009 Reconstruct v1 1 0 0 70 ae Chapter 8 Traces Traces are the basis for quantitative measurements calibrations and alignments A series must be calibrated in order to obtain accurate measurements The Line Tool described below is useful for creating calibration lines and is described in detail in Chapter 9 Calibration and Measurement When traces outline the profiles of sectioned objects these data elements are used for three dimensional visualizations of object structure Each trace is a polyline or polygon represented as an ordered list of points in series units connected by straight line segments Point order is clockwise for traces with a positive orientation Clockwise traces have positive area and enclose the interior of the object Counterclockwise traces have negative area and enclose holes Creating a Trace Traces are created on sections by drawing with the mouse or pen Drawing when zoomed at high magnification allows for subpixel traces with respect to the image data The resolution and density of trace segments is generally greater when drawing at higher magnification When a trace is created it is added to the set of selected traces on the current section Selected traces are
54. size and style to be changed Changes are accepted by selecting the OK button and rejected by the Cancel button Changes will appear the next time the thumbnails window is opened The thumbnail size parameters specify the width and height of the images in screen pixels Any size and aspect ratio can be specified but consider that the thumbnail images will all be maintained in memory Thus 100 sections rendered at 128x96 would use about 4 Mb of memory while the same number of thumbnails at 512x384 would require an additional 52 Mb Also rendering of the buttons will take longer for larger image sizes Rendering of the buttons may require nearly as much time as paging the sections depending on how slow the retrieval of image data is However once the thumbnails are rendered access will be much faster than paging There is an absolute limit on the amount memory Windows will allocate for button images This value is independent of the amount of physical memory installed in the computer If Windows runs out of memory for button images the first part of the thumbnail series will have sections images but the remaining buttons will all be gray This is more likely to occur when you ask for large thumbnail images This problem appears to be absent from the Windows Vista operating system Reconstruct v1 1 0 0 51 Chapter 6 Sections Thumbnail buttons are created initially as gray buttons without images The images are added sequentially by a back
55. surfaced and replace the trace representation in the scene Note that traces must conform to certain criteria for Boissonnat surfacing to work correctly For example traces of the same object within a section cannot overlap For a detailed discussion of tracing rules related to Boissonnat surfacing see Chapter 11 Objects Copyright 2006 by John C Fiala Revised by K Harris and K Sorra 2009 Reconstruct v1 1 0 0 8 ae Chapter 2 Software History History The origins of RECONSTRUCT began in 1995 with the development of a Windows 3 1 program for tracing serial sections WinV8 was developed in the Image Graphics Laboratory Kristen Harris Director at Children s Hospital Boston as a continuation of the DOS based V8 program developed by John Davis Quickly WinV8 was replaced by a new Win32 application IGL Trace Version 1 0a of IGL Trace was completed in August of 1997 with NIH funding to the Mental Retardation Research Center at Children s Hospital IGL Trace proved useful for identifying tracing measuring and reconstructing 3D objects in serial sections in a number of scientific studies Fiala 2005 http wwwsa interscience wiley com cqgi bin fulltext 118735636 PDFSTART IGL Trace was designed to operate on aligned sections These can be images obtained from electron or light microscopy For electron microscopy where each section is imaged separately it is necessary to realign the images for accurate reconstru
56. the keyboard Why do my traces expand shift when I edit them How do I know if my tracing is correct for Boissonnat surfacing Why is Auto simplify always checked in the AutoTracing tab when I start RECONSTRUCT 10 How can I fix the orientation of my traces 11 Why doesn t Simplify alter my traces 12 How can I trace donut shapes with the black center region taken into account instead of being ignored 13 Can I trace reconstruct an involuted object with holes inside holes 14 How are traces stored in XML format 15 What is the reference point for the max X and max Y measurements in the Trace lists dialogue Are X and Y with respect to the position of the trace on the domain image or are X and Y coordinates derived with respect to the centroid of individual traces ee On Measurements How do I measure size diameter distance 2 Can I compute the length of a region of interest by using the maximum and minimum X and Y coordinates of the trace How can I make a measurement on a piece of an object What are the units of my traces measurements Can I superimpose multiple traces to obtaine a Total Occupied Area of a region of interest over time SE Objects and The Object List Why is the object list so slow to fill 2 Can tips be provided for dividing an Object into section ranges and for Object Renaming 3 Why does Add to Scene never finish and then crash when
57. the name change to part of the object entering a narrower section range in the dialog Note that when an object is renamed its entry in the Object List is no longer valid Furthermore such name changes are not immediately reflected in the list The old object name is deleted from the list but the list has to be regenerated to see the new object names For this reason after Rename is complete a message will appear suggesting that any name changes will only be revealed by refilling the Object List Reconstruct v1 1 0 0 127 Chapter 11 Objects By changing an object s name attribute the object can be broken into its component traces Suppose for example a set of vesicles were labeled with point traces all given the name VESICLE These traces would form a single object in RECONSTRUCT You can make each vesicle be its own object by using the Rename dialog to change the Name string from VESICLE to VESICLE This will rename the individual traces to VESICLE1 VESICLE2 VESICLE3 and so on Refresh the Object List and you ll see a separate object for each vesicle To group the vesicles back into a single object highlight all the vesicle names in the Object List and again use Rename Change the Name string to VESICLE and press OK Now all vesicles are back to being a single object In general anytime there are name changes to objects the Object List will need to be refreshed to reveal the changes Object renami
58. the object you ve created A complex object made up of lots of traces each with thousands of little line segments will take a long time to generate all the triangular faces corresponding to the line segments You can abort the process by using the Abort button on the dialog but you ll still need to wait for it to finsh the section and clean up memory before it s done Rushing things by closing the series will only result in a program crash but you can sometimes exit the entire program by clicking on the X in the title bar of the main window You can speed up future Add to Scene commands by simplifying the objects to reduce the number of line segments Here s a specific example Download the letters zip series from the Files section of the Users Group and open the series Open the Object List and add the object to the scene You ll see the outlines of the letters If you zoom in or use the Scene Info dialog you ll see that they are made up of lots of little line segments Open the Series Options and in 3D tab set the representation type to Trace Slabs If you add the object to the scene now it will take forever due to the complexity of the traces In the Autotracing tab of the Series Options set the Simplify on Demand resolution to 0 004 From the Object List Modify menu Simplify the object Note The Simplified flag is already unchecked Now add the object to the scene again After just a few seconds the solid letters will appear because now
59. the trace in the main window and select the palette entry from the Trace Palette Then open the Trace Attributes dialog Ctrl A and use the Get Defaults button to fill the dialog with the attributes from the palette entry About Trace Names The name of a trace identifies the object to which the trace belongs Traces with the same name are grouped together to make 3D objects Chapter 11 Objects Trace names are also used to make correspondences between sections for alignments Chapter 10 Movements and Alignments Reconstruct v1 1 0 0 78 Chapter 8 Traces Trace names are limited to a maximum of 63 characters Certain characters are not allowed in trace names Illegal characters include the quotation marks the equal sign the comma the backslash and the less than lt and greater than gt signs These characters entered in a trace name will be replaced with underscores _ A few other characters have special interpretations These special characters include the asterisk the question mark the pound sign the plus sign and the dollar sign The dollar and plus signs can be used anywhere in the name string to automatically number trace names The dollar sign in a trace name string is replaced with the current section number when a trace is created For example the name string s would result in the string s101 for all traces created on section 101 and s45 for all traces created on sect
60. the traces are much simpler If the program gets stuck generating a 3D scene as a Boissonnat surface and Aborting goes on forever the program has gotten stuck trying to surface a single section of trace data Most likely there is a problem with the trace data within that section such as overlapping or duplicate traces You can narrow the problem to the particular section by limiting the range of sections in the 3D Tab of the Series Options Once you find a section that is not surfacing carefully check the traces for overlaps or duplicates One technique to find copied traces is to look for duplicate trace names with equal areas in the Trace List To verify duplication select a trace and move it temporarily with the arrow key to see if there is an identical trace underneath it Surfacing and 3D Output Why does my Boissonnat surface have irregularities See Chapter 11 A Boissonnat surface may have irregularities for any of the following reasons There are duplicate traces even hidden ones within a section There are extraneous traces within a section Traces have loops or self intersections Two traces of the object within a section touch or overlap Some exterior traces of the object are counterclockwise Some interior traces are clockwise A branch terminates abruptly leading to a connection to another branch A bug in the surfacing algorithm leaves holes and or interior triangles Most of these problems and sometimes even the
61. to enlarge vertically F12 Scale to enlarge horizontally Up Arrow Move upward Down Arrow Move down Left Arrow Move fo leit Right Arrow Move to right Each keystroke produces a fixed increment in the transformation that maps the data into the section The size of increments can be modified by holding the Ctrl or Shift key down while pressing one of the movement keys of Table 10 2 Typically Ctrl reduces the size Reconstruct v1 1 0 0 122 Chapter 10 Alignments and Movements of the movement while Shift makes the movement larger The size of the movement increments including the effect of Ctrl and Shift keys can be adjusted by using the Movement tab in the Series Options If the arrows keys do not produce a movement even when the section is unlocked try increasing the movement parameters in the Series Options The Movement tab includes a checkbox which changes the operation of the F5 F8 keys When the box is unchecked the F5 F8 keys produce skew Unchecking the box allows deformations in which one side of the object is scaled relative to the other side Figure 10 5 shows the difference between slants and deformations for the movement directions defined by the default movement parameters F7 F5 F6 F8 Deformations KZ Figure 10 5 The effects of slant and deformation movements centered on a rectangle region Shown are the default movement directions When Deformations are selected F5 F8 produce the deformations s
62. traces it may be convenient to use a default trace name to allow the names to be incremented in the section Reconstruct v1 1 0 0 96 Chapter 9 Calibration and Measurement Chapter 8 Traces When all calibration traces will be of the same length they can all have the same name if desired Select the Line Tool from the Tools window and draw a line trace on the SS calibration grid image Place the ends of the line at the edges of the grid elements Make the trace as long as possible to minimize the effect of inaccurate point placement at the ends Draw more lines to also reduce inaccuracies of a single trace When possible draw lines in both directions on the calibration grid Calibrate Selected Traces Once calibration lines are drawn select the traces on the section With only the calibration traces selected select the Calibrate item from the Traces menu A dialog box will appear for each selected trace displaying the current length of the trace Enter the actual length of the trace in place of the current length For an open trace the length is the sum of the distances between trace points The length of closed traces is the entire perimeter including the closing segment Resize Traces Set Pixel Size or Scale Section The end result of calibration can be one of three things resizing the selected traces to the length specified changing the pixel size of the domain in which the traces were drawn or scaling all the tr
63. transparency occlusion or view point Copyright 2006 by John C Fiala Revised by K Harris and K Sorra 2009 Reconstruct v1 1 0 0 150 Bibliography ae Bibliography Boissonnat J D 1988 Shape reconstruction from planar cross sections Computer Vision Graphics and Image Processing 44 1 29 Fiala JC 2005 Reconstruct A free editor for serial section microscopy J Microscopy 218 52 61 Fiala JC Harris KM 2001a Cylindrical diameters method for calibrating section thickness in serial electron microscopy J Microscopy 202 468 472 Fiala JC Harris KM 2001b Extending unbiased stereology of brain ultrastructure to three dimensional volumes J Amer Med Informatics Assoc 8 1 16 Fiala JC Harris KM 2002 PC based alignment and reconstruction of serial sections Microscopy and Analysis USA Edition 52 5 7 Howard CV Reed MG 1998 Unbiased stereology Three Dimensional Measurement in Microscopy Springer Verlag New York Schneider PJ Eberly DH 2003 Geometric Tools for Computer Graphics Morgan Kaufman Publishers Amsterdam Copyright 2006 by John C Fiala Revised by K Harris and K Sorra 2009 Reconstruct v1 1 0 0 151 Appendix 1 ez Appendix 1 RECONSTRUCT Frequently Asked Questions General Aw Pee Is it possible to run RECONSTRUCT on a Mac Can I use RECONSTRUCT for sterological measurements such as unbiased counts Can I use RECONSTRUCT with light microscopic
64. until the series is reopened from the Series menu Editing Section Attributes Each section has three modifiable attributes the section thickness the movement lock flag and the section index Changes to these attributes can be made from the Section menu or from the Modify menu at the top of the list Movement Lock The lock unlock attribute can be toggled by selecting the Lock or Unlock item from the Movement submenu of the Section Menu When a section is unlocked movements of the entire section are permitted Accidentally hitting an arrow or function key on an unlocked section will move the section relative to the rest of the series Chapter 10 Movements and Alignments Therefore it is a good idea to maintain the movement lock at all times The lock unlock attribute is reflected in the icon on the left end of the status bar The lock unlock attribute of multiple sections can be changed by one command from the Section List Open the Section List and highlight the sections to be changed Select Lock or Unlock from the Modify menu at the top the Section List The changes will be immediately reflected in the Section List icons A red closed padlock appears by sections that are locked while unlocked sections display a clear open padlock Thickness The section thickness is changed by selecting the Thickness item from the Section menu and typing in a new value The section thicknesses of many sections can be changed to the same value us
65. values csv file using the Save command from the List menu This file format can be readily imported into any spreadsheet application Reconstruct v1 1 0 0 138 Chapter 11 Objects z rraces EE Scene List Modify Create Z Trace Start End Length Z D10length 1 94 4 66536 Z D18length 1 94 5 14913 Z Dilength 1 94 4 83408 Z D20length 1 94 5 90529 Z D21length 1 94 5 43639 Z D3length 1 94 5 15151 Z D6changed 1 94 4 66478 Figure 11 6 The Z Trace List Every z trace in the series is listed along with the range of sections which each trace spans The Scene and Attributes menus appear above the list The z trace D21length is highlighted The z trace D18length has been added to the 3D Scene as indicated by the shaded icon with the cyan background None of the other z traces are in the scene as denoted by the red Z icon Z traces can be added or removed from the 3D Scene using the Scene menu of the Z Trace List Note that all z traces should be given unique names so they can be independently displayed in the 3D Scene A group of z traces in the list can be renamed using the special character to get a sequence of uniquely named traces For example renaming a list of z traces to length05 would produce length06 length07 length08 etc Modifying Z traces The Modify menu at the top of the Z trace List window allows the color name or annotation of highlighted z traces to be changed These changes per
66. when not selected Mode C None Ze Daken Solid C Lighten Comment Get Clipboard Attributes Ctrl g Select or modify palette attributes Swap Rows Figure 8 4 The Names Colors tab of the Series Options dialog The settings in the Give new traces these default attributes box determine the name color and comment that will be used to label traces when they are drawn The attributes of a palette entry can also be set by pressing one of the palette buttons and then modifying the Attributes of new traces settings The attributes in the Names Colors tab are essentially the same as those in the Attributes dialog from the Trace menu described in Chapter 3 Absent from the default attributes are Hidden Simplified and Closed checkboxes Drawn traces are always initially unhidden The closed and simplified attributes of new traces are determined by the drawing tool used and the status of automatic simplification The default trace attributes can be filled from the first entry on the trace clipboard by selecting the Get Clipboard button This provides a way to copy the attributes of an existing trace and use them for subsequent drawing of new traces This also provides a mechanism for copying attributes of existing traces to the Trace Palette see below The Trace Palette A set of predefined default trace attributes can be quickly accessed using Palette from the Trace menu The Trace Palette window has 20 user definable palette ent
67. z distance of the section as described in the previous section Thickness The section s thickness in series units Object List Measurements The Trace List column data can be used to compute 3D quantities by utilizing the length and area columns in combination with the section thickness column Since these quantities depend only on the section thickness and not the z distance they are not affected by changing the method of z distance calculation A few of these common computations are done automatically in the Object List Whenever the Object List window is cleared and refilled all section files are scanned for trace data and these are grouped into objects The measurements for these objects are then generated from the traces and section thicknesses and this data is added to the list To make sure that the measurement values are up to date after any changes to the traces are made refresh the Object List window The time it takes to fill the Object List depends largely on how fast the section files are scanned but it also depends on how much data will be displayed in the list The number of list entries can be reduced by first setting a limit string in the Series Options Lists tab Reconstruct v1 1 0 0 105 Chapter 9 Calibration and Measurement A small speed up can also be obtained by reducing the number of columns displayed for each entry The area and volume measurements are computed only if these columns are displayed in th
68. 121 One Strategy EE 121 e EE 121 TANS TOWNS ee EE 121 Keyboard Increments sicticiaiissesdacuciiestecaitsienitunntuiecdeniduinniduseusdveudnuiidienidndadutesnanisiendnentyaxts e 122 Movement Type In Dialog iesisscecseccctucecvaceecscecctecedeeayesdsncdecccrnenydseasenasvectectiveds 123 Tele ut Men 124 Repeating MOVEMEIUS xisjcscesccsccceccsesescgecceevesecevessbesanedebedevessdestennedeciertieceenee 124 ee re E 124 Repeating Movement Geouences nn 125 ae Chapter 11 Objects ec cccssccsssesnnsseennnnnsentennen 126 The OBSCENE seeteseptitactnuesi ic atantannnoiaaaseasosjacteautanekdtaboastuoetGnesbbetbagsoncbbrebonebbauea sabia 126 Modifying OIG CUS icc ee 127 Changing EIER a re steceesceteocpenevesenndeveunanevencoedevenciecenenenedeveneredevedetent 127 Renaming el 127 Hiding and Unhiding Objects ecccecceeeseeceeneeeneeenereeenceeecseeeneenneneses 128 Simplifying Objects as0nk eb sieectih can ectgigecaceehdecsctebsasecie Sacecteidapegteidececteboezagteddanaceetet 128 Deleting Objects EE 128 CPG AMI OD SCS E 129 ie lee Kn 129 Smoothing QS E 129 Creating Z traces at MID DOIN ciectsasenessseccioonendenesenedsnceesaceneceaedenessecctnds 129 Calculating the Distances Between Oiiecls 129 3D Object e EE 130 ee E 131 lie 131 MAGS WINGO OMS 5 racer an A E E AEAT E N 132 ie EE 133 BOISSONI Die srera aa aa aa ieee eee 133 Draw closed traces ttt itis Rete ituitiard cedar strate dasdiaestalbeites 134 Use clockwise traces to def
69. 3 scaling and skew slant Deformal 1 x y xy 4 deformations Quadratic 1 x y xy x gt y 6 bending Aligning Selected Traces The Align submenu commands can be used to put the centroids of two or more traces into alignment with the centroids of corresponding traces in another section When multiple traces are to be aligned they must have unique names such that traces can be paired by name This can often be achieved by using the naming convention when creating traces Chapter 8 Traces To align traces between sections select in one section the traces that will be the stationary reference Jump to the other section and select the traces which will be moved With the section locked open the Align traces submenu and select the desired alignment operation e g Rigid The selected traces will be immediately repositioned Reconstruct v1 1 0 0 113 Chapter 10 Alignments and Movements Aligning Entire Sections When the section is unlocked the Align submenu is changed from Align traces to Align section This indicates that the entire section will be moved by the alignment command rather than just the traces The same procedure is used for aligning sections as with aligning traces Select in one section the traces that will be the stationary reference Page to the other section and select the traces which will be aligned to this reference Unlock the section Ctrl L From the Align section submenu select the desired a
70. 4 User Interface TABLE 4 6 Keyboard and Mouse Actions in Thumbnails Window Command Action Tab In flipbook mode stop start shuttle play Enter In flipbook mode page to the section shown Left Mouse Click Page to the section under the pointer Mouse Scroll In flipbook mode move through the thumbnails For more on the configuration of thumbnails see Chapter 6 Sections Domain List Window The Domain List window is opened using the List image domains item from the Domain menu Fig 4 5 The window displays a list of all the domains within the section ordered from back to front The domain name is displayed along with the source path to the image data the pixel size and the centroid position of the domain on the section The columns of the list can be resized by dragging the borders of the column headers Program Series Section Bop Trace Object Help List image domains Import image L Figure 4 5 The Domain List item from the Domain menu in the main RECONSTRUCT window A domain can be highlighted in the list with the left mouse button or by using the arrow keys The attributes of the highlighted domain can be edited by selecting the Attributes item from the Modify menu This action does not close the domain list Double clicking the left mouse button or hitting Enter will cause the Select menu item to be executed on the highlighted domain Table 4 7 In this case the domain is selected in the main window and the
71. Area The area is the size in square units of the region enclosed by a trace A negative area indicates that the trace has a counterclockwise orientation A positive area indicates a clockwise orientation The area of an open trace is zero Area and centroids are calculated from a formula based on Green s Theorem area 1 2 E Ge EE SE LKA 1 Xis 1i i for each segment from Xi yi to Xi 1 Yi 1 in the trace The accuracy of this computation is dependent on the trace being free of internal loops and the values x y not being too large Since 64 bit floating point values are used for all such calculations the second factor should not be an issue for most series Centroid X This column reports the x position of the centroid of the trace in series units The calculation is Xi T Xi 1 XiVi sie Xi Li 35 Xj Yi 2 29 Log Xj LR i Reconstruct v1 1 0 0 104 Chapter 9 Calibration and Measurement Centroid Y This column reports the y position of the trace centroid in series units calculated by gt l Yi Yi 1 Il XiVi 1 oag Xi 1y 23 L cher et Yi i y Min X This column re orts the minimum x position of the trace in series units p Min Y This column reports the minimum y position of the trace in series units Max X This column reports the maximum x position of the trace in series units Max Y This column reports the maximum y position of the trace in series units Z Position The
72. CX 1886 3 _3100CX 1895 proxy d 2rings bmp N dendrite2 bmp il _3100CX 1886 proxy _UNALIGNED O S 3rings bmp IN dendrite3 bmp Beaty IS _unaligned 1 S 4rings bmp A dendrite4 bmp e _3100CX 1887 proxy E unalgned 3 fih 16 jpg S dendrites bmp BEUTE Si _unaligned 3 fsh 16 proxy jpg S dendrite6 bmp _J100CX 1888 proxy _unaligned 4 a calgrids 1885 SS dendrite7 bmp BETETEN Si _unaligned 5 calgrids 1886 Sj dendrites bmp e _J100CX 1889 proxy IS unalgned e IS calgrids 1887 S dendrite9 bmp le _J3100CX 1890 IS _unaligned 7 Il calgrids 1888 A fig3a bmp My Documents ei _J100CX 1890 proxy _ amp _unaligned 8 a calgrids 1889 S fig4 bmp BBs i _unaligned 9 IS calgrids 1890 gradient 1 e il _3100CX 1891 proxy IS _unaligned 10 Il calgrids 1891 ea gradient 2 WE _J100CX 1892 Si _unaligned 11 Il calgrids 1892 gradient 3 _3100CX 1892 proxy _unaligned 12 calgrids 1893 ea gradient 4 PEE BETERE E _unaligned 13 E calgrids 1894 gradient fm gt Cancel A File name _J100CX 1895 _J100CX 1885 _J100CX 1886 _ e Jan Files z Files of type Figure 7 3 The Select Files dialog This dialog is invoked by the Select button in the Import Images dialog Multiple image files have been selected from the folder test These files will be placed in the Import Images list by clicking the Open button Once the
73. Calibrate Traces dialog then no multi section application of the calibration is possible Reconstruct v1 1 0 0 98 Chapter 9 Calibration and Measurement Section Thickness Section thickness is critical for determining the 3D representation and for getting accurate 3D measurements If section thickness is known in advance for all sections it can be set in the General tab of the Series Options As mentioned above all input and output values are consistently in series units For example if the units are in microns then all values entered for section thickness movement values image pixel size and so on should be in microns RECONSTRUCT will prompt you to enter units when you modify section thickness using the Thickness menu item from the Modify menu of the Section List This value is applied to new sections If a default section thickness is not specified a value of 1 20 of a section unit will be used for a new series The section thickness of individual sections can be set at any time using the Thickness item from the Section menu For many sections the thickness can be set by selecting the sections from the Section List then using the Thickness item from the Modify menu of the Section List One cannot assign different thicknesses within an individual section Calibrating Section Thickness Thickness is a property of a section that needs to be calibrated or estimated Microtome settings can be used as an estimate but ac
74. Clear the scene whenever a new series is opened Scenes are not preserved when the application is terminated Closing the program requires the scene to be recreated by adding the objects again Changing Object Appearance After an object has been added to the scene certain aspects of the object s appearance can be modified by opening the Color transparency dialog from the Scene menu of the Object List window Fig 12 1 Only the highlighted objects in the Object List will be modified The number of highlighted objects is indicating in the title bar of the Changing Scene Objects dialog Every object will receive the same changes specified in the dialog when the Apply button is selected Note that the colors of the trace data are not modified by changing the appearance of the object in the scene Reconstruct v1 1 0 0 142 Chapter 12 The 3D Scene mM Select Save at w Trace Length Area EI Oo21 1 03971 0 067302 Object EI OD2laxonl 2 45698 0 166939 D20p15 ae D21axoni 1 0521 0 067148 D20p2 pee OD2iaxon4 1 24947 0 067313 D20p3 7 O03 1 04302 0 073832 D20p4 r OD3 1 60701 0 175903 A D20p5 Oo3a01 0 0360583 9 66143e 05 D20p6 D3axon1 0 466304 0 00821684 D20p7 A Ononi 0 889848 0 0525455 D20p8 D3axon2 0 651591 0 0241702 D21 5 D3e3 0 220827 0 bet Oops 0 466433 0 0148161 f iisen 30 Scene D21axon5 Sena Vaw D2iaxon5 i b D21axon5 D21axon5 D21axon5 D3axon7 D3axon8 Figure 12 1 A scr
75. Domain List window is closed See Chapter 7 Domain Images for more on working with selected domains Reconstruct v1 1 0 0 27 Chapter 4 User Interface TABLE 4 7 Keyboard and Mouse Actions in Domain List Window Command Action Up amp down arrows Move to next previous domain in list Page Up amp Down Move through the list by the number of visible domains Home Move to the first domain in the list End Move to the last domain in the list Delete Remove the domain from the section Enter Select the domain from the section Left Mouse Click Highlight the domain under the pointer Left Mouse Dbl Click Select the domain under the pointer Trace List Window The Trace List window is opened using the List traces item from the Trace menu Fig 4 6 The window displays a list of all the traces within the section ordered alphabetically The trace name is displayed along with a set of measurements in series units The columns of the list can be resized by dragging the borders of the column headers The set of displayed columns can be specified from the Lists tab in the Series Options dialog The entire Trace List can be saved to a file by choosing the Save item from the List menu lt 7 NewSeries Program Series Section Domain Ze Object Help Find bs Ctrl F Select all Ctrl s Palette Figure 4 6 The List Traces item from the Trace menu in the main RECONSTRUCT window Reconstruct v1 1 0 0 28 Chapter 4 User I
76. Import Images list has been filled with one or more images specify the first section into which the images will be imported by typing a number in the First Section box The target sections for the images in the list will be numbered sequentially from this first section If the first section is negative the parameter is ignored and an attempt is made to extract the desired section numbers from filenames This works when the filenames already have the desired section number as the file extension for instance The order of image files in the list can be modified by using the Sort numerically checkbox This option treats the filename as having an embedded numerical value and resorts the list accordingly in ascending numerical order The Randomize button puts the image files in random order It is not possible to reorder individual list items To get finer grain control over the ordering of the images just select one image at a time GIF and TIFF stacks containing multiple images per file can also be imported through Import Images Fig 7 2 During the import process individual subimages of a stack are copied to BMP files in the series folder This occurs regardless of the Copy files checkbox since image files need to be individually manipulated Each subimage of the stack can be imported into a different section as specified in the into section column of the list When all domains have been imported exit the Import Images dialog by selecting th
77. RECONSTRUCT User Manual Version 1 1 0 0 Table of Contents Table Of Contents 0 ccccccccccsssessssunssesunssensusenunsnssssesunanensneeesee i ae Chapter 1 QUICK Gart 1 Getting Stated EE 1 EI ie Elle 2 EE 2 Import enn e TE 2 Calibrate EE 4 Align Section creed ete ee eel eee eee cesarean 5 RE 5 KE 5 SS E 5 TE EE 6 E E 6 SEET e EE 6 E EE 6 SlOP eege 6 Paha ee tess ce rece sts ee 6 Trace Profiles eenegen ecg Scere ph epee ere eo 6 View Three Dimensional Obiect EEN 7 ae Chapter 2 Software History ccc ssssenseeennee 9 PUIG ie EE 9 Credis na E ee eee eee ee eee mre 10 ae Chapter 3 Software COveniew ccc cccesssssseennee 12 Series Sections Domains Traces and Objects sssssssseeeneeesseererrnnrnnesserernne 12 Data File ONO Ee E 13 XME FIS egene 13 aen 16 DXF a e EE 16 DXF ES alate coca ces ete ec E ea Sc es ieee deed ted iene eee aes 17 3D OQ tp ut SE 18 ee EE 18 Ee E 18 le EE 18 Hardware Heouirements AEN 18 ae Chapter 4 User Interface irinn 20 Windows BR e 20 Resizing and MOVING WINDOWS EEN 20 Reconstruct v1 1 0 0 i Table of Contents Switching Between Wumdows Ae 20 NAD WOW EE 21 WEE 22 Tools le Tel EE 23 MS E 24 Section Ree 24 Thumbnails ie Tele TE 26 Domain List WING e 27 Trace List VIDE esi asia diarrhea cit ra a a die a dada cada Seach nenn nennn 28 Trace Palette VY MGW EEN 29 Object LiSt WING OW EE 30 3D Scene el TE 31 Z Trace List e ele EE 32 Distances List
78. Reconstruct v1 1 0 0 112 ae Chapter 10 Alignments and Movements One of the principal features of RECONSTRUCT is the ability to align serial section images Bringing data on adjacent sections into alignment facilitates measurement analysis and 3D reconstruction Data within a section can also be arranged by moving image domains and traces in the main window This process of moving data elements in a section is different than panning or zooming the view Changing the view point affects the display of all sections in the same way whereas moving a section or an element within a section changes the structure of the representation Alignments Alignment of adjacent serial sections is accomplished by moving one section in relation to another with the keyboard This process can be time consuming so alternative methods are provided Sections may be aligned By correlation from the Movement submenu of the Section menu or by trace correspondence using the Align submenu of the Trace menu The Align submenu provides four alignment operations Table 10 1 The alignment operations adjust different numbers of basis functions in the transformation Using more basis functions in a transformation allows more degrees of freedom but requires more data points for the Align computation TABLE 10 1 The Align Submenu Commands Command Basis functions Number of data points required Movement potential Rigid 1 x y 2 Rotations and translations Linear EA
79. The middle piece is selected by using the middle mouse button of the Scalpel Tool D The final product after deleting the unwanted piece with the Delete key Note that the division of a trace may not always succeed Carefully observe the result to make sure it is as intended The Scalpel Tool only works as described when the trace has a clockwise positive orientation On a counterclockwise trace the Scalpel Tool will add a piece to the trace rather than divide it The left mouse button press must occur near the trace to be divided and not closer to another trace The trace closest to the starting point is the one that will be divided The division path should be perpendicular to the trace at the points where it crosses it Under some circumstances the Scalpel Tool will fail to find a suitable division and will return fewer pieces than expected This is usually due to the fact that the division line is parallel to the trace at the point where it crosses The Scalpel Tool is often useful for quickly removing an external evagination of a trace but it does not allow an internal invagination to be sliced off To remove an internal invagination select the trace and use the Line Tool to make a new trace with the same trace name that would produce the desired cut Then use Merge from the trace menu to merge the line trace and original trace effectively removing the invagination Merge The Merge operation attempts to combine all selected traces in
80. They are stored in the series file and are listed in the Z Trace List opened from the Object menu Pressing the left mouse button starts the trace A drag line follows the cursor to the next point Page up or down to change sections and add trace points with left mouse clicks on the desired sections Clicking the right mouse button ends the Z trace at the last point entered with the left mouse button The creation of a Z trace can be aborted by using the Esc key e Z traces are properly updated when section numbers are shifted but not when the order of section numbering is reversed e Z traces remain valid when section thicknesses are modified e Z traces are not automatically adjusted when the section image domains are transformed calibrated or re scaled Therefore Z traces should be created only after the order of sections and the alignment and calibration have been finalized The position and structure of a Z trace can be visualized by adding it to the 3D Scene Note that if the 3D Scene Window is open when a Z trace is added it may be out of the field of view and so will not appear in the window The 3D Scene may need to be rotated or reset in order to see the new Z trace Another important feature is that only one object in the same series can have the same name Creating a Z trace with the same name as an existing object will preclude them both being visualized together in the same scene Consequently Z traces should be uniquely named The
81. This Data Transfer Rate is usually a burst rate for the interface to the system memory not the actual speed of data access from the drive Look for drives with the highest speed of rotation RPM and the most sectors per track Real sustained data transfer rates are roughly proportional the product of rotational speed and sectors per track For example a 15 000 RPM SCSI drive will outperform a 5 400 RPM IDE ATA drive resulting in faster loading and paging of sections in RECONSTRUCT A 7 200 RPM IDE ATA drive was used during development and testing of the software A 7200 RPM drive gives satisfactory performance on images less than 15 Mb Copyright 2006 by John C Fiala Revised by K Harris and K Sorra 2009 Reconstruct v1 1 0 0 19 ae Chapter 4 User Interface The user of RECONSTRUCT interacts with a set of screen elements using the mouse or pen and keyboard This chapter describes the basics of the graphical user interface Windows and Dialogs Two kinds of screen elements will be distinguished windows and dialogs Dialogs must be completed prior to returning to the main window while windows release control to each other The exception to this is that some message dialogs such as the Version dialog from the Help menu release control back to the main window Dialogs cannot be resized but can be moved Windows float on top of the application s main window and can be resized A special case is the status bar that remains docke
82. You can verify that a trace has a reversed orientation by checking the area measurement in the Trace List Reversed traces have negative areas Assuming your donut s profile is white on a black background you shoud be able to use Wildfire equally well for the black interior as for the white object Change the Wildfire stop limits in the Autotracing tab of the series options to Brightness differs by instead of is less than and then just click on the black interior instead of the white To generate the traces used regional wildfires with a Stop at Brightness less than 75 Then switch to Stop at Brightness greater than 75 and generated reverse traces in any interior region s Can I trace reconstruct an involuted object with holes inside holes You can have any number of traces interior to other traces but they shouldn t touch Such nested traces must follow a pattern positive negative positive negative positive negative the outermost trace must be positive have a positive area and the innermost trace must be negative have a negative area How are traces stored in XML format See Chapter 3 For details on the XML format for the section files that contain the trace data see the User Manual Reconstruct v1 1 0 0 159 Appendix 1 The z traces are stored in a similar format in the series file In general the trace data is stored as an ordered list of x y points The coordinates and units for these points are what they are on t
83. aaa 89 Trace Clipboard EE 89 Selecting RTE 90 Deselecting Traces misicne a aaa 90 Zooming to Selected EE 90 Finding Lee 91 Tracing with Wildfire ge Seege C 91 Wildfire EMI aa ice ssirsen crete natacdomctaertuteheedaipbnoubsertueubeiumeaviueleeewtulyucaubiemlinctnedl 92 Propagating Wildfires to Adjacent Sections cceceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeteees 92 Generating Wildfires throughout a Hegion 93 dr Chapter 9 Calibration and Measurement 94 Units of Measurement ai iccnccaadwdincradvaadaraviadiancuanacseadnddgandeleadsamdsaddsandidadiancianaaadianas 94 Data PCS OG EEN 94 lee 95 Calibration Grids and Scale Bars 96 Calibrating Wl 96 Drawing Calibration RK 96 Calibrate Selected NEE 97 Resize Traces Set Pixel Size or Scale Gechon 97 Apply the Calibration to Other Sections ccceeeeeeeeeeeeeeeeeeeeneeeeeeeeeeeeeeeenaaees 98 Section Thickness EE 99 Calibrating Section Thickness EE 99 Reconstruct v1 1 0 0 iv Table of Contents SR 100 Status Bar Measurements Au 102 Donia Hist MGASUPCINGIIS E 103 ENON RE 103 EE eege 103 deeler E 103 POMC EE 103 Trace List E E 104 EOIN WE 104 EE 104 Centroldi geed 104 RMU EE 105 MIN EEN 105 MiNi EE 105 Ma X EE EE EE EE 105 PEW EE 105 Z POSIIO cet Sarit cei tend ect crac Serato ease attire 105 lait 105 Object List Nesen siscsiek ces chsatueeeysceyvees iva yiusttcesneenivauveatacesevebsonvbeetiuerenene 105 EEN 106 S rfa CS PCA sisie
84. ace points I n 7 all ace poimis x KZ where nis the total number of trace vertices and the vertices of the traces are at the positions x y z in 3D space The axes of the Cylinder are determined from the scatter matrix of the trace points X mere Ait can EE e ater scatter matrix X x Y ZY X Ys 5 L Ves Bel LE Ver Ze d all race point The eigenvector corresponding to the largest eigenvalue of the scatter matrix determines the central axis of the Cylinder The other two eigendirections specify the directions of the cylinder s diameters These directions are scaled by the eigenvalues to get the final dimensions of the Cylinder The dimensions of the Cylinder can be explicitly defined using the Size parameters Size A sets the length of the cylinder Size B sets diameter along the secondary axis while Size C sets the diameter along the minor axis Ellipsoid The Ellipsoid representation is essentially the same as the Cylinder representation except the object is closed at the ends of the principal axis The axes of the Ellipsoid are computed from the eigenvectors of the scatter matrix of the trace vertices and the Ellipsoid is centered at the centroid of the trace vertices The dimensions of the ellipsoid are determined by the scatter matrix eigenvalues unless positive values are entered in the Size parameters Reconstruct v1 1 0 0 135 Chapter 11 Objects Information about the calculated axes and dimens
85. ack after simplifying May recreate loops Smooth using a moving average filter length of zz points Hue differs by en 0 252 ar Saturation differs by o 0 252 or Brightness is less than fioo 0 252 orwhen they come within 0 pixels of existing traces Stop wildfires when Stop wildfire autotracing when area changes by 999 Ignore regional wildfires of less than 0 square pixels Figure 8 8 The AutoTracing tab of the Series Options dialog Automatic simplification can be disabled by unchecking the option but this effect is only temporary Whenever a series is reopened Automatic simplification will be turned back on This is because simplification is important for eliminating loops that reduce the accuracy of measurements and prevent proper 3D surfacing of the traces The Stop Wildfires box specifies the Hue Saturation and Brightness HSB criteria for halting region growing Valid HSB are between 0 and 252 By setting a criterion to differs by 255 that criterion is disabled and will not affect region growing Default settings are shown Simplify will normally expand the entire perimeter of a trace by a distance equal to the resolution e g 1 screen pixel size Expansion of the trace is caused by the algorithm that is applied to the trace to eliminate loops This is because the simplification process ensures a clockwise orientation without loops by tracing around the outside of the existing tra
86. adjacent sections in the series This is illustrated in more detail below ais ToS S Kee by Reconstruct v1 1 0 0 64 Chapter 7 Domain Images Figures 7 7a to 7 7d illustrate key steps for fixing a cracked section The objective is to fix the section by drawing domains on one or both sides of the crack depending on the region of interest and shifting the pieces back together in alignment with adjacent section s Program Series Section Domain Trace Object Help E Newseries 2 SE Figure 7 7a Image of a cracked section Program Series Section Domain Trace Object Help j Figure 7 7b A separate domain is created from the region of interest to the left of the crack The perimeter of the domain is illustrated in pink Reconstruct v1 1 0 0 65 Chapter 7 Domain Images NewSeries 2 Program Series Section Domain Trace Object Help Figure 7 7c An adjacent section is imported as a separate domain to facilitate image alignment Alignment is realized by moving the first domain in relation to the second adjacent section The domain of the cracked image appears as an overlay and movement is accomplished using the Up Down Left Right Arrows on the keyboard The size of the movement increment is modified by holding the Ctrl or Shift key down while pressing a movement key The Blend function is used to facilitate alignment Chapter 10 Misalignment produces a blurry image as illustrated
87. alette entry by using the Ctrl number key sequence to update the palette Stamp shapes can be either open or closed depending on how the shape was originally drawn or how its attributes were set prior to selecting it To stamp shapes consisting of more than one trace use the Grid Tool Creating a Grid of Traces The Grid Tool is used to create a repeating pattern of traces by placing multiple AST copies of a set of traces a certain distance apart The Grid Tool is designed to generate grids primarily for facilitating stereological measurements on sections but it can also be used to create lines rectangles and circles of a specific size The left mouse button creates the grid on the section The right mouse button can be used to scroll the section by dragging at the edge of the main window The type of grid generated by the Grid Tool is determined by the settings in the Grids tab of the Series Options Fig 8 2 Five predefined grid types consist of rectangles crossed lines ellipses sampling frames and cycloids Fig 8 2 The number of elements in the grid is specified in the x and y directions along with the size of each element and the distance between elements For rectangular and sampling frame grids the left mouse Reconstruct v1 1 0 0 73 Chapter 8 Traces button places the upper left corner of the first grid element For cycloidal grids the left mouse button places the left most point of the first grid cycle For the remain
88. algorithm attempts to generate a maximum solid with no singularity While this representation may not be ideal in some instances the method can handle multiple traces per section in a general way that produces reasonable results for objects that are branched When the Boissonnat Surface is not reasonable there are several things to try to improve the result First and foremost make sure that the traces used to generate the surface follow the rules outlined below Commonly counterclockwise traces or traces with internal loops cause the algorithm to generate invalid triangles outside of the objects intended surface Since a 2D Delaunay triangulation of the traces is the first step in the surfacing algorithm the Traces Slabs output can be used to see whether the problem lies with the traces or with the surfacing algorithm itself If Trace Slabs does not produce a filled representation similar to Traces locate and correct the traces that are invalid Fig 11 4 It may help to limit the section range in the 3D object to narrow down which traces are problematic Reconstruct v1 1 0 0 133 Chapter 11 Objects La A B C Figure 11 4 Examples of invalid object traces for Boissonnat surfacing A A trace with an internal loop is invalid Avoid this scenario by using the Automatically Simplify option when tracing B One trace intersecting another trace for the same object is invalid Merge traces to eliminate this problem C A counterclockwi
89. all the other sections have been aligned Choose the Starting Point Carefully Don t start the alignment from an obviously distorted section Choose a stationary reference section without folds or cracks and with a uniform high contrast It may be helpful to choose a section in the middle of the series to minimize the differences introduced in the series relative to the reference For montaged sections it may be helpful to start from a low magnification section that covers the entire montage area This will allow the montage to be arranged accurately as well One Strategy One strategy that can facilitate aligning two sections by point correspondence is to begin by picking two points at low magnification that should obviously be near each other These points can be deleted later in favor of more accurate ones With the section unlocked select Rigid Alt T N R to bring the sections closer together Now more precise correspondence points will be easier to determine Use Blend to compare the sections Some parts of the blended sections will be blurry if the alignment is inadequate Use the apparent motion produced by flickering to decide whether there are scaling differences between sections that require a Linear alignment for correction Now zoom in to one of the blurry regions to add more correspondence points at high magnification Select the Stamp Tool and add a pair of points to this region Drag near the edge of the window with the right m
90. ance between two objects is defined to be the minimum 3D distance between all the line segments of all the traces of the objects Chapter 9 Calibration and Measurement If object traces intersect the distance is zero This distance does not take into account whether one object is inside another Rather the distance between boundaries of objects is computed Three dimensional distances between objects are listed in the Distances List window Chapter 4 User Interface Distances are calculated only when the Distances List is re filled The list needs to be regenerated whenever there are changes to the data Reconstruct v1 1 0 0 129 Chapter 11 Objects Object names and calculated distance in series units are displayed for each pair of objects that matches the list s limit strings To limit the number of distances that are calculated set the limit strings in the Lists tab of the Series Options BEFORE selecting Distances from the Object menu With the default settings the distances between every object in the series and every other object in the series will each be computed twice once with the object in the left column and once with the object in the right column Use more specific limit strings to speed up the list calculations For example to generate only distances from numbered vesicles vesicle1 vesicle2 to a synapse named mySynapse enter vesicle for the first limit string and mySynapse for the second limit string
91. and or removed from a particular view or rotating scene It is also possible that the added object is outside of the current view To see objects newly added to a scene it may be necessary to zoom out or reset the scene view point using the Reset item in 3D Scene s View menu Note Closing the series while objects are being added to the 3D Scene will cause RECONSTRUCT to crash When an object is added to the scene it replaces any existing scene object with the same name Any modifications to the object s in scene attributes color transparency etc will be lost when the object is re added to the scene The 3D representation or position of an object can be modified by specifying new parameters and then adding the object to the scene again It is not possible to have two different representations for an object e g traces and ellipsoid in a scene except by generating one representation and then renaming the object and generating the second representation without clearing the scene Removing Objects Specific objects selected in the Object List are removed from the scene by the Remove from scene menu item in the Object List window s Scene menu All objects can be removed the scene by selecting Clear from the 3D Scene window s Scene menu The objects in the scene are not removed when a series is closed and a new series opened This allows objects from one series to be rendered with objects from another If this feature is not desired simply
92. and the trace is reoriented to be clockwise Traces created as predefined shapes e g ellipses rectangles and stamp shapes do not undergo the simplification process as they are assumed to be already simplified Once a trace has been simplified the Simplified attribute is checked to prevent further unnecessary simplification Figure 8 11 The possibility of further simplification can be reestablished by unchecking the Simplified attribute Changing 1 traces to Name Di Border ire 7 Hidden Simplified Iw Closed Fil Ka jw Fill when not selected Mode M None Darken WM Solid F Lighten Comment Get Default Get Clipboard Cancel Figure 8 11 The Simplified attribute is checked in the Trace Attributes dialog Automatic simplification can be disabled by unchecking the option in the AutoTracing tab of the Series Options Figure 8 11 Disabling simplification will allow the creation of traces with internal loops Fig 8 12 Be careful not to create traces with loops The behavior of many subsequent measurements and operations are adversely affected by traces with loops e g self intersections For best results keep automatic simplification on and set the associated Simplify on Demand value to a negative number which forces simplification to be at screen resolution NOTE Keep automatic simplification on at all times for best results Reconstruct v1 1 0 0 88 Chapter 8 Traces e Vis Ke Fig
93. ansformations in the section domains and traces Which of these three operations will be performed is determined in the Calibrate Traces dialog Fig 9 2 presented after the lengths of all selected traces have been entered Complete the calibration operation by choosing one of the options and selecting OK No changes will be made if the Cancel button is selected halibrate Traces e Resize selected trace s Set pixel size to 0 002691 microns pixel for domain domaint and optionally modify additional domains Scale entire section by 1 Cancel Set Pixel Size on All Domains Section Range First 1 Last 100 Set pixel size to 0 002691 microns pixel This operation may disrupt existing alignments and it cannot be Undone SH Figure 9 2 The Calibrate Traces dialog left Three options are provided for adjusting the section data based on the entered trace lengths When the second option is chosen a subsequent dialog right allows for applying the pixel size adjustment to all domains in the series Reconstruct v1 1 0 0 97 Chapter 9 Calibration and Measurement The Resize selected trace s option will only modify the selected traces The transformations of the traces are scaled so that the traces will be redrawn with the specified new lengths Each trace is scaled independently rather than to an average rescaling value as in the other options The domain on which the selected traces are centered is liste
94. apter 4 User Interface lt NewSeries Program Series Section Domain Trace Mely me Help 3D Scene 2 Traces Distances Figure 4 8 The List objects item from the Object menu in the main RECONSTRUCT window Like the other list windows the object list can be navigated by mouse or keyboard Table 4 10 Columns can be resized at the column headings The window can be resized by dragging the narrow border of the window Multiple objects can be highlighted by holding down the Shift or Ctrl keys Hitting Enter or selecting the Add to scene item in the Scene menu will cause a 3D representation of the objects to be generated and added to the 3D Scene If the 3D Scene window is not open the window is created and the 3D Scene is displayed The object list can be saved to a csv file using the Save item from the List menu The attributes of the traces of objects can be modified by selecting the Attributes item from the Modify menu Similarly highlighted objects can be deleted from the series with the Delete operation For more on the Object List see Chapter 11 Objects TABLE 4 10 Mouse and Keyboard Actions in Object List Window Command Action Up A down arrows Highlight next previous object in list Page Up amp Down Move through the list by the number of visible objects Home Move to the first object in the list End Move to the last object in the list Delete Delete all traces of highlighted objects from the
95. are entered Enter the landmarks in the same order on both sections so that traces of corresponding points will be numbered the same To delete a point if you make a mistake use Ctrl D to deselect all the points pick up the Arrow Tool 1st tool button and select the point to be deleted then use the Delete key to delete it Use Ctrl S to reselect all the points to be aligned Reconstruct v1 1 0 0 5 Chapter 1 Quick Start Step A After entering 3 or 4 correspondence points switch to the section that will be moved Verify in the title bar that the stationary section is not displayed Step 5 Choose Linear from the Align section submenu of the Trace menu When the section is not unlocked this submenu will be titled Align traces instead of Align section Enter Ctrl L to unlock section movement The Status bar will display an open lock image If traces are accidentally aligned instead of the images use Ctrl Z to undo the trace movement If the message Alignment needs more traces is displayed make sure you have entered at least 3 points on each section and that all points are selected Ctrl S on both sections If this message still appears make sure the corresponding traces in each section have the same name In other words a1 in section 1 must be matched to a trace ai in section 2 a2 must match a2 and so on Step 6 After Linear has moved the section use Jor blend spacebar to confirm that all parts of the sec
96. ave menu item at the top of the list window The Series Export of all Trace Lists provides a method for collating all the individual section lists in one output file Choose the filename in the Save As dialog and the export operation will automatically generate and save the Trace Lists for all the sections in the series The output is constrained by the options selected in the Lists tab of the Series Options so the export can be limited to a subset of trace names and a subset of measurements The output is a Comma Separated Values file csv identical to the format for an individual Trace List with the addition of a section number field at the beginning of each row Exporting Traces as Line Drawings The Lines command in the Series Export menu allows the traces in a range of sections to be exported as dxf files one file for each section All the non hidden traces within a section are exported as POLYLINES with x y and z values in series coordinates See the description of the DXF Export format in Software Overview for more details Importing Line Drawings Line drawings in DXF format can be imported into a series using the Lines item from the Series Import menu The format of the line importing dialog takes the same form as the Import Images dialog DXF files are selected into the dialog and then section numbers are assigned to these files using the dialog parameters When section numbers are correctly specified the Import button st
97. ay next higher section in series Display preceding lower section in series Switch front and back sections Hold to flicker Delete last trace point entered when drawing Abandon current drawing or tool operation Switch default trace attributes to palette entry Set the corresponding palette entry to the current default attributes and stamp tool shape Section domain and trace movements Section domain and trace movements Decrease brightness of selected domain Increase brightness of selected domain Decrease contrast of selected domain Increase contrast of selected domain May depend on the currently active tool The main menu consists of Program Series Section Domain Trace Object and Help menus Fig 4 1 Submenus of these menus are indicated by an arrowhead on the right hand side of the item Items that open a dialog requiring further user input are indicated by a trailing These operations can generally be canceled in the dialog Other menu items execute immediately The mouse pointer can be used to select items in the main menu but menu items can also be selected with the keyboard Keyboard control of the menu is activated by pressing and releasing the Alt key When the menu is under keyboard control certain letters in the menu items will be highlighted These items can be selected by tapping the key for the highlighted letter For example pressing and releasing the Alt key and then the T key will open the Trace menu The L k
98. bled by entering a negative number in these boxes When sizes are negative objects are sized according to the traces as described above for each object type Boissonnat Surfaces The parameters in the Boissonnat Surfaces box are only used when the Boissonnat Surface generation type is chosen The surfacing algorithm attempts to connect vertices in one section to the nearest vertices in the adjacent section You can limit these connections by setting a positive value in the Don t connect points further than box When the value is negative or zero no limits are applied A negative value is recommended although unwanted connections can sometimes be eliminated by a positive value that is not so small that it interferes with reasonable connections Faces closing the ends of the object are generated by checking the two check boxes at the bottom of the dialog Unchecking the boxes will leave open ends at the first and last sections of the object Z Trace List Open the Z Trace List window by selecting Z Traces from the Object menu If any z traces have been defined for the series a list will appear showing the z traces arranged alphabetically by name Fig 11 6 Depending on the settings in the Lists tab of the Series Options the range of sections and the length of each z trace can be displayed in the list In addition each z trace may be given a descriptive annotation of up to 127 characters The entire list can be saved to a comma separated
99. boolean boolean boolean boolean boolean 128 96 true false false 1 9999 1 5 true 2048 1536 0 25 1 0 1 1 0 1 9 domain true true true false false false true false true false false false false true true false false false true true width of thumbnail buttons height of thumbnail buttons display traces on thumbnail images thumbnail overlay flag center sections on thumbnails first section for thumbnails last section for thumbnails distance between thumbnails frequency of shuttle play in Hz proxy images will be used threshold width for creating proxy threshold height for creating proxy scale factor for proxy dimensions default trace border color default trace fill color default trace fill mode default trace name default trace comment string include thickness in section list include source path in domain list include pixel size in domain list include length in domain list include area in domain list include midpoint in domain list include comments in trace list include lengths in trace list include areas in trace list include x centroids in trace list include y centroids in trace list include z distance in trace list include sect thickness in trace list include section range in object list include trace count in object list include surface area in object list include flat area in object list include volume in object list include z trace comment in list include section
100. by clicking the right mouse button magnification and position When this tool has been selected the cursor will be crossed arrows Drag with the left mouse button depressed to pan the section After panning the hourglass may again appear while the section is re rendered with the new settings Holding the right mouse button down changes the tool to the zoom cursor Dragging with the right mouse button zooms the section Drag upward to decrease the W i The Pan and Zoom Tool can be used to dynamically adjust the section Reconstruct v1 1 0 0 46 Chapter 6 Sections magnification and downward to increase the magnification A particular point in the section can be zoomed by putting the cursor over the point before pressing the right mouse button Zooming in will ultimately lead to a pixelized image where each pixel of the original data appears as a square on the screen This is normal But zooming in while proxy images are used for low magnification Chapter 7 Domain Images may result in premature pixelization To make sure the display is at the maximum resolution of the data page through the sections to force a load of the full image instead of the proxy A section reload can also be accomplished by selecting the section from the section list Note that panning and zooming is entirely different from moving a section Chapter 10 Movements and Alignments Panning and zooming temporarily changes the view point for the whole series All
101. by setting the Don t trace areas less than parameter in the AutoTracing tab to a larger value A value of zero the default allows all areas to be traced A value of 100 square pixels on the other hand will limit tracing to just the areas containing at least 100 pixels at the current magnification Fig 8 13 This parameter also applies wildfires initiated by single mouse clicks or propagated from adjacent sections Copyright 2006 by John C Fiala Revised by K Harris and K Sorra 2009 Reconstruct v1 1 0 0 93 ae Chapter 9 Calibration and Measurement This chapter deals with the quantitative aspects of RECONSTRUCT such as calibrating the dimensions of a series and getting accurate measurement data from the traces Units of Measurement RECONSTRUCT works in an arbitrary system of units The user can specify the name of the units in the General tab of Series Options Each series has its own units Note that RECONSTRUCT does not interpret or understand the units string It is only a comment entered by the user to signify what units are used when data is entered None the less the choice of units should be made carefully Some computations are dependent on discretizing the data and this is sometimes done at relative fraction of 1 unit Thus if the objects to be reconstructed are about 1 micron in size use microns as the units rather than millimeters or angstroms A good rule of thumb is to choose units so that t
102. c Programs Reconstruct The latest versions are available Founded Ape 15 2604 in the Files section Members 303 ianguage English Have questions about using Reconstruct Look here for answers to frequently asked questions Happy Reconstructing w internet Rio v Figure 2 1 The welcome page for the RECONSTRUCT Users Group at Yahoo Groups Credits The development of RECONSTRUCT was funded in part by the National Institutes of Health under grants P30 HD 18655 R01 MH DA 57351 R01 EB 002170 RO1 NS024760 and RO1 MH057414 A number of different people contributed ideas for the user interface and behavior of the software including Dr Harris Source Code The majority of RECONSTRUCT was designed and written by John Fiala Other contributors are listed in the License dialog of the Help menu The contributions of these individuals are as follows Andy Key and the Independent JPEG Group Image input and output was realized by incorporating the Generalized Bitmap Module GBM library written by Andy Key http Awww nyangau fsnet co uk These libraries incorporated the source code of the Independent JPEG Group http www ijg org written by Thomas G Lane for handling the JPEG JFIF image formats Stefan Gustavson Provided the ANSI C port of the complex FFT that is used for image correlations Reconstruct v1 1 0 0 10 Chapter 2 Software History Ju Lu Implemented the section to section
103. case Once 104 is aligned to 103 select Propagate from the Movement submenu and enter the range for the remaining sections on the upper side sections 105 200 The result will put the entire series in alignment Reconstruct v1 1 0 0 115 Chapter 10 Alignments and Movements Montaging Domains by Point Correspondences Quick Start gave a protocol for aligning sections using point correspondences The point correspondence technique can also be applied to the problem of montaging multiple images within a section This is done by repeating on the selected domain the alignment movement generated from Align Traces on corresponding points Was z ay on Ri EEN as d SE Figure 10 3 Montaging by point correspondence A Adjacent section low resolution field or completed montage B New domain on section with yellow triangles representing correspondences to points in A C Align Traces D Repeat the movement on the selected domain to place image at the correct location on the section Reconstruct v1 1 0 0 116 Chapter 10 Alignments and Movements Suppose an adjacent section is already montaged Fig 10 3A This can be accomplished by manual movements or by using an image that contains the entire field at low magnification To align domains in the next section to this adjacent section first enter corresponding point traces at places on the domain Fig 10 3B and the adjacent section Fig 10 3A that should be pu
104. cation is allowed to be performed automatically by checking this box in the Series Options the resolution will be chosen appropriately for the zoom factor allowing traces to be quickly simplified to a reasonable fidelity For simple shapes such as lines and rectangles the simplest possible representation is automatically generated For this reason these shapes are marked as Simplified as soon as they are created Unchecking the Simplified state of these traces and using the Simplify menu item will actually add trace points to these traces and may significantly change their shape For most other trace shapes some reduction in trace points without severe shape change may be possible provided the simplify on demand resolution is appropriately chosen Traces created by open point by point drawing are not automatically simplified on completion The trace may consequently contain loops that will adversely affect the interpretation of the trace These loops can be eliminated by closing the trace and using the Simplify menu item Drawing an open point by point trace closing it by changing its attributes and then using Simplify is essentially the same as using the closed Point by Point Tracing Tool in the first place The main difference is that Simplify will use a resolution set by the user in the Series Options while simplification during drawing see below is done relative to the current screen pixel size Note that the simplification process appli
105. ccuracy of this computation is dependent on the boundary being free of internal loops and the values x y not being too large Since 64 bit floating point values are used for all such calculations the second factor should not be an issue for most series Midpoint X This column reports the x position of the midpoint of the extent of the boundary in series units The calculation is max X min X 3 Midpoint Y This column reports the y position of the midpoint of the extent of the boundary calculated by Reconstruct v1 1 0 0 103 Chapter 9 Calibration and Measurement max y min y gt Trace List Measurements Two dimensional measurements are reported for traces within a section in the Trace List window These include trace length area and the x and y position of a trace These values are reported as columns in the Trace List window The columns displayed are determined by checkboxes in the Lists tab of the Series Options All values are computed from the section data at the time the Trace List is filled Refresh reopen or page sections to bring the Trace List window values up to date after any changes to the traces All values are in series units Use the Series gt Export gt Trace Lists function to put all trace length data into a format for use in a spreadsheet such as Excel Length The length of a trace is the sum of the distances between trace points length z T AJ a ET 45 ka LfTbe H i
106. ce Tips when using Simplify e Trace the inner surface of your region of interest For example trace along the inner sheet of a lipid bilayer cell membrane so that the expansion of 1 screen pixel will have a minimal effect on the trace if you choose to Simplify e Avoid using Simplify repeatedly on a single trace as this may cause an undesirable trace expansion for your region of interest Reconstruct v1 1 0 0 83 Chapter 8 Traces e Draw or edit a trace when fully zoomed on it so that the expansion of 1 screen pixel will have minimal effect on the trace Trace expansion can be reduced by checking the box next to Shrink back after simplifying in the AutoTracing tab When this box is checked the clockwise outer expansion is followed by an inner clockwise traversal around the interior of the trace Shrink back should produce a reasonable result for convex traces but traces that are highly concave with narrow interior regions exhibit loops after shrink back For this reason the shrink back command should be used sparingly Simplifying traces using a large positive resolution value results in traces with fewer trace points A smaller resolution value will produce many more points If the trace is large and the resolution is very small so many points may be generated that the response to a Simplify operation will become painfully slow To avoid slow simplifications make sure the resolution parameter is large enough If simplifi
107. ce normals rather than vertex normals This will enable the 3D rendering software to calculate the best normals for the final rendering Reconstruct v1 1 0 0 137 Chapter 11 Objects Facets Facets refer to the number of faces generated for the object A low number of facets means fewer faces in the object representation A high number of facets will produce a smooth surface representation Facets only apply to Cylinders Ellipsoids and Spheres For a Cylinder it specifies the number of facets around the circumference For instance a value of 4 produces a 4 sided cylinder Each facet is made up of 2 triangular faces For Spheres and Ellipsoids the total number of faces is foo f 2 where f is the facets number Size The size parameters allow you to specify the dimensions of the Trace Slabs Trace Midpoints Box Cylinder Ellipsoid and Sphere objects Size A specifies the width in the x direction for Boxes and Trace Midpoint faces For Trace Slabs Size A can be used to override the section thickness parameter that normally specifies the thickness of slabs For Cylinders Ellipsoids and Spheres Size A specifies the length or diameter along the principal axis Size B specifies the height in the y direction for Boxes and Trace Midpoint faces and the diameter of secondary axis of Ellipsoids and Cylinders Similarly Size C specifies the diameter of the third axis of Ellipsoids and Cylinders In all cases the size parameters can be disa
108. ce on adjacent sections Why is the 3D surface so bad See Chapter 11 You might think that it would be easy for the program to correctly surface identical traces on adjacent sections but in fact it is harder than non identical traces The Boissonnat algorithm is undefined for identical traces so a trick is used to get a surface anyway Often this trick works but sometimes it does not Try this Start over with a fresh rectangle trace drawn with the rectangle tool Note this trace is already as simplified as it can get re Simplifying it would actually make it more complicated strangely enough Copy the rectangle trace with Ctrl C and then paste it into adjacent sections Now open the Object List and surface the object by adding it to the 3D scene You may get a solid but let s assume you get a surface with a mistake in it Go to the center section and select the rectangular trace Use the Type In dialog from the Movement menu found under Section dropdown to translate the trace imperceptibly by say 0 001 in the X and Y directions Now add the object back to the scene and your surface should be solid Shifting the identical trace by the tiniest amount is usually enough to avoid the identical traces dilemma How can I reduce the number of lines faces in my VRML output See Chapters 8 amp 11 You can greatly reduce the number of segments in an existing trace or object by reapplying the Simplify command You may have to uncheck the simplifi
109. ce to counterclockwise use the Reverse command from the Trace menu Trace without loops or self intersections As depicted in Fig 11 4 A traces with self intersections do not produce a valid surface because of the ambiguity between interior and exterior regions To avoid loops all tracing should be performed with the Automatically Simplify option turned on Chapter 8 Traces In addition traces should be drawn with one of the tools designed to produce closed profiles rather than drawing open traces and then changing the trace attribute to closed Reconstruct v1 1 0 0 134 Chapter 11 Objects Do not intersect traces of the object Traces within a section must not overlap as depicted in Fig 11 4 B Such traces also produce ambiguity about interior and exterior regions of the object However traces of one object may overlap traces of another object without problems because Boissonnat surfaces are generated independently for each object ACOS Domain Error If this error message appears when generating a Boissonnat surface then probably the traces of the object contain intersections on one or more sections Check for overlapping and or multiple copies of traces Use the section range parameters in the 3D tab of the Series Options to narrow down which section s contain the intersecting traces Cylinder A Cylinder may be generated to represent an object The midpoint center of the Cylinder is given by the centroid of the tr
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111. ction 1 has two domains named domain1 and domain2 Domain has an absolute source path while the source path for domain2 is relative to the series folder The limit string appearing in the title bar ensures all domains are listed Each domain is listed by name in the order that they are painted onto the section Fig 7 4 The domain name is the name of the domain boundary trace so it will be created from the default trace attributes at the time the domain is added to the section In addition to the domain name the list can contain columns denoting the path to the source image file the pixel size of the image the domain boundary length the domain boundary area and the midpoint of the domain all in series units The columns displayed in the Domain List are determined by the checkboxes in the Lists tab of the Series Options The entire list can be saved to a file using the command from the List menu at the top of the list window Reconsttuct v1 1 0 0 60 Chapter 7 Domain Images Only a single domain can be highlighted in the list Pressing Enter or clicking the Select menu item at the top of the list will select the domain from the section and display it in isolation Whenever a domain is selected the Domain List will be automatically closed The Modify menu at the top of the Domain List window allows the highlighted domain to be modified in several ways The domain can be deleted hidden from view or unhidden The Attribut
112. ctions IGL Align also developed in the Image Graphics Laboratory was a first attempt at aligning grayscale images Funding from NIH s Human Brain Project to Children s Hospital allowed the development of a more sophisticated alignment program sEM Align in 1999 sEM Align was developed to allow on screen alignment of larger images than was possible through the use of IGL Align This is accomplished by displaying and moving scaled versions of the original images on screen Images can be incrementally moved using keyboard input or alignments can be computed from a set of feature correspondences specified by the user To use the alignments computed by sEM Align a new set of aligned images are rendered for input into IGL Trace Most of the functionality of SEM Align and IGL Trace is incorporated into RECONSTRUCT By combining alignment and tracing into one program RECONSTRUCT allows images to be processed more efficiently Tracing can be done directly on the transformed images and alignments can be easily modified Converters are available to convert existing SEM Align and IGL Trace series to ones compatible with RECONSTRUCT See http synapses clm utexas edu tools reconstruct formats stm for details RECONSTRUCT development was funded through April 2004 by NIH s Human Brain Project under a grant to Dr Kristen Harris A Users Group was created at that time to continue to support the RECONSTRUCT user community The RECONSTRUCT
113. curacy may be an issue The thickness of individual sections can be measured from minimal folds in the section when these are present An alternative method for estimating average section thickness takes advantage of longitudinally sectioned cylindrical objects such as mitochondria Fiala amp Harris 2001 This method is applicable to series in which the section dimensions e g pixel sizes have already been calibrated and the sections have been aligned A cylinder sectioned longitudinally has its diameter appear in the series in two directions Fig 9 3 First in the section passing through the middle of the cylinder the diameter d can be measured in the plane of the section The diameter also extends orthogonal to the plane of sectioning causing the cylinder to appear across several sections By counting the number of sections s through which it appears section thickness can be estimated as the ratio d s Taking the average of many such measurements distributed throughout the series results in an estimate of the average section thickness This value can be applied to every section in the series using the Thickness dialog from the Modify menu of the Section List Reconstruct v1 1 0 0 99 Chapter 9 Calibration and Measurement Figure 9 3 The method of cylindrical diameters involves computing the ratio of the diameter of a cylindrical object at its widest point on a section arrows relative to the total number of sections th
114. d at the bottom of the main window Resizing and Moving Windows Windows can be resized by placing the pointer on the narrow border of the window pressing the left mouse button and dragging the border The pointer should change to resize arrows when over the border of a realizable window The main window can also be resized by dragging from the resize area in the lower right hand corner of the status bar Both windows and dialogs can be moved by dragging the title bar with the left mouse button Under some operating systems the windows can be maximized or minimized but after this operation they cannot be restored to their original size and position except by closing and reopening the window To maximize or minimize a window place the pointer on the window s title bar and click the right mouse button to open a popup menu of window commands Windows that display an icon in the title bar namely the main window and the Series Options dialog can be moved with the keyboard Selecting the icon with left mouse button opens the system menu To resize or move the window select the menu item and then use the arrows keys to adjust the position of the window Holding the Ctrl key down allows finer control of the movements Release the keyboard mode by hitting Enter or by pressing the left mouse button again Changes can be canceled with the Esc key Switching Between Windows The keyboard focus can be switched between windows of the application by usin
115. d in the second option If the calibration traces are not centered on a domain then this option will be disabled The correct pixel size of the domain will be set by selecting the second option This pixel size value is computed by transforming the selected traces into the domain and computing their lengths on the image in pixels The sum of the entered lengths in units is divided by the sum of lengths in pixels to get the correct pixel size for the calibration grid This pixel size can be subsequently applied to all domains as discussed in the next section Selecting the second option will only change the pixel size of domains not of traces in the section If the section has lots of traces and domains it may be advantageous to chose the final option instead This option computes a scaling factor based on the ratio of the sum of the entered lengths divided by the sum of the current lengths The scaling factor is applied to the transformations of all domains and traces in the section effecting the calibration by scaling rather than setting the pixel size It desirable to have the pixel size parameter accurate for later reference since the scaling factor will not be visible to the user So the second option should be used in the Calibrate Traces dialog for the initial calibration With this second option existing traces will no longer be correct and existing alignments between domains will be disrupted This is not a problem if calibration is carried
116. dering by first selecting it then deselecting it and then saving the section Figure 6 7 The effect of Fill with border colors Right Original section as it appeared in the main window Middle After Render Section with border color fill Left The effect is altered by a different order of the traces In this case the yellow region was on top so the interior regions were colored first and then yellow colored over everything so the interior appear only lightly darkened In the middle image the interior regions were on top so they were colored last After the OK button is selected in the Export Sections dialog the sections begin being rendered and the new files created A small dialog box appears showing the progress of the rendering The operation can be aborted by using the Abort button in the dialog or the Ctrl Pause key sequence Aborting may be slow but additional sections will not be processed after the Aborting message appears in the dialog When all sections have been rendered a message is displayed indicating that the operation was completed Reconstruct v1 1 0 0 55 Chapter 6 Sections The new exported images may be reviewed by opening the new series from the Series menu Copyright 2006 by John C Fiala Revised by K Harris and K Sorra 2009 Reconstruct v1 1 0 0 56 ae Chapter 7 Domain Images Domains are image regions defined by an image file omp jpg etc and the boundary outlining the regi
117. dheres to the 1 0 format specification www web3d org For the most part this only means that the Background color will not be saved with the model DXF Some even older programs accept AutoCAD s DXF input but not VRML For this reason support is provided to export the scene as DXF but this representation is less rich than VRML The dxf output does not include the scene view point or color and shading information An Object consisting of line data will be output simply as a series of LINE entities while an Object consisting of triangular faces will be output as a series of 3DFACE entities Bitmap A simple method of capturing the RECONSTRUCT display as an image is to use the Print Screen key on the keyboard This copies the entire screen to the clipboard where it can imported into image editing software for refinement The Export As Bitmap operation expedites this process by storing just the image of the 3D Scene window The image data is stored in a Windows Bitmap file JPEG The Export As JPEG operation stores the image of the 3D Scene window in a JPEG file Since JPEG is a compressed image format the user is prompted for the amount of compression to use before the file is written 360 Bitmaps The Export As 360 Bitmap operation stores a sequence of images of the 3D Scene window into a set files The image data is stored as Windows Bitmap files with each filename modified by a three digit number before the bmp ex
118. e Quit button If not already displaying a section in the main window use Page Up and Home to display the first section Reconstruct v1 1 0 0 59 Chapter 7 Domain Images Montages Images can be tiled within a section to create a montage A montage is created by importing multiple domains and placing them at the correct positions within the section A section can contain no more than 254 image domains The initial position of each domain can be set in the Import Images dialog by using the Offset X and Offset Y values Multiple domains can be added to a section positioned at different offsets by filling the list and clicking the Import button repeatedly each time with a different offset specified To learn how to montage domains using the point correspondence method see Chapter 10 Movements and Alignments Listing Domains The Domain List window is opened by selecting List image domains from the Domain menu Every domain in the section is included provided the domain name matches the limit string in Lists tab of the Series Options The limit string appears at the end of the text in the title bar Fig 7 4 When changes are made to domains in the section e g by importing images or a change is made to the limit string in the Lists tab the list may need to be regenerated Section 1 domains Select List Modify Create Source Pixel size AA Sampl 0 00254 section1 1 jpg 0 00254 Figure 7 4 The Domain List window Se
119. e Import Images dialog was accurate no further calibration is required However in most cases the pixel size should be adjusted using the image of a calibration grid or scale that was photographed with the series This is best done before any alignments or tracing since changing the pixel size later can invalidate these adjustments The process of calibration in RECONSTRUCT involves drawing traces of known length and then entering that length value into the program Select the Line Tool Fig 1 2 from the Tools window and draw a line trace of known length on a section containing a calibration grid image For more details on calibration grids and lines see Chapter 9 Wildfire Region Gro wire Region Growing aiding IIS Figure 1 2 The Tools window This window should be visible at the top of the RECONSTRUCT main window Use the left mouse button to select a tool The Line Tool used for calibration lines is the 8th button on the top row The Pencil Tool is the 10th button The Wildfire tool button is depressed and so a description of the tool appears in the title bar After the calibration trace is drawn select the Calibrate item from the Trace menu A dialog box will appear for each calibration trace displaying the current length of the trace Enter the actual length of the trace in place of the current length When the lengths for all selected traces have been entered a Calibrate Traces dialog will appear Fig 1 3 offerin
120. e O O Min Distance T T T O and T O Reconstruct v1 1 0 0 108 Chapter 9 Calibration and Measurement where the distance between any two traces T and To is the minimum 3D distance between any two line segments S S of the traces Distance T 7 Min Distance S S S T and S T Since all the segments of T and T lie on two parallel planes we can defer dealing with the z component of the distance and first compute the minimum squared x y distance The squared x y distance between two line segments SG from point P to point Q and So between points R and T is computed by first computing the vectors d0 T R d1 Q gt P d R P then using the x and y components of these vectors computing a00 d0 d0 d0 d0 all dl dl d1l dl a0l d dl iT d0 dl bO d0 d d0 d bl dl d dl d c d d dd e d0 dl d1 d0 f a0l b1 all b0 g a00 b1 a0l b0 h a00 2 a0l all 2 b0 2 bl c The segments are parts of two lines The squared x y distance between the lines is given by Schneider amp Eberly 2003 a00 e 2 a0l 1 t all t 2 b0 1 2 bl t the minimum of which occurs at the values t and t where il CH a00 t a0l W i b0 H CH all t a0l t b1 The correct values of tp and t must take into account the end points of the line segments This constrains the solutions of t and t to be between 0 and 1 inclusive If e is zero th
121. e by using the scrollbar at the bottom of the window or by using the mouse scroll button Clicking the scrollbar with the left mouse button will begin shuttle play of the thumbnails in the flipbook In shuttle play the thumbnails are displayed first in one direction and then in the other continuously The rate of switching images is determined by the Shuttle parameter in the Thumbnails tab of the Series Options Shuttle play can also be started and stopped by the Tab key when the thumbnails window has the keyboard focus Exporting Section Images Sections can be exported to image files in much the same way they are rendered on screen or on thumbnail buttons This provides a way to export aligned montages created with RECONSTRUCT to other programs for further analysis To create new image files from the sections select the mages item from the Series Export menu The Export Images dialog Fig 6 5 allows the range of sections to be selected By default all sections in the series will be rendered Reconstruct v1 1 0 0 52 Chapter 6 Sections Save each section as a single image file C Make images resemble current view Pixel Size 0 002690 Save whole sections atfull resolution Image size 1188 x 874 pixels 2 97 Mb uncompressed m File Format fe Bitmap JPEG Quality 1 100 EN Traces None Asdisplayed Fillwith bordercolors First Section 2 Last Section 9 m Save secti
122. e list so unselecting these columns will decrease the time it takes to fill the list Count The count is the total number of traces in all sections of the object Surface Area Each trace of an object contributes to the surface area an amount equal to the product of the trace length as computed in the Trace List and the section thickness Surface Area length x thickness allzections Flat Area The enclosed areas of closed traces in the object are summed with the surface areas of the open traces to get the total flat area Flat Area 3 gt length x thickness d area all ctiom open traces deed traces The area is computed using the Green s theorem formula as in the Trace List Negative areas detract from the total flat area This measurement is useful for objects that are known to be flat but may sometimes appear in the plane of section as well as perpendicular to it Fig 9 5 The flat area can also be used to include end caps on surfaces Reconstruct v1 1 0 0 106 Chapter 9 Calibration and Measurement recon_K21 57 l lolx Program Series Section Domain Trace Object Help CT aer Scene Save Modify ee hee Object Flat area E synapse 0 0694428 209 _ _ ET Select Save Modify d Trace Area te synapse 0 0394757 P recon_K21 56 Section 56 traces sy Select Save Modify Trace Length Area Thickness synapse 0 453496 0 0 055 E section
123. e object spans e g section thickness d sections occupied Z Distance The z distance of a section is the distance along an axis perpendicular to the plane of sectioning from the start of the series to the section Fig 9 4 This z distance is used to compute 3D values from traces The z distance for any section is computed by summing the thicknesses of preceding sections The section indices are not used in the z distance calculation Section indices only indicate the order of sections not the relative locations of sections in space Section locations and their relative distances are entirely determined by the sum of thicknesses The z distance is computed relative to the section with the lowest index greater than zero Changing section indices without altering the order does not affect z distance However adding sections with lower indices will change the z distances Reconstruct v1 1 0 0 100 Chapter 9 Calibration and Measurement section 2 middle of section S top of section section 1 z distance Figure 9 4 Two methods are available for computing the z distance of section n One computed the distance to the middle of the section Z t t t3 t t 2 The other method computes the distance to the top of the section Z t t t3 tn 1 t Two methods are provided for the computation of z distances Fig 9 4 One computes the distance to the middle of the section while the other comp
124. e sections The lines are colored using the trace border color and spaced according to the Z distance calculation for each section Chapter 9 Calibration and Measurement For this type of representation the only additional 3D options used are the section range parameters and shift parameters Trace Slabs The Trace Slabs option represents the object by extruding each trace by the thickness of the section A slab is generated for each trace of the object with no attempt to connect or smooth between traces This representation may be advantageous for certain types of objects particularly where interior holes need to be more faithful represented Reversed orientation counterclockwise traces will appear as holes inside the slabs For example an object drawn as two concentric circles with the inner circle reversed using the Trace menu item will appear as a ring in the 3D Scene with Traces Slabs The method used for generating Trace Slabs is Delaunay triangulation of the trace vertices followed by boundary completion as in the first step in the Boissonnat surfacing algorithm For Traces Slabs to generate a reasonable result follow the tracing rules defined below for Boissonnat surfaces In particular traces must be properly oriented without intersections This can be most easily accomplished by keeping the Automatically simplify option turned on when drawing Chapter 8 Traces Traces Slabs can also be used to evaluate the quality of the i
125. e still selected will find the first occurrence of the trace on the next higher section in the series So by repeatedly pressing Ctrl F and Enter the first instances of a trace can be tracked through the series The trace name entered in the Find dialog can be any valid limit string as defined for the List tab of the Series Options For example searches for nuc will find the first occurrence of any trace with a name beginning with the letters n u c Only the first instance of a trace within a section will be found however To locate and select all the instances of a particular trace name within a section use the Trace List The first traces of an Object in the series can be located by selecting the Find 1st command from the Object List menu Selecting this command with an object name highlighted in the list will display the first section and first trace of the object in the main window Repeating this command for an object will cycle the display through all the traces of the object that are found on the first section This command cannot be used to find traces in the other sections of the object Tracing with Wildfire The Wildfire Tool looks like a match on the Tools window Pressing and releasing the left mouse button can be thought of as igniting a fire that spreads in all directions from the cursor point When the spreading stops at the boundary of a region a trace is created that surrounds this boundary After the trace is created i
126. e upper right hand corner of the window This also typically aborts the operation being done by the Reconstruct v1 1 0 0 33 Chapter 4 User Interface window For example if too many distances are being computed in the Distances List the Distances calculation can usually be aborted without adverse consequences by closing the window However if a list view attempts to display too many items it may make the entire program unresponsive so that the window cannot be closed When this happens you may need to abort the entire program to stop the operation RECONSTRUCT can usually be terminated by closing the main window If a series is open it will be closed prior to exiting the program One exception is when adding objects to the 3D Scene from the Objects List When 3D representations are being generated the current series should not be closed nor should the program be terminated This will cause a fatal error that may result in the loss of unsaved changes to the series During 3D object generation use the Abort button provided and wait for the operation to terminate on its own before closing the series or exiting the program In the event that RECONSTRUCT becomes unresponsive such as when trying to fill a Distances List with 65 000 measurements you may need to abort the program from the outside To do this open the task manager by using Ctrl Alt Delete or by selecting Run from the Start menu and entering Taskmgr In the Task
127. each section is redrawn when it is accessed This process is slow because each image is transformed into position using complex calculations Checking the box next to Overlay thumbnails to make a flipbook causes the Thumbnail window to display sections on top of each other creating a fast version of the normally slow Page Up and Page Down operation Autotracing The final tab contains the options related to automatic simplification smoothing and region growing of traces Automatic simplification is always initially turned on and traces are simplified after drawing Simplification eliminates loops and other artifacts that can reduce the accuracy of measurements and three dimensional representations It is advisable to keep this option on at all times For more details on the other simplification options see Chapter 8 Traces Wildfires are a form of autotracing based on a region growing algorithm The Stop parameters control when region growing will terminate These parameters may need to be set carefully to get the Wildfire Tool to work at all For more details see Chapter 8 TABLE 5 1 Series Options Stored in the Series File Option Type Default s Description index integer 0 current section number units string microns units of measurement viewport floats 0 0 0 00254 SES defaultThickness float 0 05 default section thickness zMidSection boolean false EE SEET autoSaveSeries boolean true automatic series saves autoSaveSection bool
128. ean true automatic section saves warnSaveSection boolean true warn if section save needed beepDeleting boolean true beep when item is deleted beepPaging boolean true beep when paging fails hideTraces boolean false hide all traces when paging unhideTraces boolean false unhide all traces when paging hideDomains boolean false hide all domains when paging unhideDomains boolean false unhide all domains when paging useAbsolutePaths boolean false absolute vs relative path to image Reconstruct v1 1 0 0 40 Chapter 5 Series thumbWidth thumbHeight displayThumbContours useFlipbookStyle fitThumbSections firstThumbSection lastThumbSection skipSections flipRate useProxies widthUseProxies heightUseProxies scaleProxies defaultBorder defaultFill defaultMode defaultName defaultComment listSection Thickness listDomainSource listDomainPixelsize listDomainLength listDomainArea listDomainMidpoint listTraceComment listTraceLength listTraceArea listTraceCentroid listTraceExtent listTraceZ listTraceThickness listObjectRange listObjectCount listObjectSurfarea listObjectFlatarea listObjectVolume listZTraceNote listZTraceRange integer integer boolean boolean boolean integer integer integer integer boolean integer integer float floats floats integer string string boolean boolean boolean boolean boolean boolean boolean boolean boolean boolean boolean boolean boolean boolean boolean
129. ed For a dynamic length measurement that takes into account the section thicknesses use the Z Trace Tool For both the open and closed point by point drawing tools the status bar reports the position of the pointer on the section This allows points to be entered at particular locations When a z trace is being drawn the status bar reports the length of the next segment including the difference in the z distances of the start and end sections Reconstruct v1 1 0 0 102 Chapter 9 Calibration and Measurement la gt lix 24 y 2 z z length af X54 Xp Oy G it Domain List Measurements Two dimensional measurements on the domain boundary including length area and the x and y position of the midpoint are reported as columns in the Domain List window The columns are selected by checkboxes in the Lists tab of the Series Options All values are computed at the time the Domain List window is created To make sure that the values are up to date refresh or reopen the Domain List window after any changes to the domains are made All values are in series units Length The length of the domain boundary is the sum of the distances between boundary points Area The area is the size in square units of the region enclosed by the boundary This area is computed using a formula based on Green s Theorem 3 l o y area 5 Deet Xia Di me for each segment from x y to Xi 1 Yi41 in the boundary The a
130. ed flag in the Trace Attributes in order to do this When the simplify on demand parameter is zero or negative the size of the resulting trace segments will be at least 1 of the overall trace extent When a positive simplify on demand parameter is given Simplify will use this value as the smallest segment length and the trace will expand by about this distance all the way around Provided the simplify on demand parameter is large enough Reconstruct v1 1 0 0 163 Appendix 1 to increase the minimum segment length which is initially the screen resolution when the trace was made the result will be a reduced number of triangles in the final surface You may want to play around with Simplify on a single trace before applying to a whole Object If you want to play around with Simplify on a whole Object suggest you first make a copy of your object or series Simplify on a whole Object is not undo able How can I bring multiple series together accurately within the 3D Scene If your series were parallel you could just add the objects from each series to the scene in sequence Open first series add objects to scene WITHOUT EXITING RECONSTRUCT open the next series In the Series Options 3D tab set the offset Shift object by X Y Z if necessary to position the objects in the scene You can permanently shift the position of each series by the appropriate amount and leave the offsets at zero as described in the next part for rotatio
131. ed 2 Format JPEG D bits pixel Size 768 x 765 pixels 576 Kb Proxy _unaligned 2_proxyjpq 230 x 230 Pixel size 0 002697 microns Contrast D mm Brightness omg r Color channels v Red V Green V Blue Cancel Figure 7 5 The Domain Attributes dialog This dialog allows the attributes of a domain to be changed By selecting Cancel no changes are made Name The current domain name is shown in the Name box A new name for the domain may be typed in the box The rules for domain names are the same as for traces Domain names are limited to a maximum of 63 characters Illegal characters lt gt are replaced with underscores The special tokens are interpreted for domain names entered in the Attributes dialog These tokens allow domain names to be automatically numbered just as for trace names but the token is interpreted independently for domains and traces See Chapter 8 Traces for details Source The source path is a string of up to 255 characters that defines the location of the image file This path can be an absolute path or a path relative to the series folder Fig 7 4 When a new domain is created by default the program stores the relative path from the series folder to the image in the section file Thus if the image file is copied into the series folder the domain path to the image simply the file name By checking the Use absolute paths for new domains option in the General tab
132. ed to an open point by point trace will very likely add points so that the trace more closely matches the option specified resolution Smooth The smoothing operation applies a moving average filter to the locations of the trace points This effectively smoothes the transition between points and converts a polygonal shape with corners into a more rounded profile The magnitude of the effect depends on the density of trace points and the length of the moving average filter i e how many adjacent points are use to adjust the position of each point on the trace When the filter is long the trace will be smoothed more than when the filter is short The effect also depends on the density of trace points For a given filter length sparsely distributed trace points as generated through point by point drawing will be more drastically modified than dense numbers of trace points generated by region growing The length of the moving average filter is specified in the Autotracing tab of the Series Options The length is the total number of points around a given trace point including that point that are averaged together to get the new trace point location For example a filter length of 9 will average the 4 preceding points the current point and the 4 Reconstruct v1 1 0 0 84 Chapter 8 Traces succeeding points along the trace to calculate a new position for the current point For simple traces such as squares the effect will generally be und
133. eeeee 57 ee E 60 Listing EN ANG ep cc rated ess dele eter eee eege 60 Pl CUNY DO NEE 61 Domain Sie E 61 Rue Bi 62 KSE 62 od cine ep rated esi pincer oe cc EEEE E 62 ke 63 Eppes EENS 63 EUREN 63 Moving and Montaging Domain Images 63 Merging a Domain EE 64 When to Merge a Domain ENEE 64 FA IT AZINE ERR ET E 67 EH 67 BOUMGANY AAEE 67 TAS TON E 67 Copying DOMainS EE 67 Aiding DOMAINS E 68 Eege 68 Proxy Rule of Thumb for single domains enn 70 ae Chapter 8 Traces 100cc 71 Creating a Trace ee edd 71 Open Point by Point Drawimg 72 Closed Point by Point Drawing cccesssssececceeeeeeeeeeseseeeeeeeeeeeseeeesnseeeeaeeeeees 72 Freehand RAW e E 72 ENMPSE TOO EE 72 tee Uh e E 73 Reconstruct v1 1 0 0 iii Table of Contents DICK E 73 Stamping Predefined Ghapes EEN 73 CPST E deis Ee gl 73 Semi Automatic MAC E 75 FACS asa 3 D UNGU ocx ns atiaedtatoaduundodadhbondiohdsansgdebanraeebbsaiaedidansannebonasedibassatatice 76 Setting Trace Attributes for Drawing cscivwcdesisnestenctnnshendeanaheniienstentieulavthersleelinwedeinn 76 att 77 About Trace EE 78 WINS WAC E 79 Gelee a ER 80 Mergent eee re on ene re one ney E EE 81 PU eege ege 82 lu EE 82 SMOG RP err Pr nr rr Peer ry eee eee cere eee ere eee 84 Modifying Net de TEEN 85 MAGS EE 85 210110 C1070 0 getest 86 EE ee 87 all 87 PUN EE 87 ST UN sat pect E E EE A E E E E 88 Closed EE 89 Adding AG ONIN SN res sci teciem sce seston nde ted tees a aaaea
134. een shot of RECONSTRUCT with a 3D Scene window open The objects highlighted in the Object List with blue icons reside in the scene These objects include several dendrites various colors and axons orange reconstructed from a series of electron micrographs from the hippocampus The color of the axons was changed from their trace colors using the In Scene Attributes dialog Diffuse Color The parameters in the Change Scene Objects dialog determine object color and reflectance properties Diffuse Color is the main reflective color value Surfaces perpendicular to the view point strongly reflect with this color while surfaces pointing away from the view point reflect very little of the Diffuse Color and instead take on the Emissive and Ambient colors Emissive Color Emissive Color is emitted from the object in the absence of reflected light The object simply glows this color Emissive color lacking variations in reflectance does not give a sense of the 3D shape of the object Emissive color is used by default for Traces and Trace Midpoint representations that do not have 3D surface structure Ambient Intensity Reconstruct v1 1 0 0 143 Chapter 12 The 3D Scene The Ambient Intensity specifies how much ambient light a surface reflects Ambient light is not directional and so comes from all surface orientations The ambient color of an object is the Diffuse Color scaled by the Ambient Intensity value between 0 and 1 A value of
135. electing List traces from the Trace menu Every trace in the section that matches the limit string specified in the Lists tab of the Series Options Fig 5 2 When new traces are drawn the list will be updated only when it is regenerated either by refreshing it opening it again or by paging sections Each trace is listed by name in alphabetical order along with an icon that indicates some attributes of the trace Fig 8 6 A closed blue figure indicates that the trace is closed while an unclosed red line indicates that the trace is open Traces that are not simplified may contain loops see below so unsimplified traces are symbolized by a figure eight shape Traces that are hidden from view are also listed with a special H icon In addition to the trace name and icon the list may contain several columns of additional data about each trace These Trace List data columns are selected in the Lists tab of the Series Options In addition to the area Fig 8 6 the Trace List can include comment length centroid extent section thickness and z distance For more on these values see Chapter 9 The entire list can be saved to file using the Save command from the List menu at the top of the list window Reconstruct v1 1 0 0 79 Chapter 8 Traces Section 17 traces Es Select List Modify Trace Area dosed 0 145144 closed unsimplified 0 0868581 H hidden 0 0588338 G open 0 open unsimplified 0 Figure 8
136. en the lines are parallel and the squared x y distance D is Reconstruct v1 1 0 0 109 Chapter 9 Calibration and Measurement if a00 0 and all 0 then D c f j c if b1 lt 0 else if a00 0 then D jall 2 blte if bl 2a11 c bl Za ll otherwise c if bO lt 0 else if all 0 then D a00 2 b0 e if b0 a00 c b0 a0 otherwise f c if a01 lt 0 and b0 lt 0 a00 2 b0 c if a01 gt 0 and b0 2 a00 else D all 2 bl c if a01 gt 0 am b0 2 gt a01 f h if a01 lt 0 and a01 b0 a00 c b0 att otherwise If e is not zero then the lines are not parallel If fis less than or equal to zero then D is computed by ri c if b0 lt 0 if g lt 0 and b1 lt 0 then D a00 2 b0 e if b0 gt a00 e b0 ele otherwise all 2 bl e if a01 lt 0 else if g gt e and bl gt al11 then D h if a01 b0 gt a00 all 2 b1 c a0l b0 a00 otherwise f c if b1 lt 0 else D all 2 bl c if bl gt al1l1 e RI dall otherwise If fis greater than or equal to e Dis instead computed by Reconstruct v1 1 0 0 110 Chapter 9 Calibration and Measurement c if b0 lt 0 if g lt 0 and a01 51 lt 0 then D a00 2 b0 ce if bO gt a00 c b0 v 7 a00 otherwise all 2 bl e if a0l lt b0 else if g gt c ami a0l bl gt all thenD h if a01 b0 gt a00 a00 2 b0 c a0l b1l do ll otherwise c if b1 lt 0 e
137. eneral tab of the Series Options Increasing the significant digits will allow a larger range and or increased resolution but will also increase the storage requirements for the section files The significant digits parameter also determines how many digits are displayed in lists and how many digits are output to csv dxf and wrl files Decreasing the parameter is generally not a good idea as this can result in making traces inaccurate but saving fewer significant digits has the benefit of reducing the size of the files The actual position of a trace on the section is additionally determined by the associated transformation also stored in series units Because the transformation consists of just a Reconstruct v1 1 0 0 94 Chapter 9 Calibration and Measurement few parameters it is always stored at the full resolution Since all real values are represented by 64 bit floating point numbers the full resolution is 15 significant digits plus an exponent Image Pixel Size Images are stored as raster bitmaps in the original image files When this data is imported into a section the pixels are mapped into series units using a magnification factor the pixel size The pixel size parameter tells how big a Square pixel of the image is in series units Each image has its own pixel size parameter This allows images obtained at different magnifications or scanned with different dpi settings to be accurately incorporated into the same
138. er images Contrast and Brightness The contrast and brightness of the image can be adjusted by typing in new values in the Domain Attributes dialog The intensity of each pixel is adjusted by first multiplying it by the contrast value A contrast value of 1 indicates no change Then the brightness value is multiplied by 255 and added to the contrast adjusted intensity The brightness and contrast of a domain can also be changed in the main window when a domain is selected This is done with the hyphen equal sign and bracket keys as described in Table 4 2 Pressing the hyphen key decreases the brightness while the equal key increases the brightness Contrast is increased by the right bracket and decreased by the left bracket To return to the original brightness and contrast values select Contrast from the Domain Reinitialize menu The brightness and contrast can also be changed for all the domains contained in a range of sections by using the Brightness Contrast dialog from the Section List First highlight the range of sections to be modified then open the dialog Enter the desired contrast and brightness values and select OK It may be helpful to first determine appropriate values by use the key commands on a selected domain and then checking the final values in the Domain Attributes dialog Color Channels The red green and blue color channels can be turned on or off for the display of individual domains by using the checkboxe
139. ere representation were to be generated for each trace each trace must have a unique name and be a unique object Box The Box representation is centered at the midpoint of the object s extent in the x y and z directions The sides of the box are parallel to the axes If Size A B or C parameters are positive these values are used to dimension the box in the x y and z directions respectively When the Size parameters are zero or negative the box is sized to the extent of the object Hint The Box object can be used to generate scale bars or cubes for the scene Simply select the Box representation and set the desired Box dimensions with the Size parameters Then select an object defined in the series and add it to the scene The scale Box will be centered on the midpoint of the object extent in 3D If necessary the scale Box can be shifted to a different location in the scene by changing the Shift whole object by parameters see below and re adding the object to the scene Boissonnat Surface A Boissonnat Surface is generated from a 3D Delaunay triangulation of the traces using the algorithm invented by Jean Daniel Boissonnat Boissonnat 1988 In general terms the surface is constructed of triangular surface patches where an edge of each triangle lies on the traced profile The Boissonnat Surface preserves the vertices created during tracing although additional vertices may be added to the final reconstruction The Boissonnat
140. erface NewSeries Program Series Section Domain MIES Object Help List traces Find Ctrl F Select all Chris Palette e Figure 4 7 The Trace Palette item from the Trace menu in the main RECONSTRUCT window The Trace Palette window like the Tools window can be resized and placed arbitrarily on the screen Default trace attributes are selected with a left mouse click Table 4 9 The Tab key can be used to move through the palette buttons The highlighted button can be selected with the Enter key When a palette button is pressed the default trace name of the palette entry is displayed on the title bar TABLE 4 9 Keyboard and Mouse Actions in Trace Palette Window Command Action Tab Move to next palette entry button Enter Select highlighted palette entry Left mouse click Select the palette entry under the pointer Object List Window The Object List window is opened or closed by the List objects item of the Object menu Fig 4 8 Each time the list is regenerated the sections are scanned for traces and these are grouped by name into objects If there are large numbers of traces and sections filling the Object List may be slow Each unique trace name is displayed in the list as an object The list may also display the section range in which the trace name is found a count of the number of component traces that make up the object and the object s surface area and volume Reconstruct v1 1 0 0 30 Ch
141. es choice on the Modify menu allows the attributes including the domain name the source path and the pixel size of the highlighted domain to be edited without selecting the domain from the section A copy of a domain is made by highlighting it in the list and selecting Create then Copy Selecting a Domain A domain in a section can be selected using the Select Domain Image Tool from the Tools window Click on an image in the section with the left mouse and the domain will be selected The boundary of a domain is visible only when it is selected In addition this boundary can be edited only when it is selected see below A selected domain is removed from the section and displayed alone in the front display The back display contains the remaining components of the section So the same techniques for comparing sections can be used to compare a domain to its section or to an adjacent section Use the Blend command from the Section menu spacebar to overlay the domain and the section To flicker between the domain and the rest of the section use the key A domain can also be selected from the Domain List as mentioned above Only one domain can be selected from the section at a time In order to select a different domain the currently selected one must be merged back into the section A selected domain can be permanently deleted from a section by using the Delete key when the domain is displayed or by using the Delete item from the Do
142. es it may be necessary to completely reinitialize the domain transformation returning the domain to the origin just as though it is newly imported This can be accomplished by using the Transform item from the Reinitialize submenu of the Domain menu This option is only available after the domain is selected from the section Repeating Movements An individual movement can be repeated by using the Repeat item Ctrl R from the Movement submenu This allows a movement made on one section to be repeated on other sections in the series Similarly a movement made on one trace or domain can be repeated on other selected traces or domains The movement to be repeated is the last one made by keyboard input or the Type In Movement dialog In addition a movement sequence or an alignment command may also be repeated The entire transformation of a selected element can be applied to another object using Repeat To copy a transformation use Record from selected in the Movement menu This will set the transformation of the selected trace or domain into the buffer that stores the last movement Selecting a new trace or domain and using Repeat will apply the buffered transformation to the selected item Note that new transformation will be a combination of the old one and the buffered one not just the buffered one alone Propagate A repeated movement can also be applied to a range of sections within the series by using the Propagate command from the Movemen
143. es that have a trace point inside the region will be selected When using any other tool depress the central mouse button or wheel to select the nearest trace This allows traces to be selected for deletion or moving without changing back to the Selection Tool For example when cutting traces with the Scalpel Tool one piece can be selected with the middle mouse button and deleted It is not possible to deselect individual traces without using the Selection Tool Deselecting Traces Traces can be deselected one at a time using the Selection Tool right mouse button The selected trace nearest the tip of the arrow cursor is deselected when the right mouse button is pressed To deselect all the selected traces simultaneously use the Deselect All item from the Trace menu Ctrl D Deselect All can be used with any tool Zooming to Selected Traces The set of selected traces can be brought into maximum magnification by using the Zoom To item from the Trace menu This operation is accelerated by the Ctrl Home key sequence Reconstruct v1 1 0 0 90 Chapter 8 Traces Finding Traces A trace in the series can be located by using the Find dialog from the Trace menu When you type a trace name into the dialog and select OK Find will search all the sections from the beginning of the series to find the first occurrence of that trace name and then display the section with the trace selected Selecting the Find command again with the trac
144. es the steps for reconstructing serial sections You will learn the basics of using RECONSTRUCT to import a series of images view and align the sections trace profiles and generate a 3D view of the traces Note Spending an hour skimming through the entire Help Manual could save you many hours of frustration Getting Started The only requirements for getting started are that the RECONSTRUCT application is installed and that a set of image files is available for input To install the software sign in and download the latest version from the Users Group http groups yahoo com group reconstruct_users files Run the downloaded file and a dialog should appear asking you whether you want to install RECONSTRUCT Select Yes and proceed through the installation dialogs until the process is complete To test your installation start RECONSTRUCT and select Open from the Series menu If this is the first time you ve installed and used RECONSTRUCT a series file called example ser should be visible in the Open dialog Open the example series One can find the example series in the installation directory as well normally C Program Files Reconstruct When the series opens you should see some text on the screen Follow these text instructions to get familiar with the basic operations of RECONSTRUCT This chapter only covers a small fraction of RECONSTRUCT functionality To get a better idea of the full functionality review the K
145. esigned for 3D video games and have excellent OpenGL graphics displays appropriate for RECONSTRUCT For example the 32Mb ATI Radeon VE graphics adaptor www ati com was used during code development and gave nice results To render 3D scenes with even better resolution and quality use third party software specifically designed for that purpose such as 3D Studio MAX www discreet com All OpenGL surfaces are generated as collections of triangular surface patches as described in Chapter 11 This allows the surfaces to be quickly rendered and animated using common hardware graphics capabilities It also allows the scene to be saved as a general indexed face set in VRML format for export to many other programs Composing a Scene 3D representations of objects are added and removed from the scene using the Scene menu in the Object List window Chapter 11 Objects The type of 3D representation generated is determined by the parameters set in the 3D tab of the Series Options The positions of objects in the scene can also be modified by using the Shift whole object by parameters Changes made in the 3D Options tab will only be realized after the object is regenerated for the scene Adding Objects Reconstruct v1 1 0 0 141 Chapter 12 The 3D Scene Objects are added to the scene from the Object List window When an object is added to the scene the display parameters of the scene are not modified This allows objects to be added to
146. esirable no matter what filter length is chosen This is because the smoothing operation does not add or subtract points to make the trace smoother It simply shifts the existing trace points to new locations Note that this fact means that the smoothing operation also has the potential for creating loops in the trace It is recommended that the Simplify command be re applied immediately after smoothing Modifying Trace Attributes Every trace has a set of attributes that specify its name color fill style and whether it is closed hidden or simplified Newly created traces are given the current default attributes see below Trace attributes can be modified at any time by selecting the trace s and then opening the Attributes dialog from the Trace menu Fig 8 9 The mouse or keyboard can be used to access the fields of the dialog Use the Tab key to move through the fields For the Fill mode box use the arrows to highlight a mode and the space bar to select If any fields are grayed as shown for the Fill mode items in Fig 8 9 then the current state of these items has mixed values among the selected traces If grayed fields are not changed there will be no change to these attributes of the selected traces Name D1 Border V Hidden IT Simplified kg Closed Fill CC IT Fillwhennotselected Mode IT None V Darken f Solid Lighten Comment Get Default Get Clipboard Apply Cancel Figure 8 9 The Trace Att
147. ete EE EEE AAEE EEEREN eo ENEA NEEESE EFA 144 Filled or Wireframe Fate ses cccssseccececcdsdevadsvedenocetcdanadesdevedsiedeendevedeusdstadenndeends 144 Viewing a SCENE ieena eginki tne orane nisn Eae Ene ia i Koe aue tape rene beniehamneuemies 145 Rotating Panning and ZOOMING a Accncccnnsonandacmmionandaddamademalkies 146 e EE 146 Backgro nd Color EE 147 Saving a EIER eege geegent eege 147 VE EE 147 Ree 148 RRE 148 Trace leie e 148 Eegeregie 148 Boissonnat E 148 E lie 148 EWG SONG EE 148 Eeer 148 Va E E SE 149 E 149 Bitmap EE 149 Reconstruct v1 1 0 0 vil Table of Contents EE 149 360 BtMApS eieiei cae cette cele een ec pecs deo Rv cece ie aaa E eanan iaaa NE 149 Scene et le deresini orainne Va eNA EANA HEENA nA iat EEE ES EERS 149 dr Bibliography KEE 151 d Appendix BE 152 RECONSTRUCT Frequently Asked Ouestlons 152 Generalins aneen a e Reeaaetteetiat 152 ue 152 Moving and Aligning DEE 152 Traces and Trace Editing siessen aeee ener rere eer pete ee toner te 152 WE EEN 153 Objects and The Object List E 153 Surfacing and 3D ERGHE iegegegegegeegegtegeeg dene 153 A LEE 154 IN EE 154 rie 156 Moving and AGMA D 157 Traces and Trace EE 158 Measurements eteeeeekegeg geegee deeg eegene deg deeg gegegee 160 Objects and The Object DISE ogvtzgegegefegee rede Seele Egger ibebsiabcdabedstes 161 Surfacing and 3D Output E 162 Keyboard MEN 166 Reconstruct v1 1 0 0 viii ae Chapter 1 Quick Start This chapter giv
148. exist You must explicitly create them Proxy images are created and deleted for all sections from the Proxies tab of the Series Options Fig 7 8 When the Proxies tab is accessed there may be a pause with the hourglass displayed at the cursor During this pause the program is examining all the domains in the series and determining how many domains have proxy images When the examination is complete the information will be reported in the dialog The use of proxies can be turned off by unchecking the Use proxy images when displaying sections Warning Re Create Proxies may be slow and it cannot be aborted Reconstruct v1 1 0 0 68 Chapter 7 Domain Images Series Options db General Names Colors Grids 3D Lists Movements Proxies Thumbnails AutoTracing Speed up section display at low magnification by creating small image files than serve as substitutes proxies for high resolution images v Use proxy images when displaying sections Threshold size for creating proxies 2048 x 1536 pixels 0 of images bigger than this threshold have proxies Re Create Proxies at fraction 0 25 offull dimensions Delete All Proxies Figure 7 8 The Proxies tab of the Series Options dialog The use of proxy images can be turned on or off by the checkbox The proxy images can also be created or deleted by the buttons Note that creating proxies may be very slow and the program will be disabled until t
149. ey and Mouse commands listings available through the Help menu Then open the Options dialog from the Series menu and review the contents of all the Options tabs This will give you an idea of the features of the program that can be reconfigured to suit your purpose Details about these features can be found in subsequent chapters This manual and a list of frequently asked questions Appendix 1 were updated in 2009 Reconstruct v1 1 0 0 Chapter 1 Quick Start Main Window When RECONSTRUCT is started a main window appears along with the status bar main menu and tools window Fig 1 0 The main window will appear black until a series is opened or sections are imported Ben t fer EE Buttons Roose st est Pregam Seles Sector Domar Tag bject an N Gl Ei B CH WI NJ ONS NI Main Menu di Tools Window Main Window Te Status Bar Figure 7 0 BECONSTRBUCTT H e window layout A main window with a narrow border and a black interior is overlaid with the main menu floating tools window and a status bar A number of keystrokes and mouse actions can be used in the main window see Chapter 4 Table 4 2 These are mostly for navigating between sections in the series and for creating or manipulating section data Mouse actions in the main window may depend on which tool has been selected from the tools windows These actions are discussed in more detail in later chapters However moving the mouse wheel in the
150. ey will then open the Trace List Alternatively the arrow keys can be used to browse through the menus The highlighted menu item can be selected by using the Enter key The menu selection process can be aborted by using the Esc key Some menu items have special keystrokes associated with them that allow them to be rapidly executed without using the menu selection process Table 4 3 For example pressing the S key while holding down the Ctrl key when the main window is active will select all the traces in the section Many of the menu items may be grayed or disabled if they are not currently appropriate For example if no series is open then the menus for manipulating sections domains and traces are not applicable Likewise the domain and trace menus are mostly disabled Reconstruct v1 1 0 0 22 Chapter 4 User Interface when no domain or trace has been selected since most operations apply to selected data elements TABLE 4 3 Keyboard Accelerators for the Main Menu Keystroke Action Space Blend the front and back section images Esc Abandon current menu selection activity Ctrl Move front section By Correlation with back section Ctrl A Edit the attributes of selected traces Ctrl B Paste attributes from clipboard traces to selected traces Ctrl C Copy the selected traces Ctrl D Deselect all the selected traces Ctrl H Hide the selected traces Ctrl L Toggle the movement lock on the section Ctrl M Merge the selected
151. f the previous section Since this operation may be slow the hourglass may appear briefly during the first toggle of sections Subsequent switching will be very fast since both sections will be fully rendered in memory The two memory sections sometimes referred to as the current and previous sections can also be blended together by selecting Blend from the Section menu Once in blend mode all displays will be the blending of the last two sections Thus Page Up or Page Down can be used to sequentially compare pairs of sections in a series by blending Blending can be turned off by selecting the Blend item again or by hitting the spacebar or the key Listing all Sections All the sections in a series can be listed using the Section List window described in Chapter 4 User Interface The Section List window is opened by selecting List from the Reconstruct v1 1 0 0 47 Chapter 6 Sections Section menu The columns and rows displayed in the Section List are determined by the settings in the Lists tab of the Series Options The entire list can be saved to file using the Save command from the List menu at the top of the Section List window To speed up the display of the Section List it is created from the section files in the series folder when the series is opened The list is updated as changes are made within RECONSTRUCT but changes made outside the program such as deleting section files will not be incorporated in the list
152. fferent names The asterisk notation can also be used to modify a set of trace names Any text after the asterisk is appended to all the existing trace names For example suppose traces named d1 d2 and d3 were selected prior to invoking the Attributes dialog The Name box would have an asterisk inside because the names are different Changing the Name box string to spine would change the trace names to dispine d2spine and d3spine Leaving the Name box string as would leave the trace names as d1 d2 and d3 Replacing the asterisk with spine would result in all traces being named spine Border Color The border color is the color of the line segments that are drawn to represent the trace on screen Every trace has a visible border with a color The Border Color button indicates the current color of the selected trace If this button is gray with a diagonal line through it then there is more than one color for the borders of the selected traces The border color can be changed by pressing the Border Color button This opens the Color dialog shown in Fig 8 10 The Color dialog allows a new color to be chosen from the Basic colors Custom colors or created from the color palette Initially the Custom colors are all black These can be modified by using the Add to Custom Colors button The set of custom trace border colors is saved with the series These values can also be modified in the Tracing tab of the Series Opt
153. ficant speed up can be obtained by changing the view and or window size so that only one of the images is visible RECONSTRUCT only loads an image file when it is visible on screen Zooming in until just one image domain fills the main window results in only one image file being read from the drive during section display When a section only contains one image however Zooming in does not improve performance In fact it may slow down the section display because more screen pixels have to be rendered Section images are rendered onto a bitmap that is sized to the main window but only the pixels that contain image data require processing The size of the black background has little effect on the speed of section display To speed up display zoom out to reduce the number of pixels that contain image data on screen This is always effective for sections that contain a single image When sections contain multiple images use proxies to get the speed benefit of zZooming out to low magnification Setting the zoom to Actual Pixels may offer minor improvements over displaying at a higher magnification but the real speed factor is the total number of screen pixels that need to be rendered Keep this as small as possible for speed Although image file storage and the size of the image on the screen are the two main factors influencing the speed of section display a third factor is the complexity of the transformation required to position the image on the sec
154. ficult if not impossible In addition sectioning should be done such that as many objects as possible are cross sectioned with the long axes perpendicular to the sections This ensures that cross sectioned features rather than oblique features will be available for alignment Beware of Ambiguous Alignments Ambiguous alignments arise when multiple interpretations are possible for the profiles of an object Figure 10 4 Aligning whole fields of objects with a single smooth transformation can minimize the distorting consequences of these local ambiguities since the ambiguities of different objects will likely be different and oriented randomly with respect the plane of sectioning Reconstruct v1 1 0 0 119 Chapter 10 Alignments and Movements lf annn wa et M ee nn nnnntT e e e e e mb wc Sean Oo tn ees a So es e Se km gt Figure 10 4 Objects with ambiguous alignments and the resulting distorted reconstructions top A circular cylinder on the left is sectioned obliquely so that on the sections it appears as a sequence of shifted elliptical profiles By mistakenly aligning the elliptical profiles an elliptical cylinder is reconstructed instead of a circular one bottom A conical object on the left appears as circles of increasing diameter on sections If sections are scaled to align these circles then the cylinder on the right would be erroneously reconstructed rather than the original cone Many othe
155. for the operation to do anything You can be sure that two are available if you flicker between them The algorithm determines the translation required to move the front current section or domain to the peak of the cross correlation and immediately applies this shift to the section The entire computation will typically require several seconds but the end result will be a movement of the current section into alignment with the previous section provided the current section is unlocked By correlation only works for pure translational offsets between two sections but it can sometimes be used iteratively with keyboard commands to get more general alignments A protocol for aligning By correlation could be as follows Step 1 Go to a section which will serve as the stationary reference and lock it Ctrl L Then page to the adjacent section that will be aligned to the stationary one Unlock the section if necessary Blend the two sections spacebar Step 2 Align the sections By correlation Ctrl Step 3 Inspect the sections to determine if the alignment is acceptable Use flickering as needed If alignment is acceptable go to step 1 with the current section as the new stationary reference Step 4 Estimate the rotational adjustment that would improve the alignment Blend spacebar and then rotate the section F3 or F4 Go to step 2 By correlation uses only image intensity information visible in the Main Window to co
156. g Ctrl Tab much in the same way as the Alt Tab command is used to switch between active applications on the desktop The window that has the keyboard focus is called the active window An active window usually has a colored title bar while inactive windows often have grayed title bars Reconstruct v1 1 0 0 20 Chapter 4 User Interface TABLE 4 1 Basic Keyboard and Mouse Actions for All Windows Keystroke Action Alt Access the menu of the currently active window Alt Tab Switch between applications Ctrl Tab Switch between floating windows of the application Left Mouse Drag Action on title bar Position the window on border Size the window Main Window When the application is started the RECONSTRUCT main window appears along with two of the sub windows the tools window and the status bar Fig 4 1 The main window consists of a title bar at the top a set of menus beneath the title bar and a rendering area a k a client area for displaying data Title Bar Buttons 2 DEET E Ahnen MN aR RE RRR A raehadh TD j Program Seles Sector Domar Tee Object palo blei eS _ A see OA E EK Mam Menu di Tools Window Main Window Te Status Bar Figure 4 1 BECONSTRBUCTT He initial window layout A main window with a narrow border and a black interior is overlaid with a floating tools window and a status bar At the left end of the title bar is the RECONSTRUCT icon When a series is open the ser
157. g frames The Clipboard trace s grid element does not use the default tracing name or colors Rather the grid elements replicate the clipboard attributes for each grid element Also unlike the other grid types the Clipboard traces are not resized using the Element size parameters The Element size parameters are simply ignored and Clipboard traces are reproduced at their actual sizes Semi Automatic Tracing RECONSTRUCT has a semi automatic tracing tool called Wild Fire _ The Wildfire Tool has a cursor that looks like a match It is not recommended to pity use the Wildfire Tool for most transmission electron microscopy images Traces often go astray due to the complexity of electron microscopy images Wildfire may be helpful if you have other types of images e g fluorescence light microcopy or other thresholded images Please see a full description of this tool at the end of this chapter Reconstruct v1 1 0 0 75 Chapter 8 Traces Z trace as a 3 D Ruler The Z Trace Tool resembles the letter Z on the Tools window Z trace is a 3 D ee ruler and can be used to measure lengths across serial sections The tool is used just like any of the other Point by Point Tracing Tools but each point can be entered on a different section These sections are stored along with the x and y positions of the trace points so that 3D measurements of shapes can be generated from the Z trace data Z traces are not stored or displayed on sections
158. g three options Select the second option to set the correct pixel size for the current section When the Set Pixel Size on All Domains dialog appears set the First Section to the first section of the series and the Last Section to the last section Verify the value in the Set pixel size to box and click the OK button This will set the pixel size of all images in the series to the value determined from the calibration image The pixel size for any image can be verified by using the Domain List while viewing the section in the main window Calibrate Traces Resize selected trace s fe Set pixel size to 0 002691 microns pixel for domain domaint and optionally modify additional domains Scale entire section by 1 000000 Cancel Reconstruct v1 1 0 0 4 Chapter 1 Quick Start Set Pixel Size on All Domains Section Range First 1l Last 16 Set pixel size to 0 002691 microns pixel A This operation cannot be Undone Cancel Figure 1 3 The Calibrate dialogs as filled out for a global calibration of the pixel size of images Top The first dialog requests that a pixel size calibration be done for the image on which the calibration lines were traced Bottom The next dialog allows this same pixel size to be applied to every image in every section of the series Note that after calibration of pixel size the calibration lines are no longer accurately matched to the calibration image on which they
159. ge Up amp Down Move through the list by the number of visible sections Home Move to the first section in the list End Move to the last section in the list Delete Delete the highlighted sections from the series Enter Page to the first highlighted section Ctrl or Shift Highlight multiple sections for Modify operations Left Mouse Click Highlight the section under the pointer Left Mouse Dbl Click Page to the section under the pointer Multiple sections can be selected in the section list by holding the Ctrl or Shift key down while selecting sections in the list with the mouse The highlighted sections can be changed simultaneously using the Modify menu at the top of the Section List window The Modify operations allow highlighted sections to be locked unlocked renumbered deleted or given particular pixel size or thickness attributes Reconstruct v1 1 0 0 25 Chapter 4 User Interface Each list window has a List menu that contains operations on the list itself rather than the data elements in the list The number of items in the list can be displayed by selecting the Info item The Save item allows the list to be saved as a Comma Separated Values csv file This file is an ASCII text file that can be readily imported into spreadsheet programs such as Excel The Save dialog allows the filename and folder for the csv file to be specified The list columns and rows will be saved in the file just as they appear in the window
160. ges numbered 1 2 3 in the leftmost column Denadrite1 bmp is a single image Synapses gif is a GIF stack of 9 images The images will be imported in the order shown into sections 1 through 13 To fill the Import Images list with candidate images use the Select button in the upper left corner of the dialog Highlight one or more images in the Select Files dialog Fig 7 3 Use the Open button to close the dialog and add the candidate images to the list Only files that the program can recognize as readable image files will be added to the list Acceptable image file formats are Windows and OS 2 bitmaps BMP VGA BGA RLE DIB RL4 RL8 except for CCITT G3 MH Fax compressed and 24 bit RLE files CompuServe GIF files GIF JPEG File Interchange Format files JPG JPEG JPE TIFF files CTIE TIFF with 1 4 8 and 24 bits per pixel Truevision Targa Vista bitmaps TGA VST AFI ZSoft PC Paintbrush Image format PCX PCC GEM Raster IMG Portable Greyscale map binary P5 type PGM and Portable Pixel map binary P6 type PPM Reconstruct v1 1 0 0 58 Chapter 7 Domain Images SS sl Look in test D e rr ES H fth _gradient jpg zl _J100CX 1893 proxy E _unaligned 14 H calgrids 1895 Fe ich _gradient proxy jpg BETEZ IS _unaligned 15 calgrids ser A _J100CX 1885 E _J100CX 1894 proxy IS _unaligned 16 tl debugContour b My Recent _J100CX 1885 proxy BOIS IS _unaligned_aligned 2 d dendrite1 bmp Documents Gl _J100
161. ground thread that runs at a lower priority to the main window Thus you can continue working while the thumbnail images are being rendered When the Thumbnails window is closed all of the thumbnail images are deleted from memory and they will need to be recreated the next time the Thumbnails window is reopened Changes to the thumbnail options will only be realized when the Thumbnails window is opened and the thumbnails are recreated Two ways of rendering the thumbnails are selectable Thumbnails can be made to resemble the current view or the section can be centered on the button In the former case the thumbnail images will maintain the existing section to section alignment and can be zoomed into particular parts of the section While in the later case the entire section will be visible in each thumbnail Making the thumbnails resemble the current view is most useful for flipbooks while the other mode can be used for a quick visual reference in the sequential mode Limiting the range of sections for thumbnails or skipping sections can speed up thumbnail generation When traces are displayed on the thumbnails they are drawn using the normal trace attributes for color and filling By choosing the flipbook style thumbnails will be overlaid rather than arrayed sequentially Thus the thumbnail window will be sized to display only one thumbnail button Resizing the window is not possible Selecting which section is visible in the flipbook can be don
162. h as the volume and surface area or counts of the number of component traces of the objects This is accomplished by checking the appropriate boxes in the Lists tab of the Series Reconstruct v1 1 0 0 126 Chapter 11 Objects Options before opening the Object List When the Object List is filled all sections are scanned for traces that are grouped into objects so the list must be refreshed whenever there are changes to the trace data for the measurements to be accurate For details on the volume and surface area calculations see Chapter 9 Calibration and Measurement Modifying Objects The Modify menu at the top of the Object List window provides a convenient set of commands for making changes to ALL of the traces of an object While convenient there is no global undo for these multi section commands Changing Object Attributes Changing attributes of objects changes the attributes of every trace of the object in all sections This change is performed on the currently highlighted objects in the Object List by using the Attributes dialog of the Modify menu Note that color of an object can be temporarily changed in the 3D Scene without modifying the traces This is done by the Color Transparency dialog of the Scene menu Scene color changes are forgotten whenever the object is removed from or added to the scene Scene changes are discussed in detail in Chapter 12 The 3D Scene The Attributes command permanently modifies
163. he Trace List and paging through the sections If the Area column for a trace has a negative value the trace has an orientation that defines it as an inner surface of the object a hole You can fix this by selecting the Trace and applying Reverse from the trace menu If the Area is zero then the trace does not define a closed surface which is also a problem You can also verify this by the icon next to Trace name which will be open instead of closed To fix an open trace select it and use the Attributes dialog to change it to closed Then use Simplify from the Trace menu to set the proper orientation and remove any loops Refresh the Trace List to see the changes Why doesn t Simplify alter my traces See Chapter 8 First you have to mark the trace as unsimplified Select the trace and open the Trace Attributes dialog Uncheck the Simplified flag for the trace and press OK Now the trace can be simplified again by using the Simplify command from the Trace menu You can control the amount of simplification by setting the Simplify on demand resolution in the AutoTracing tab of the Series Options How can I trace donut shapes with the black center region taken into account instead of being ignored See Chapters 8 amp 11 To define an interior boundary of an object you ll need to use a Reverse trace This is done by drawing a normal trace and then using the Reverse item from the Trace menu with the trace selected to reverse it s orientation
164. he front or back surfaces as colored wireframes uncheck the Fill checkboxes in the Change Scene Object dialog Reconstruct v1 1 0 0 144 Chapter 12 The 3D Scene Figure 12 2 The effect of in scene modifications of two objects On the left the scene of an intersecting sphere and cylinder immediately after being added to the scene On the right is the scene after two modifications First the cylinder object was modified to transparency 0 5 and back faces were not filled Where the back faces are visible inside the cylinder they are seen as wireframe Then the sphere was made shiny by increasing the intensity of the specular color Details of the in scene modification options are given below Viewing a Scene The viewing parameters of the scene are modified by using the mouse to rotate pan or zoom or by using the View menu at the top of the 3D Scene window The initial or Reset view position is from a point beyond the last section of the scene looking down toward section 0 In effect looking in the minus z direction For an object oriented perpendicular to the plane of sectioning the Reset view will be looking at the end of the object from the highest section number The Reset view places the box that bounds all of the objects in the scene in the center of the window It may be desirable to Reset the scene when objects are added The center of the scene s bounding box also determines the point around which rotations are performed
165. he image pixel size is a small fractional value e g 0 01 All input and output values are consistently in series units For example if the units are declared to be microns then all values entered for section thickness movement values image pixel size etc should be in microns A section thickness value of 50 nm would be entered as 0 05 microns A deformation would be entered as microns Trace area would be reported in the Trace List window as square microns Similarly the cursor position would be given on the status bar as the x and y position on the section in microns Data Precision Section data is displayed and stored in series units For example trace points are entered as screen pixels and these values are immediately transformed into the corresponding series units on the section The traces are stored in the section file as a sequence of x y points in series units These points are stored as ASCII strings with a fixed number of significant digits The default number of significant digits 6 would allow values between 999 and 999 to be represented at a resolution of 0 001 series units A trace point of more than 6 significant digits would be rounded when it is stored e g 10000 059 to 10000 1 so the significant digits parameter must be large enough to capture the desired precision of the data over the whole range of the series volume The number of significant digits that are displayed and stored can be modified in the G
166. he operation is complete Proxy images can be created by pressing the Re Create Proxies button A proxy image is then created for every domain image in the series for which the domain image dimensions equals or exceeds the threshold dimensions A dimension of the proxy image is the fraction of the domain image dimension as specified in the dialog For a domain image 4000 pixels wide by 2000 pixels high a fraction value of 0 25 would produce a proxy image of 1000x500 pixels so that whenever the domain is displayed at a screen resolution of 1000x500 or smaller the proxy image would be accessed and displayed instead of the full domain image For proxies to speed up section display you must carefully specify the fraction and threshold prior to creating the proxies For example suppose you want to work with the main window sized to full screen 1600x1200 and you want to display quickly the entire section 73220x4840 in the full screen window First calculate the fraction dimensions of the section relative to the full screen Reconstruct v1 1 0 0 69 Chapter 7 Domain Images width fraction Scmeawidth __ 1600 _ 9 9185 section image s width 7322 height fraction ___screenheight 1200 0 2479 The fraction value in the Proxies tab must be set to a value higher than both the width and height fractions in order for proxies to be used at this magnification For the example numbers given a fraction of at least 0 28 is requi
167. he section i e they are in section units see below But be aware that the values in the XML files are subject to the transformations encoded there In other words to get the actual section coordinates in microns you may need to apply a transformation This is done for you along with calculation of the z distance when you export VRML from the 3D Scene or export Lines from the Series Export list For details on the basis of the transformation represented by the xcoef and ycoef attributes see Fiala JC Harris KM 2001 Extending unbiased stereology of brain ultrastructure to three dimensional volumes J Am Med Inform Assoc Jan Feb 8 1 1 16 What is the reference point for the max X and max Y measurements in the Trace lists dialogue Are X and Y with respect to the position of the trace on the domain image or are X and Y coordinates derived with respect to the centroid of individual traces The X and Y coordinates of traces and objects are defined relative to an arbitrary origin around which data are positioned In other words there is a point 0 0 on every section that is defined prior to the addition of any image or trace data By default images are imported such that the lower left corner is at 0 0 but this is entirely optional You can import or move images to any other point in space e g by setting the X Y offset in the import dialog Traces are not drawn or stored in image coordinates since any number of images at different magnif
168. he sections of the series in order of ascending section number The two attributes of each section can be displayed the lock unlock status and the section thickness in series units The columns of the list can be resized by dragging the column borders with the left mouse Reconstruct v1 1 0 0 24 Chapter 4 User Interface s NewSeries Program Series etn Domain Trace Object Help Thumbnails N New Save Thickness Blend Zoom Movement Figure 4 3 The List sections item from the Section menu in the main RECONSTRUCT window When the Section List is open the current section is highlighted A different section can be displayed in the main window by double clicking the new section number in the Section List window The Section List will be closed once a new section is selected The paging operation can also be executed by selecting the Page To menu item at the top of the Section List window in which case the Section List is not closed The Section List window can also be closed by selecting the List sections item from the Section menu in the main window Navigate the Section List with the keyboard Table 4 5 using the up and down arrow keys the Page Up and Page Down keys or the Home and End keys Use Enter to execute the Page To operation for the first highlighted section TABLE 4 5 Keyboard and Mouse Actions in Section List Window Command Action Up A down arrows Move to next previous section in list Pa
169. her traces or palette entries To see what is on the trace clipboard open the Trace Attributes dialog and use the Get Clipboard button This will fill the dialog fields with the values of the first trace on the clipboard revealing the trace name color etc Selecting Traces When a section is first displayed none of the traces are selected When no traces are selected most of the operations in the Trace menu are disabled since the operations are defined on selected traces only To modify or use traces it is necessary to first select them Traces can be selected in several ways One way is to list the traces by selecting List traces from the Trace menu Select one or more traces from the list and then click on the Select item at the top of the Trace List window When traces are selected they are drawn with a dashed border and possibly a colored interior Selecting other traces from the Trace List will first deselect any existing selections To quickly select all the traces on the section use the Select AN item from the Trace menu This operation is accelerated by the Ctrl S key sequence The Selection Tool signified by the arrow pointer can also be used to select traces in the section Place the tip of the arrow near a trace and press the left mouse button to select it Use the right mouse button to deselect it Pressing and holding the left mouse button allows a rectangular region to be delineated When the button is released all trac
170. hidden Now you can edit the copied object without fear of modifying the original Pick up the Scalpel Tool and use the left mouse drag to cut off the piece from the original trace Use the middle mouse button to select the new piece and use Ctrl A to open the Trace Attributes dialog Change the trace name and color While the new trace is selected use Ctrl C to put a copy of it on the trace clipboard Go to the next section cut off the next piece and select it with middle mouse button Press Ctrl B to paste the attributes from the clipboard to the new trace it will change name and color Keep going like this using the Scalpel and Cirl B until you have completely cut the piece from the main object You can verify the result by looking at the new objects in the 3D Scene Is there a way I can superimpose multiple traces in order to obtain a Total Occupied Area of a region of interest imaged over time One approach is to copy the traces into a single section merge them and then obtained measurements from the trace list This will work reliably as long as all the traces overlap non overlapping traces won t merge What are the units and coordinate system for my traces and measurements See Chapter 9 The units are arbitary but assumed to be the same for all input values including the image pixel size s traces and measurements The descriptor for these units is set in the General tab of the Series Options and by default is microns If you prefe
171. hown in the top row In the default mode the slants skews shown in the bottom row are produced All keyboard movements are performed with respect to x and y axes aligned with the main window Movements are initially made relative to the origin of these axes at position 0 0 in series units This movement center can be changed by using the Type In dialog as described below The exception to this is the horizontal flip F1 and the quarter revolution F2 These movements are always made with respect to the center of the image or section being flipped or rotated While there is no vertical flip key command the F2 F2 F1 sequence of two 90 degree rotations followed by a horizontal flip yields a vertical flip Likewise F2 F2 will produce a 180 degree rotation and F2 F2 F2 will produce a counterclockwise 90 degree rotation These movements can also be produced directly using the Movement submenu of the Section menu Slants L Movement Type In Dialog The dialog invoked by selecting Type In from the Section Movement submenu can be used to specify a movement of selected traces or domains or of the entire section As with keyboard movements the entire section is only moved when it is unlocked AND nothing is selected in the section The Type In Movement dialog allows input of an incremental rotation translation scale skew and or deformation that will be executed when the OK button is selected This movement is made in the section coordina
172. ht in pixels of the output files is given in the Export Images dialog Fig 6 5 When the option to Make images resemble current view is selected the pixel size width and height is set to that of the main window and the offset is set to the current view offset Thus each section will be made to appear as it does in the main window For all other pixel sizes the width height and offset is set to fully contain all domains in all sections at the selected resolution The file format of the images can be selected to be either an uncompressed 24 bit Windows Bitmap or a compressed JPEG image file The Quality factor determines how much compression is applied to the JPEG output A value of 100 has the least compression and the best preservation of the image data while a value 1 has maximum compression at the expense of image quality A value of 80 is usually appropriate for compression while maintaining most of the image quality Reconstruct v1 1 0 0 54 Chapter 6 Sections Each image filename is given a leading underscore followed by the string entered in the Series Name box followed by a numerical extension indicating the section number followed by the file type To allow verification of the rendered images using RECONSTRUCT new section files are created along with the image files A new series file is also created with the name entered in the Series Name box All the files are created in the same folder as the original series Th
173. iangular face is centered on each trace of the object Each triangle lies at the z distance of the section and is centered at the midpoint of the trace extent in the x and y directions within the section The width and height of each triangular face is equal to the width and height of the corresponding trace provided the Size A and B parameters are zero or negative If Size A is positive the width of each triangular face is set to Size A If Size B is positive the height of each triangular face is set to Size B The representation is a single indexed face set object with each disjoint face centered on each trace This can be used to represent trace positions in 3D But more important the object can be used as a distribution object when exported to 3D rendering software like 3D Studio MAX 3D Studio MAX allows an arbitrary 3D shape to be centered on each face One application of Trace Midpoints would be to place a small sphere at each trace If each trace was used to identify the location of a cell or vesicle say the sphere distribution would visualize the cells or vesicles in 3D There are two reasons to use the Trace Midpoints distribution method rather using Sphere representations directly First Trace Midpoints representations are much smaller an important consideration when dealing with hundreds of spheres Secondly a single object name can be used for all Reconstruct v1 1 0 0 132 Chapter 11 Objects spheres whereas if a Sph
174. ications can be placed in the section Rather traces are drawn and stored in section coordinates relative to the 0 0 origin around which the images are placed The Extent min and max values in the Trace List are also given relative to this origin in whatever units that were defined for the series and the values delineate the extent of the trace relative to the X Y axes of the series If the images are not rotated after importing them then the X Y axes are aligned with the horizontal and vertical dimensions of the original images Measurements How do I measure size diameter distance See Chapter 9 RECONSTRUCT has at least 4 ways to make distance measurements Use the line or open point by point tools within a section and then list the length in the Trace List Use the z trace tool within or across sections and then list the length in the Z trace list While using any of these tools look at the status bar to read off the distance Create 2 or more objects that define the end points of the distance and then use the Distances list with limits Of course the trick is to determine where to make the diameter measurement especially if your dendrite is not cross sectioned You can check the orientation of a z trace measurement relative to the dendrite using the 3D scene window and transparency Alternatively if your dendrites are obliquely sectioned you may be able to create a central axis object by stamping small point traces at the cente
175. ies name is displayed in the title bar along with the current section number On the right end of the title bar are the usual minimize maximize and close buttons Selecting the minimize button by clicking the left mouse button when the pointer is over the button hides the window The hidden window can be reopened by selecting it on the task bar or by using Alt Tab pressing the Tab key while holding the Alt key down Alt Tab can also be used to rapidly switch between RECONSTRUCT and other applications running on the desktop The maximize button resizes the main window to fill the screen The main window cannot be manually resized when it is maximized Unmaximize the window by the selecting the maximize button again A number of keystrokes and mouse actions can be used in the main window Table 4 2 These are mostly for navigating between sections in the series and creating or manipulating section data Mouse actions in the main window may depend on which tool has been selected from the tools windows These actions are discussed in more detail in Reconstruct v1 1 0 0 21 Chapter 4 User Interface later chapters However moving the mouse wheel in the main window always has the same effect as Page Up and Page Down Keystroke Page Up Page Down Backspace Esc 0 1 9 Cirl 0 ctrl 1 ctrl 9 F1 F12 keys Arrow keys Mouse input Main Menu TABLE 4 2 Keyboard and Mouse Actions in the Main Windows Action Displ
176. ike the Stamp Tool which draws in pixels When the Element size parameters are zero or negative the stamp shape is drawn in pixels just as with the Stamp Tool A group of traces can be used as the grid element by using the Clipboard trace s option When this option is selected in the Grids tab the Grid Tool copies the contents of the Traces Clipboard to the grid The group of traces is centered at the cursor using the midpoint of the x and y extent of the set of clipboard traces The group is then repeated Reconstruct v1 1 0 0 74 Chapter 8 Traces at each point specified by the Distance and Number parameters By selecting the grid Number to be 1 only 1 copy of the clipboard traces will be produced and the Grid Tool acts like a Stamp Tool for multiple traces Grid elements created with the Grid Tool are given the name and color attributes of the default tracing parameters Each grid element is given the default trace name allowing for interpretation of any special characters Thus using the default name grid will result in elements being named grid1 grid2 grid3 and so on The sampling frame element is given a fixed color pattern Fig 8 3 where exclusion lines are colored red and inclusion lines are colored green Ea A C D al Figure 8 3 Some types of predefined grids A A 2x2 grid of rectangles B A 2x2 grid of cross points C A 2x4 grid of cycloids D A 2x2 grid of samplin
177. ill be swapped the lowest numbered section with the highest section then the second lowest with the second highest and so on Warning There is no Undo for any of the section renumbering commands NewSeries 1 NewSeries 1 ction Domain Trace elp T ARN IRTE Sections E Page To List Modify y GG Section Thickness a enmt ia 0 05 Color Contrast 4 0 05 e d SC 0 05 Shift 2 i d 7 A w4 d Renumber Sections Ee Shift section numbers by K o Si A This operation cannot be Undone a E e Page To List Modify thickness Se La e A sx Figure 6 2 Dialogs for modifying section numbering from the Modify menu of the Section List left to right All the sections which are highlighted in the list at the time the dialog is invoked will be changed and this change cannot be altered with an Undo command Reconstruct v1 1 0 0 49 Chapter 6 Sections Deleting Sections Sections can be deleted from the series using the Section List Highlight the sections in the list to be deleted and select the Delete item from the Modify menu or use the Delete key This will delete the section files permanently from the series Fig 6 3 Warning There is no Undo for Delete Sections Section files refer to image data that is stored in separate image files To delete these image files along with the section files set the checkbox in the Delete Sections dialog Delete Sections AN The sections will
178. ill be used are defined in the Grids tab of the Series Options Grid trace attributes are generated using the default settings in the Names Colors tab Trace Substitutions Because the grid trace options are so general the Grid at Z trace points command can be used to perform trace substitutions as follows Suppose you have drawn a set of traces using circular shapes with the Stamp Tool but you later decide that you want these traces to all be star shaped instead First draw the desired star shape and put it on the trace clipboard Ctrl X Then in the Grids tab of the Series Options select Clipboard traces for the element type Make sure the element number is set to X 1 and Y 1 so only one copy will be generated Next open the object list select the names of all the traces that will be substituted assuming each trace is uniquely named and use the Create Z trace at midpoints command to generate z traces that define the location of each trace Then open the z trace list and select those newly created z traces Create a Grid at Z trace points and the clipboard trace will be centered on every original trace All that remains is to delete the original traces and the z traces leaving the new shapes in place of the old ones Copyright 2006 by John C Fiala Revised by K Harris and K Sorra 2009 Reconstruct v1 1 0 0 140 ae Chapter 12 The 3D Scene The 3D Scene window displays the 3D representations of objects generated from the Ob
179. implify operation will generally report Nothing to simplify To enable further simplification on an already simplified trace use the Trace Attributes dialog to first uncheck the Simplified attribute Simplify applies a simplification process similar to that normally used when completing a drawing operation see the Simplified attribute section below The trace is re pixelized and then reduced to a set of line segments that match this path If the trace is closed all loops are removed and the trace is reoriented to a clockwise direction The resolution of the re pixelized line segments is determined by the resolution parameter for Simplify on demand in the AutoTracing tab of the Series Options window Fig 8 8 Simplify uses the resolution set in the Series Options menu and Autotracing tab Fig 8 8 while simplification during drawing is done relative to the current screen pixel size If the resolution parameter is negative or zero then a resolution equal to 1 of the largest extent of the trace in the x or y direction is used Reconstruct v1 1 0 0 82 Chapter 8 Traces scree Options EE General Names Colors Grids 3D Lists Movements Proxies Thumbnails AutoTracing Autotracing includes generation of traces using the Wildfire taal as well as simplification and smoothing of traces Jv Automatically simplify new closed traces after drawing Simplify on demand to a resalutian of 0 002691 microns Shrink b
180. ine outer boundaries sssssseeeeseseseesrrrrrrneeeee 134 Use counterclockwise traces to define holes AAA 134 Trace without loops or self interSeCtions cceeceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeees 134 Do not intersect traces of the obiect 135 ACOS Domain Error eegen gete eeegegeegegegeged degen 135 NNO eege ee 135 Ellipsoid WEE 135 Reconstruct v1 1 0 0 vi Table of Contents lei 136 3D SNE 136 Shit whole object EE eene kee enee eege 136 ANG SECHONS OY EE 136 NIONA AKE et cat etc E EEE ET ATTE E EAE ETAETA 137 ele 138 Eege 138 Boissonnat SUMACES EE 138 Z race EE 138 Modifying Er e 139 Ee E 139 Smoother Versions sscsei sits cetitandirdinizaaintbacdlesta shure adic aibiatbadajdielaaideadalddeaiiainitalavabataidigaahudaltsendi 139 Grd at Z tr ce POINIS escrire iiaee i a a E E EEE EEEa 140 Trace HME ee Een 140 amp Chapter 12 The 3D SCENE nnn 141 OpenGL Rendering EE 141 GOMPOSING EE 141 paolo eis Kee 141 Removing OIG GTS i ctioiecvsisssuntbovtneetiainabcntmechbletuasesacionutbentuassusesuacsioetmarsuamadint 142 Changing Object Appeatrane eege EENSEEVAERSRENEEEEOEEREdEENNEREEEEEEECHEENSEEEEEENEEEEEELEn 142 Diffuse Color eege a eelere eaa 143 Emissiya COON mcin aniria ed dedana ianiai ndi riada ii 143 Ambient Intensity E 143 Transparency otek fee acest deg souet ce caste tesactetcuccotelouesctaedasacue2 cavectatduxsguelocespichdansctstes 144 Spec lar ENEE lee 144 Se MINN Se etc teed see eet ec ae vei r
181. ing files from CD or DVD optical drives external hard drives or network drives The speed of the drive will mostly determine how fast the image data can be loaded into memory Smaller image files can generally be loaded into memory faster than large image files but keep in mind that any data compression e g JPEG will have to be decompressed before display so there is increased processing overhead for compressed versus uncompressed image files The relative speed of the processor memory versus the speed of the hard drive will determine whether compressed file formats offer any speed improvements over uncompressed formats Reconstruct v1 1 0 0 156 Appendix 1 When image files contain high resolution data RECONSTRUCT has a built in mechanism for taking advantage of the reduced resolution requirements of displaying the image on a lower resolution computer screen By loading low resolution proxy image files instead of the full resolution images the section can be more quickly displayed at low resolution Proxy images are created from the Proxies tab of the Series Options See the program Users Manual for more details about creating and using proxy images The main point is that it is possible to speed up the display of sections by creating reduced resolution proxy images If the full resolution images have lower resolution than the screen 1 megapixels proxy images are probably not needed If each section contains multiple images a signi
182. ing grid types a left mouse button press places the center of the first grid element Additional grid elements are added to the left x direction and below y direction the first element l7 series Options Ai Movements Proxies Thumbnails AutoTracing General Names Colors Grids 3D Lists Specify shape to use as grid element along with element size separation distance and quantity r Elementtype fe Rectangle C Cross C Ellipse C Cycloid C Samplingframe Stampshape Clipboard traces microns Element size x H 1 Distance x 1 E 1 microns 2 2 Number x on Figure 8 2 The Grids tab of the Series Options dialog The Element type determines the shape to be drawn as shown in Fig 8 3 The shape is sized in the x and y directions according to the Element size boxes Shapes are repeated Number times and at Distance intervals The settings are used only when OK is selected at the bottom of the tab Arbitrary grid elements can be defined using one of the two remaining element types Stamp shape or Clipboard trace When the stamp shape type is selected the Grid Tool centers the current stamp shape at the grid positions The stamp shape can be selected from the Trace Palette or by using the Stamp Tool to pickup a trace from the section The stamp shape is scaled to the Element size parameters in the Grids tab This allows the Grid Tool to be used to stamp shapes with a fixed size unl
183. ing the Redo command from the Section menu Once additional changes are made the Redo option is no longer available and the Redo item will be disabled Redo can also be used to res tore the previous state after a Reset operation Thumbnails Thumbnail representations of the sections are displayed in the Thumbnails window as described briefly in Chapter 4 User Interface Two modes of display are possible Thumbnail buttons can be displayed in a sequential array in which many sections are Reconstruct v1 1 0 0 50 Chapter 6 Sections visible simultaneously Alternatively the thumbnails can be overlaid on top of each other in a flipbook arrangement This mode of display and other parameters of the thumbnails are set in the Thumbnails tab of the Series Options dialog Fig 6 4 lt Series Options ead General Names Colors Grids 3D Lists Movements Proxies Thumbnails AutoTracing Thumbnails are small versions of the sections displayed in a separate window for quick access Thumbnail size 512 x 512 pixels WARNING Large thumbnails deplete memory resources fe Make thumbnails resemble current view C Fitwhole section to each thumbnail First Section 1 Last Section 16 Display every 1 th section v Display traces on thumbnails V Overlay thumbnails to make flipbook Shuttle rate 5 Hz o Figure 6 4 The Thumbnails tab of the Series Options dialog These options allow the thumbnail
184. ing the Thickness item from the Modify menu of the Section List Fig 6 1 Warning There is no Undo for Modify gt Thickness from the Section List Setthickness in microns to 0 067 AN This operation cannot be Undone Cancel Figure 6 1 Dialog for modifying section thickness from the Modify menu of the Section List All the sections which are highlighted in the list at the time the dialog is invoked will be changed and this change cannot be globally recovered with an Undo command Reconstruct v1 1 0 0 48 Chapter 6 Sections Section Numbering Sections can be renumbered using the Shift Numbering command from the Modify menu of the Section List This dialog allows a shift to be applied to the section numbers of all sections highlighted in the list The example illustrated in Figure 6 2 is an increase in section number The integer value entered e g 1 is added to each section number Thus a positive value shifts the section numbers up and a negative value shifts the sections numbers down Only constant shifts of section numbers are performed and existing sections cannot be overwritten When a section would overwrite another section renumbering is terminated The order of a group of sections can be reversed using the Reverse Order command from the Modify menu of the Section List Highlight the sections to be reversed in the Section List and then select the command The data in the highlighted sections w
185. ion 45 A plus sign in a trace name results in the immediately preceding integer being incremented The number is incremented every time a new trace is drawn For example the default name string vesicle would result in vesicle1 for the first trace vesicle2 for the second trace and so on Multiple plus signs can be used but plus signs occurring together will be reduced to a single one Initialize the increment at a particular value by preceding the plus sign with an integer For example the default name string my24 th_vesicle would result in my25th_vesicle for the next trace created my26th_vesicle for the next and so on When the dollar and plus signs are used together incrementing is restricted to individual sections Each new trace created is given a number higher than all the other traces in the section that have the same leading characters Unlike the previous special characters the section is searched for similar trace names every time a trace is created So while a plus sign can generate duplicate trace names within a section dollar plus names tend to be unique For example a default name string vesicle will generate vesicle1 vesicle2 vesicle3 on section 45 and then on section 101 will generate vesicle1 vesicle2 Returning to section 45 would then generate vesicle4 vesicle5 and so on The Trace List Traces can also be selected by name using the Trace List The Trace List window is opened by s
186. ion for which both z traces have a point defined the differences in the x and y directions between the two points are computed to determine the shift within that section applied to the 3D representation Z trace shifts are only applied to Traces Trace Slabs Trace Midpoints and Boissonnat Surface representations In combination with the smoothing of z traces z trace shifts can be used to smooth the misalignments between sections using a three step process First create a z trace that follows the misaligned path of the object across sections This z trace should consist of one point entered on each and every section of the object You may be able to generate the z trace automatically using the Z trace at midpoints command from the Object List menu but the z trace so created would only be appropriate for an object with a fairly regular convex profile A more general method for creating the z trace is to manually enter it by following the center or edge of the main structure through the series After creating a z trace that follows the jagged object misalignment smooth the z trace using the Smoother version command from the Z trace List menu The difference between these two z traces the smoothed one and the original jagged one defines the section by section offsets necessary to smooth the object reconstruction so select the smoothed z trace as lt this z trace gt and the original jagged z trace as lt minus this gt Click OK and simply add the
187. ions dialog Color Basic colors Pel WEE WI FP WPP es E ee E Ga LEE EE eee ee n tt i WI Custom colors aa oa ane Hue 220 Red 255 Sat 240 Green 0 Define Custom Colors gt ColorlSolid Lem fi 20 Blue fi 27 Cancel Add to Custom Colors Figure 8 10 The Color dialog This dialog is used for setting trace border and fill colors Colors added to the Custom colors will be saved with the series Reconstruct v1 1 0 0 86 Chapter 8 Traces Fill Color The second color button in the Attributes dialog shows the current fill color if one consistent color is defined among all traces Clicking on the button will open the Color dialog with a separate set of Custom colors for fill colors These values are also saved with the series and can be set as well in the Tracing tab of the Series Options Fill color defines the shading for the interior of a closed trace An open trace is not filled The fill color can be any red green blue combination but the appearance of the fill is affect by both the choice of color and the fill mode Fill Style The style of filling can be modified with the checkboxes in the dialog A closed trace can be either filled when it is selected when it is not selected or not filled at all An open trace is never filled Normally the interior of traces are filled when the trace is selected and unfilled when the traces are not selected To turn off the filling
188. ions in a series use the Numbering item from the Modify menu of the Section List First highlight the sections you want to move in the list then open the Numbering dialog and enter the amount to shift the section numbers You may need to shift parts of your series to create a number gap into which you can move the sections Creating a Section A new section can be created by selecting the New item from the Section menu Sections can also be created by importing sections images or lines into multiple sections using the dialogs from the Series Import menu The New Section dialog asks for the number of the new section The default value is the new sequential number after the index of the current section After a number is entered and the OK button pressed a section file with default attributes is created with that index If a section with the index already exists no new section is created and an error message is displayed After creating the new section the main window switches to display it Initially the new section contains no data A section without images or traces displays as black Data can be added to the section by importing domain images Chapter 7 Domain Images and by drawing traces Chapter 8 Traces The new section is given the default section thickness defined in the Series Options General tab Saving a Section Reconstruct v1 1 0 0 45 Chapter 6 Sections By default section data is automatically saved to the
189. ions of cylinders and ellipsoids can be obtained by looking at the comments in an exported VRML file for the object Chapter 12 The 3D Scene Sphere The Sphere is centered at the midpoint of the object extent in the x y and z directions The diameter of the Sphere is set to the maximum extent in x y or z In effect the Sphere is sized to the maximum dimension of the object When the object is a single trace on a single section this representation gives a reasonable point representation of the trace Alternatively a Sphere object can be given an explicit diameter by entering a positive value in the Size A box of the Options tab 3D Parameters In addition to the type of representation and the section range several other parameters can be used to adjust the object s 3D representation Fig 11 2 Not all parameters are applicable to every type of reconstruction Shift whole object by These parameters define an offset in the x y and z directions to be applied to the 3D representation These parameters let you position any type of 3D representation anywhere in the scene but they should be used carefully In particular set the parameters to zero when done shifting objects so that future reconstructions from the series will not be mistakenly shifted and sections by This option allows different shifts to be applied at each section The section to section shifts are represented by the distance between two z traces At each sect
190. ject List The window can be opened or closed by selecting 3D Scene from the Object menu The 3D Scene window will be automatically opened whenever an object is added to the scene from the Object List The 3D Scene window can be resized and positioned arbitrarily on the desktop but it cannot be minimized or moved behind the main window To hide the scene temporarily close the 3D Scene window This can be done by selecting Hide from the 3D Scene window s Scene menu or clicking on the X box on the right side of the window s title bar Closing the 3D Scene window does not erase the scene Reopening the window will show the same scene although the viewing angle will be reset to the default position OpenGL Rendering The 3D Scene is rendered using OpenGL www opengl org The OpenGL libraries provide a software interface to the computer s graphics hardware These libraries must be properly installed on the computer to open and view the 3D Scene OpenGL is shipped standard with every Windows 95 98 2000 NT XP Vista computer and should work with RECONSTRUCT without any configuration However if opening the 3D Scene generates an error or crashes the program a likely culprit is the OpenGL hardware interface An updated video driver might be available to fix the problem The speed and quality of the 3D Scene rendering is a result of the OpenGL implementation of the graphics hardware a k a the video display adaptor Most Windows computers are d
191. l of calibration If no image data is entered or calibrated the initial screen resolution is assumed to represent a pixel size of 0 00254 in the default series units microns Note that the final size of an image pixel in a section is determined by a combination of the pixel size and the transformation that maps the image to the section Chapter 10 If this transformation contains scaling the pixel size parameter will be different than the actual pixel size in series units For this reason it is possible to calibrate the image by a combination of transformation scaling and pixel size but the preferred mode will be a fully calibrated pixel size Reconstruct v1 1 0 0 95 Chapter 9 Calibration and Measurement Calibration Grids and Scale Bars The pixel size can be accurately determined from calibration images These can be scales or grids of a known physical size that were imaged at the same magnification and digitized at the same settings as the serial sections With some imaging systems a scale bar is imprinted on the section data Fig 9 1 RECONSTRUCT is flexible enough to allow the use of this scale bar data but in most instances a calibration grid image is preferred EI Cp L wt 2 sad ado 2 aale PPS Er TFF K KL E E ede a re ad Gr Grp G ad td ZER Per fL yp Figure 9 1 Image of calibration grid An electron micrograph of a diffraction grating replica with a known line spacing of 0 463
192. last for only a second but during this time region growing cannot be aborted by the Esc key The drawing of a firebreak with the right mouse button can be aborted by hitting Esc before releasing the button Wildfire Editing After a Wildfire trace is generated examine the border for indentations with wide mouths greater than about 1 of the total width of the object Pick up the Pencil Tool and draw across these gaps then hit Ctrl M to merge the closed traces with the Wildfire trace This will close the big gaps To get rid of any remaining small gaps use Cirl A to open the Attributes dialog and uncheck the Simplified flag Click the Apply button and then select Simplify from the Trace menu This will trace around the entire boundary of the Wildfire trace close the small gaps and produce a simplified final trace Propagating Wildfires to Adjacent Sections Wildfires can be automatically propagated to adjacent sections using the F or B keys on the keyboard The F key propagates any recent wildfires forward to higher sections while the B key propagates any recent wildfire backward to sections with a lower index Once initiated automatic tracing of wildfires will continue section by section to the end of the series unless the user terminates the process Ctrl T or the wildfire algorithm fails to generate a new region Note When the Wildfire Tool is in hand any selected traces will be propagated to adjacent sections when the F or B key is
193. last one can be fixed by locating the offending traces and eliminating or redrawing them see below Reconstruct v1 1 0 0 162 Appendix 1 Can fix surface irregularities with Simplify See Chapters 8 amp 11 The mistakes in your 3D surface might be caused by several things 1 small loops in your traces 2 overlapping or duplicated traces of the same name 3 a trace is Reversed counterclockwise or 4 a failure of the 3D surfacing algorithm If you traced with Auto simplify off then 1 or 3 is the most likely culprit These can be fixed with Simplify see below If 2 is the problem Simplify won t help you In regards to 4 the surface generated by the algorithm occasionally has mistakes that can t be traced to 1 2 or 3 but sometimes a change in the trace can produce a different result and fix the problem so Simplify might help In tracking down a small surface defect use the section range values in the 3D tab of the Series Options to progressively reduce the range of sections until just a 2 sections are involved Then go to those sections and examine the Trace List with the Area column turned on If any traces have a negative area or are inappropriately duplicated fix them You can also examine your trace at high zoom to check for loops or intersections with traces of the same name Note that it might be the case that 2 traces come too close together rather than touching You can try redrawing these parts of the trace
194. le Pixel map binary P6 type PPM Convert image files as needed into a format that RECONSTRUCT will recognize ImageJ or Adobe Photoshop can be useful tools for adjusting image file formats For most formats it is required that the image filename extension reflect the file format used For example a portable pixel map file could be named myimage ppm but not myimage junk Exceptions to this rule are the common formats Windows Bitmap JPEG TIFF and GIF Filenames for these formats are arbitrary because the program can identify the file format from header information in the file DXF Imports Line drawing information can be imported into a series using the ASCII Drawing Interchange File DXF format www autodesk com This DXF file is a sequence of code value pairs in text format where each integer code appears on a separate line followed by the value string on the next line RECONSTRUCT scans the file for zero codes signifying new entities Only LINE POLYLINE VERTEX CIRCLE and SOLID entities are recognized Each such entity found creates a corresponding trace on the section The trace name reflects the entity type and the color code 62 value of the entity Entities with Reconstruct v1 1 0 0 16 Chapter 3 Software Overview different colors in the DXF file will be given different names while entities of the same type and color will have the same name DXF Exports Trace data can also be exported using the ASCII D
195. lee 33 Exiting or ADOMING EE 33 dr Chapter e 35 Greating ho SING ssa acc va ps hep chp vee da bet pee vay eee yeaa hy eee ane Na iene 35 Opening and Closing EE 35 SV MN SSS ois cs Ste ness tsar inie in enia a ei eiee iaiia aeia 35 GeeS OPIO S e a a a ita eure a Aa E 36 General E 36 Dee EE eet eege eege eebe 37 LE Le Fs Sen ee on ner ee nee eee eee er em E ee eee 37 TR d 38 EE 38 Wildcards and Displaying a List ccciccccisscccteceteneweneuaresenenenewerenenetscctenecereneneherenes 39 e E GE 39 get 39 ga Bir ler A0 PATTON AC UNG EE 40 Exporting and Importing Mine EE 43 Exporting Trace EE 43 Exporting Traces as Line Dr awings 43 Importing Line e Si ce2noxcaccrecnicimatnastuornccanmanuatnannntnacuenndeamdmnocna tetas 43 Importing Series Data ENNEN 43 dr Chapter EE ME 45 Section INOS HUN DEE 45 Creating A le BEE 45 EENEG 45 HEES 46 LS ne E 46 Zooming and Panning EE 46 Reconstruct v1 1 0 0 it Table of Contents Paging SOCIO LE 47 Blending and Flickering Sections tere eeeeeeeeeeeeeeeeeeeeneee 47 iere HEET 47 Gent end 48 Movement LOCK E 48 THICKNESS Maramaa Pe a ce ee a 48 Section Numbering E 49 Delhi EENEG 50 MOS INO SACK oon a E S A ASER 50 a Ell ei EE 50 Exporting Section Images apis ects cihcpiceesric hs eiee Mies ceinerie apie ceteaiecetea mec 52 ae Chapter 7 Domain Images 57 Creating a Domain E 57 Importing Multiple Images ceeeeeeeeeeeeeeeee cece eee eeeeeeeaeeeeeeeeeeeeeeeeeeeeeeeeeeeeee
196. lignment operation The selected traces and the rest of the section will be immediately repositioned If the message Alignment needs more traces is displayed you may need to enter more traces on each section to have a sufficient basis for alignment Evaluating Alignments As discussed in Chapter 6 Sections the alignment between two sections can be compared using either blending or flickering Blending overlays the two sections Fig 10 2 while flickering rapidly switches between the two sections Blend the sections just aligned using the spacebar To flicker hold the key down Figure 10 1 Blending of unaligned left and aligned right sections Misalignments produce a blurry image on the left while the blending of aligned images results in sharp clear features where they are in cross section right While either blending or flickering alone can be used to evaluate the alignment a combination of the two methods is advantageous With blending it is relatively easy to tell when there is good alignment Many of the cross sectioned features edges come into sharp focus while misaligned features are blurry However with blending it is often difficult to tell the direction of misalignment Flickering between sections generates apparent motion of misaligned features that quickly indicates the direction and magnitude of the offsets Some misalignment between features is to be expected even when the sections are correctly aligned since n
197. lse D all 2 blt e if bl gt all c bl za Il otherwise Finally if fis between zero and e D may be obtained from c if b0 lt 0 if g lt 0 then D a00 2 b0 c if bO0 gt a00 c b0 a00 otherwise all 2 bl c if a01 lt b0 else if g 2e then D h if a 01 b0 gt a00 lall 2 bl c a0l b0 a00 otherwise In the final case where g is also between 0 and e the segments probably intersect but to make sure the full distance is calculated and the magnitude checked de R P f die die R P f d0 g dl e e H D x y If this value is very small lt 10 then Dis explicitly set to zero So some objects that touch may have small non zero distances but objects that don t touch will never accidently be given a distance of zero The minimum squared x y distance Min D between two traces is determined by repeating the above calculation for every pair of segments in the two traces The actual 3D Distance between the traces is then computed by z ZDistance T ZDistance T Distance T Ta 4 Min D z Reconstruct v1 1 0 0 111 Chapter 9 Calibration and Measurement where the z distance of the section of each trace is computed as described above Thus inter object distances will be dependent on the method of z distance calculation only when the section thickness is not uniform throughout the series Copyright 2006 by John C Fiala Revised by K Harris and K Sorra 2009
198. main menu when the domain is selected Domain Boundary The domain boundary is a trace that defines what part of the image will be displayed The initial default boundary is a rectangle surrounding the entire image To change the domain boundary first select the domain from the section Then select a drawing tool that creates a closed boundary such as the Freehand Pencil or the Point by Point Tool Define the default trace attributes to use for the boundary trace including the name that will be given to the domain Draw the new boundary on the domain image When the boundary is completed the domain image will be repainted with only the portion interior to the boundary displayed To return to the original domain boundary select Boundary from the Reinitialize submenu of the Domain menu A domain boundary can also be created from an existing trace by pasting the trace from the trace clipboard onto the selected domain Place the trace on the trace clipboard before selecting the domain by selecting the trace and copying it Ctrl C Reconstruct v1 1 0 0 61 Chapter 7 Domain Images Domain Attributes When a domain is selected edit its attributes by selecting Attributes from the Domain menu at the top of the main window Fig 7 5 These attributes can also be changed without selecting the domain by using the Attributes item from the Modify menu at the top of the Domain List window Domain Attributes Name Source _unalign
199. manently alter the attributes of the trace and the changes are immediately reflected in the 3D Scene window if it is open Generating Z traces The Create menu at the top of the Z trace List window provides commands for creating new objects or z traces from existing z traces Z traces may be copied and smoothed and grid traces may be placed on the sections along the points of the z trace Smoother Versions Z trace smoothing uses a moving average filter on the x y positions without adjusting the positions in the direction perpendicular to the sections That is z trace points remain on the sections in which they were originally drawn but are shifted in the plane of the sections to bring them closer to adjacent z trace points The number of adjacent points that influence the position is determined by a filter length parameter requested when the command is executed This filter length is independent of the filter length parameter in the Series Options Autotracing tab but it works the same way See discussion of smoothing in Chapter 8 Traces Reconstruct v1 1 0 0 139 Chapter 11 Objects Grid at Z trace Points The command for creating a Grid at Z trace points places a copy of the current grid traces at each and every point of the highlighted z traces This command can be used to place a frame or circle around an object by first using the Z trace at midpoints command in the object list to generate a z trace The Grid traces that w
200. microns The scale bar at the left below the arrow was generated by the instrument at a nominal length of 1 micron Calibration images can be stored anywhere within the series in a few sections at the end of the data section or in some empty corner of the data sections themselves By tradition a single calibration grid for the series is placed in an empty section at the start of the series in section 0 Section 0 is a special section that is not used to define objects or compute the z distance The thickness of section 0 is therefore arbitrary A section 0 can be created using New from the Section menu and entering 0 for the section number In section 0 use New from the Domain menu to import the calibration grid image The calibration grid can be imported with any pixel size as this will later be changed to the correct value Calibrating Traces The process of calibration in RECONSTRUCT involves drawing traces of known length and then entering that length value using the Calibrate operation from the Trace menu If multiple traces are selected Calibrate will ask for the length of each trace by name and compute the average scale factor or pixel size for these values Drawing Calibration Traces The easiest traces to create with a known length are usually line traces but other types of traces can be used First set the default drawing parameters using the Names Colors tab of the Series Options When drawing multiple calibration
201. mined when the data was entered as was the section index of the point When the Z Trace List is filled these section values are converted to z distances z Note that z trace lengths may be affected by the method of z distance calculation when section thickness is not uniform see above Distances List Computation Three dimensional distances between objects are listed in the Distances List window Be sure to use the limit strings in the Lists Tab of the Series Options to limit the number of distance computations because the operation will be slow when the distances from every object to every other object are included All distances are computed when the Distances List window is filled You can monitor the progress of the computations by looking at the first line of the list This line shows the objects between which distances are currently being computed To abort the computations close the list window When all distances have been computed the list will be filled with the results All distances are in series units Algorithm The distance between two objects O and Os is the minimum 3D distance between any two traces of the object If any two traces intersect on a section then the distance between the objects is zero If traces never intersect then the distance is a positive value Thus if one object is located inside another there will still be a distance between them that reflects the minimum distance between their boundaries Distanc
202. mouse button starts the trace The path of the trace follows the mouse movement The drawing operation can be aborted by using the Esc key When the mouse button is released the trace is closed and simplified if enabled to produce a single clockwise loop It is possible to change sections while drawing with the pencil The trace will be created only on the section in which the trace is terminated even if points were added while other sections were displayed This is similar to the behavior of other tools that involve mouse dragging such as the Ellipse and Rectangle Tools Like the Stamp and Grid Tools the section can be panned by dragging the right mouse button near the edge of the main window when the Pencil Tool is used Ellipse Tool The Ellipse Tool is used to create circles and ellipses quickly Press and hold the g left mouse button while moving the mouse to define the shape Release the Reconstruct v1 1 0 0 72 Chapter 8 Traces mouse button to create the trace To abort the ellipse without creating a trace hit the Esc key before releasing the mouse button Rectangle Tool The Rectangle Tool is used to generate a closed rectangular trace Drag press and hold the left mouse button to define the rectangle Release the mouse button to create the trace To abort without creating a trace use the Esc key Line Tool The Line Tool is used to create a trace consisting of a single line segment This N tool is useful for c
203. mpute the correlation Color and trace information is not used Color images will be converted to grayscale intensities for the correlation computation You can restrict the region used for the alignment by sizing the window and or zooming into a subregion of the section For example to align based on just a single object zoom in until that object fills the Main Window flicker to update the back view and then use By correlation Note that the object to be aligned must be fully visible in both sections Another way to limit the alignment region is to edit the domain boundary Only the part of the image within the new domain boundary will be displayed and therefore used in the By correlation operation Reconstruct v1 1 0 0 118 Chapter 10 Alignments and Movements Tips for Aligning Sections Alignment and reconstruction of serial sections is an art Obtaining accurate results depends on many factors including the experience of the user and her familiarity with the material to be reconstructed A number of good practices that can improve the outcome are presented here For a simple protocol see Chapter 1 Section the Material Appropriately Experience has shown that sectioning is a very important consideration Sections should be as thin as is reasonable and at least thin enough that lots of common features are available in adjacent section There should be no missing sections Too much disparity between sections and alignment is very dif
204. n Add objects to the scene and go to 2 until done with all series The object names must not replicate names already in the scene because this will replace the existing scene object with the added one You can also combine the series using montaging on a section by section basis Create a new series to hold all the series together Import everything from the first series Import everything from the second series Go through section by section aligning the new domains to the edge of the first ones Record the domain movements while aligning and then select and repeat these movements on the imported traces as well There are a number of ways to do this more efficiently but ultimately you re going to have to create a fully aligned montage of all images on each section Repeat 3 until done How can a 3D Scene window be reset See Chapter 12 The 3D Scene window has a bounding box that surrounds all the objects in the scene The center of this box is the center of the scene rotation If the 3D objects are small after a reset then the bounding box is much larger than the actual scene contents Usually this happens when objects are added to the scene and later deleted as the scene bounding box is not resized with deletions To adjust 1 Exit RECONSTRUCT and restart it 2 Add 1 object to the scene Scene rotation will now roughly be around the object center 3 Add a 2nd object to the scene that is much further away in 3D space Scene ro
205. n As mentioned above the scene may be animated by using the mouse to spin the scene Spin can be completely disabled by unchecking the Spin item in the View menu at the top of the 3D Scene window To produce a particular horizontal or vertical spin check the Spin menu item and use the Rotation dialog to set the rotational velocity Horizontal spin can be produced by setting the vertical spin rate to zero Likewise purely vertical spin can be realized by setting the horizontal spin rate to zero Setting both rates to zero stops all movement Spin can also be zeroed using the right mouse button in the 3D Scene window When Spin is Reconstruct v1 1 0 0 146 Chapter 12 The 3D Scene completely disabled the Rotation dialog allows a specific rotational increment to be applied to the scene Background Color The background color of the scene is white by default but can be changed to any color supported by the graphics system To change the background color select the Background item from the View menu Select a color from the Color dialog and click the OK button Custom Colors in this dialog reflect the last custom colors accessed by the program and will not be saved with the series Saving a Scene The scene in the 3D Scene window may be saved either as a bitmap image or as a 3D model In neither case is it possible to reopen and edit the saved scene using RECONSTRUCT A saved scene can only be viewed or edited with other
206. n false closed true simplified false border 1 0 1 fi11 1 0 1 mode 11 points 0 0 768 0 768 768 0 768 We Reconstruct v1 1 0 0 15 Chapter 3 Software Overview lt Transform gt lt Transform dim 0 xcoef 0100 0 On ycoef 0010 0 0 gt lt Contour name a4 hidden false closed true simplified false border 1 0 5 Dn fill 1 0 5 0 mode 13 points 0 377196 0 55957 0 377196 0 555605 0 381161 0 55164 0 385125 0 55164 0 38909 0 555605 0 38909 0 55957 0 385125 0 563534 0 381161 0 563534 gt lt Transform gt lt Section gt Figure 3 3 An example XML section data file Section number 7 consists of one image domain domain and one trace a4 Image File Formats RECONSTRUCT currently supports several common single image file formats including Windows Bitmaps JPEG TIFF and GIF The complete set of acceptable file formats is determined by the image input output library developed by Andy Key see Credits below Acceptable formats include Windows and OS 2 bitmaps BMP VGA BGA HIE DIB RL4 RL8 except for CCITT G3 MH Fax compressed and 24 bit RLE files CompuServe GIF files GIF JPEG File Interchange Format files JPG JPEG JPE TIFF files CTIE TIFF with 1 4 8 and 24 bits per pixel Truevision Targa Vista bitmaps TGA VST AFI ZSoft PC Paintbrush Image format PCX PCC GEM Raster IMG Portable Greyscale map binary P5 type PGM and Portab
207. n rennet eaei i a ia ia ie p eani ia Rieni 106 Pla EE 106 NINN ose eccrine ete teed rE EEE ces cee ees eee 107 Z Trace List Measurements Au 108 Lengt eee ene men ee nee eee ein rae een ane ree nner eee ae 108 Distances LIST COM PULAU ON se jsccsa cctetcnnsiteidenactetcupsisetdawndtetcapecieddanndtobonsseteboumasugiue 108 eet gecsin aw enw Sanda nui mea a ek can a cee cen 108 ae Chapter 10 Alignments and Movemenis 113 Tel E 113 Aligning Selected Traces sata ticedscccediduscaredneuiscebesiiersheriudidanarebieedaebunioensonnnaned 113 Aligning Entire Gechons en 114 Evaluating Me EE 114 Undoing and BEIEN 115 Repeating an Te un E 115 Montaging Domains by Point Correspondences AA 116 Step EE 117 EE 117 TE EE 117 STED Ai roas e rere ree er ne ee re Pe ene eer ore eee eet ne 117 SIOP is E 117 Aligning BY Correlation S ersccachoocctohetvastotosnodtotutenideiesvadtoteteniieheiyedtuhobondivheeaitotsines 118 Te I ne ene eee eo ee en on eer eee 118 ROUGE EE 118 SN sgl reece pS hw E Pe EE 118 Reconstruct v1 1 0 0 v Table of Contents ASS Oc E 118 Tips for Aligning Sections ee 119 Section the Material Appropriately ene 119 Beware of Ambiguous Alignments AE 119 Avoid Aligning the Same Features Every Time ssssesseeseessseererneeesesrrrrrrnrneeeee 120 Kin ST EE 121 Avoid Quadratic AlignS ssceiursccicsieainten Gs asiaten oi culencedenisddacdeienesedunnddboduieneedeiaddbanuiedenans 121 Choose the Starting Point Careiully ee
208. nd the cursor will be restored Centering The set of images that comprise the section can be centered in the main window by selecting the Center item from the Zoom submenu of the Section menu Pressing the Home key will accomplish this quickly To center a section that contains only trace data use Select All from the Trace menu to select all the traces then use Zoom To from the Traces menu Ctrl Home Zooming and Panning The magnification of the section display can be changed by using the Zoom submenu of the Section menu Using Center or Actual Pixels will change the magnification to either center the section image data or display the image data at the screen resolution respectively The previous magnification and position can be restored by using the Last Zoom item or equivalently hitting the End key Using the Magnification dialog will allow you to set the magnification to a specific number of screen pixels per series unit The magnification can also be changed with the Select Zoom Region Tool from the Tools window Select the tool that looks like a magnifying glass as shown to the left Depress and hold the left mouse button when the cursor is at the corner of the desired region in the main window Drag the rectangle to cover the desired region and release the button The section will be re rendered to the largest magnification at which this region still fits entirely within the main window The previous magnification can be regained
209. ng Start by making a copy of the series you plan to rotate by creating a new series and then using Import Series everything but the Copy image files into series folder from the series to be rotated Import a section from the other series that can be used to determine the rotation angle This section should be numbered either before or after the current series You could put one in the middle but you would need to shift the sections first to make room Reconstruct v1 1 0 0 157 Appendix 1 Rotate an adjacent section to match the imported section by using any method such as correspondence points Then use Propagate from the Movement submenu to apply this same rotation to all the remaining sections See also How can bring multiple series together accurately within the 3D Scene Below My first 50 images align well then they seem rotationally off Can adjust See Chapter 10 Yes Since you can detect the rotational offset it is also possible to correct it though manual rotations using the F3 and F4 keys The size of keyboard movements can be modified by holding the Control or Shift key down See the Options Movement page to set the keystroke movement sizes and modifiers The center of the movement can be set in the Movement Type In dialog under the Section dialog Traces and Trace Editing Can RECONSTRUCT automatically trace my images See Chapter 8 The general problem of automatic segmentation is unsolved and
210. ng can also be used to divide an object into its component sections In this case rename the object using the special character to add the section number Chapter 8 Traces For example rename myObject to myObject to create a set of objects myObject1 myObject2 myObject3 etc Each of these objects will correspond to one section of the original object Now it is possible to rename a group of sections into one subpart For example myObject1 through myObject9 could be renamed to myObject_part1 to create a slice of the original object from sections 1 through 9 Hiding and Unhiding Objects The Hide command in the Object List Modify menu allows all the traces of highlighted objects to be be hidden from display when paging through the section The Unhide command has the opposite effect Be aware however that in either case the result can be overwritten by the Hide Unhide flags in the General Tab of the Series Options Simplifying Objects Selecting Simplify from the Modify menu of the Object List will apply the operation to any highlighted objects in the list Every trace of an object that is not already marked as simplified will have the simplification on demand operation applied to it as described in Chapter 8 The Simplify on demand resolution specified in the Series Options will be used to determine the new traces for the object When traces are already marked as simplified as is typically the case for most objects
211. ng the entering of segments preceding segments can be removed by using the Backspace key The starting point cannot be removed using Backspace Use the Esc key to abandon the trace and start over It is possible to change sections while drawing point by point The trace will be created in the section in which the trace began even if points were added or the trace completed while other sections were displayed This is true of both open and closed point by point drawing and the Line Tool To create a trace that actually spans multiple sections use the Z Trace Tool see below Closed Point by Point Drawing The closed Point by Point Tracing Tool works in the same way as the open one but the candidate completed trace is shown along with any applicable fill color To avoid the fill color while tracing select None for the fill mode in the default attributes This attribute can be easily changed after tracing To accept the candidate trace press the right mouse button Use Backspace to remove segments and Esc to abandon the trace altogether If automatic simplification is enabled the final trace is given a positive orientation and all internal loops are removed Thus a trace with a single closed path is always generated Freehand Drawing The Freehand Drawing Tool has a cursor that looks like a pencil The tool is used much like a pencil in that a single drag operation by the mouse generates the closed trace Pressing and holding the left
212. nput to the Boissonnat surfacing algorithm Problems evident in Trace Slabs will be reflected as defects in the Boissonnat surface The thickness of slabs is the thickness of sections unless the user specifies a different thickness using the Size A parameter in the Series Options 3D tab When Size A is positive all slabs will be as thick as the specified value When Size A is zero the object will appear as a series of filled profiles arranged at the correct z distances Entering a negative value for Size A default restores the generation of slabs with the same thicknesses as the sections Reconstruct v1 1 0 0 131 Chapter 11 Objects Figure 11 3 Examples of 3D representations of one object The object is a dendritic spine about 0 5 microns tall reconstructed from serial section electron microscopy All images were saved from the 3D Scene at the same magnification and viewing angle A Traces B Trace Slabs C Trace Midpoints with a Size A and B set to 0 25 microns D Box Size A 1 B 1 C 1 E Boissonnat surface drawn with front and back faces in wireframe mode instead of filled F Boissonnat surface with face normals G Boissonnat surface with vertex normals H Cylinder with the length Size A set to 0 5 microns Ellipsoid Size A 1 B 1 C 1 J Sphere with a faceting density of 4 and face normals K Sphere with a faceting density of 32 and vertex normals Trace Midpoints To represent Trace Midpoints a single tr
213. nterface A trace in the list can be highlighted with the left mouse button or by using the arrow keys Multiple traces can be highlighted by holding down the Shift or Ctrl keys Pressing Enter or using the Select menu item will cause the highlighted traces to be selected and the keyboard focus to be shifted to the main window Any traces that were previously selected in the main window are unselected TABLE 4 8 Keyboard and Mouse Actions in Trace List Window Command Action Up amp down arrows Highlight next previous item in list Page Up amp Down Move through the list by the number of visible traces Home Move to the first trace in the list End Move to the last trace in the list Delete Delete the highlighted traces Enter Select the trace in the main window Ctrl or Shift Highlight multiple traces Left Mouse Click Highlight the trace under the pointer Left Mouse Dbl Click Select the trace under the pointer Trace Palette Window The Trace Palette window can be opened or closed using the Palette item from the Trace menu Fig 4 7 The window displays the set of predefined trace attributes as a set of buttons Each palette entry represents the trace name border color fill color and fill mode for drawing new traces This is displayed on the button by a trace drawn in the shape of the stamp trace also defined in the palette entry For more on palette entries see Chapter 8 Traces Reconstruct v1 1 0 0 29 Chapter 4 User Int
214. olor defined by 3 floats where 0 0 0 is black and 1 1 1 is white SFFloat is a single 32 bit floating point value MFFloat is an array of floating point values separated by white space SFInt32 is a single 32 bit integer value SFString is a string of characters excluding the characters lt and gt MFVec2f is an array of pairs of floats specifying x y coordinates on the section The rest of the DTD defines the basic ELEMENTS of a section and their attributes lt ENTITY S SFBool true false gt lt ENTITY SFColor CDATA gt lt ENTITY SFFloat CDATA gt lt ENTITY MFFloat CDATA gt lt ENTITY SFInt32 CDATA gt lt ENTITY SFString CDATA gt lt ENTITY MFVec2f CDATA gt lt ELEMENT Contour EMPTY gt lt ATTLIST Contour name SFString unknown hidden SSFBool false closed SSFBool true simplified S SFBool false border SSFColor TEO 711 SSFColor Wide LD mode SSFInt32 wow comment SFString IMPLIED points SMEVec2f IMPLIED gt lt ELEMENT Image EMPTY gt lt ATTLIST Image mag SSFFloat DI On contrast SSFFloat YET brightness SFFloat XOT red SSFBool true green SSFBool enue blue SSFBool true src SFString M proxy_src SFString Di proxy_scale SFFloat In ONS lt ELEMENT Transform Image Contour Contour gt l
215. om the Object menu Fig 4 10 The window displays a list of all the z traces in the section ordered alphabetically The trace name is displayed along with the section range and the length in series units An additional column can be used to make a notation about the trace The columns of the list can be resized by dragging the borders of the column headers The entire list can be saved to a csv file by choosing the Save item from the List menu Program Series Section Domain Trace Wenns List objects 3D Scene Distances N Figure 4 10 The Z Traces item from the Object menu in the main RECONSTRUCT window A trace in the list can be highlighted with the left mouse button or by using the arrow keys Table 4 12 Multiple traces can be highlighted by holding down the Shift or Ctrl keys Reconstruct v1 1 0 0 32 Chapter 4 User Interface Pressing Enter or using the Add to scene item from the Scene menu will cause the highlighted traces to be represented as 3D objects and added to the 3D Scene TABLE 4 12 Keyboard and Mouse Actions in Z Trace List Window Command Action Up A down arrows Highlight next previous trace in list Page Up amp Down Move through the list by the number of visible traces Home Move to the first trace in the list End Move to the last trace in the list Delete Delete the highlighted traces from the series Enter Put the trace into the 3D scene Shift Highlight multiple traces Left Mou
216. on images to Series Name mySeries_aligned cones Figure 6 5 The Export Images dialog The Pixel Size parameter determines the output file size Output will be a 24 bit Windows Bitmap or JPEG image file The output image can include a representation of the traces if desired Each section in the specified section range will be rendered to a file with the Series Name and the section number as the file extension When the dialog is opened the series is scanned for all sections and the image dimensions necessary to contain all the series data is determined The output images will be sized accordingly so that every section is completely visible The images will be given the same orientation and position as they appear when displayed in the main window so aligned sections will be aligned in the output images Note when images are exported they are shown with the identity transformation and a black border may appear on the image Fig 6 6 an irregular space around the image The position and shape of the image relative to the black border is determined by the original transformation used to align the sections This transformation represents a mapping from the transformed image back into the original image telling the program where to find the data corresponding to a particular location on the section For details about the transformation itself see Fiala and Harris 2001 http www jamia org cgi content abstract 8 1 1 If
217. on to be displayed on the section Creating a Domain Domains can be created within a section by selecting Import image from the Domain menu This will open an Import Image dialog for selecting the image file for the domain Fig 7 1 Specify the estimated pixel size of the image Chapter 9 Calibration and Measurement at the bottom of the dialog before importing Backing up or transferring series can be facilitated by keeping all component image and series files in one folder For this reason it is recommended that the Copy file to series folder option is used Import Image Look in Test Images D e EI ez ES sl section1 1 al section2 2 al section3 3 File name Files of type JPEG Images e Cancel Pixel Size 0 00254 units in dpi magnification jw Copy file to series folder Figure 7 1 The Import Images dialog from the Domain menu The list shows three image files that may be selected as domain images to import When a domain image is imported it is placed at the origin i e x 0 and y 0 of the section If the current view does not include the origin you may not be able to see the new domain image Use the Home key to center the view of the entire section including the new domain Importing Multiple Images Multiple images are added to the sections using the Images dialog from the Series Import menu Fig 7 2 This dialog allows a set of images to be added to sequential sections in the serie
218. ores the DXF data as traces on the corresponding sections The DXF data is assumed to be in the same units as the series Importing Series Data Elements from an existing series can be copied into the current series using the Series dialog from the Series Import menu Fig 5 3 Use the Browse button to navigate to a folder and select an existing ser file to copy from Then select what elements are to be copied by checking the appropriate boxes Importing the Series Options or Trace Palette will overwrite the values in the current series Importing z traces will add to the current series only the z traces with names that match the string String matching of names follows the same rules as for limit strings in the Lists tab of the Series Options above WARNING Importing series elements cannot be undone Reconstruct v1 1 0 0 43 Chapter 5 Series 2 Series C fialaJRECONSTRUCT test mito ser V Importthe Series Options settings V Importthe Trace Palette V ImportZ traces named f v Copy from sections D through 16 v domains named F V Copy image files into series folder Vv traces named f WARNING This operation cannot be Undone Import Cancel Figure 5 3 The Import Series dialog The Series name is filled by selecting a series file with the Browse button When copying section data be sure to set the section range Use the limit strings to select a subset of the data for import Check the Copy image
219. ot every object in the series will be perfectly cross sectioned If the apparent motion generated during flickering is not uniform in direction and magnitude throughout the section but is instead locally random this indicates that the alignment is correct even though there is some blurriness with blending Reconstruct v1 1 0 0 114 Chapter 10 Alignments and Movements If an alignment command produces a bizarre distortion of the section this probably means that there is a serious problem with the traces used for correspondence Undo the alignment and carefully check the trace names to make sure that the desired correspondences were correctly specified Undoing and Adjusting Alignments If the alignment produced by one of the alignment commands is not adequate it can be modified or undone To undo it first make sure the section number in the title or status bar is the one on which the alignment was done i e the section that was moved Then use Ctrl Z Undo to return the section to its previous state If you plan to try the same alignment operation again after modifying or adding traces for correspondence points it is not necessary to first undo the alignment Points can just be added to each section and the alignment operation repeated If a Quadratic or Deformal alignment is followed by a Rigid or Linear alignment it will be necessary to clear the nonlinear components from the transformation by Ctrl Z since they are not cleared by
220. ouse button depressed This allows rapid panning to the next area of the section that needs correspondence points without changing tools After panning and adding points to several areas use the End key to return to the low magnification display Select Rigid or Linear if required Compare the sections and continue adding points until the alignment is satisfactory Movements Transformations To allow independent movement of data elements the position orientation and scale of each domain and trace in the section is defined by a transformation Every domain and Reconstruct v1 1 0 0 121 Chapter 10 Alignments and Movements every trace has a transformation associated with it A single domain or trace can be moved within the section by changing its transformation The entire section can be moved by changing all the transformations together Transformations and coordinates are coded in the XML files of RECONSTRUCT Details on the representation are provided in Fiala and Harris 2001 J Amer Med Informatics Assoc 8 1 16 http www jamia org cgi content abstract 8 1 1 Each transformation maps trace points or image pixels into the section using a combination of basis functions in two dimensions Essentially each basis function represents an elementary motion such as translation orientation slant scaling deformation or bending By combining these movement components in different proportions a complex remapping of the underlying
221. out before any domain movements section alignments or tracing However the calibration traces will be incorrectly sized after a pixel size adjustment These calibration traces may be simply deleted To verify the calibration redraw the calibration traces and check their length to see that they match the known lengths in the calibration image Apply the Calibration to Other Sections The pixel size set by the Set pixel size option can be subsequently extended to other domains in the series When this option is chosen the calibration automatically opens the Set Pixel Size on All Domains dialog box Fig 9 2 This dialog displays the same pixel size value as in the Calibrate Traces dialog and allows a range of sections to be selected All domains in the included sections will be set to the pixel size value Note This operation cannot be undone when executed over many sections The rescaling performed by the third option of the Calibrate Traces dialog can be applied to other sections in the series by using the Repeat or Propagate commands from the Movement submenu To rescale one other section unlock the section and select Repeat or Ctrl R To rescale a range of sections use Propagate and specify the range of sections to modify Be careful not to rescale the current section again because this section was already rescaled by the Calibrate Traces dialog If the first calibration option Resize selected trace s was chosen in the
222. p is to add sections to the series This can be done by using the Import Images menu item Chapter 7 Domain Images or by creating new sections from the Section menu Chapter 6 Sections Opening and Closing Series An existing series can be opened by using the Open item from the Series menu Use the Open Series dialog to navigate to an existing folder and select the ser file for the series Alternatively a series can be opened by dragging an ser file onto the RECONSTRUCT application icon or filename An open series can be closed by selecting the Close menu item from the Series menu or by exiting the application Within RECONSTRUCT only one series is open at a time Opening or creating another series will close the current one Multiple series can be opened on the desktop by running multiple copies of the application Saving a Series A series can be saved by selecting the Save item from the Series menu This saves only the ser file not the section data files The series file stores the current view position in the series z traces palette entries and the series options described below Table 5 1 The series file is saved automatically whenever a new series is closed To turn off automatic series saving change the option in the Series Options dialog and then select Save from the Series menu to put the change into the ser file Similarly a manual Save is needed to turn this option back on Reconstruct v1 1 0 0 35 Cha
223. portion of the trace after the break point is removed before redrawing For a closed trace only one trace point is removed by the Scissors Tool The subsequent drawing operation can be aborted by using the Esc key but this will completely delete the trace being edited Use Undo Ctrl Z to recover the original trace Existing traces can also be quickly sliced into separate pieces using the Scalpel Tool Fig 8 7 The tool is used to divide a closed trace into two or more pieces based on a separation line drawn with the cursor To divide a closed trace place the cursor outside of the trace near the point where the trace is to be divided Press and hold the left mouse button and drag the cursor through the interior of the trace A temporary line will show the intended path of the division When the cursor reaches the outside of the trace again release the left mouse button and the trace will be divided along the path If the division path is wrong press the Esc key before releasing the mouse button to abort the operation After a successful division the middle mouse button can be used to select one of the pieces for further processing such as deletion or attribute changes Reconstruct v1 1 0 0 80 Chapter 8 Traces Figure 8 7 The process of dividing a trace using the Scalpel Tool A A left mouse drag is executed along the line shown B When the left mouse button is released the trace is divided into three pieces along the line C
224. program such as CamStudio or Snaglt Another approach for making 3D animations of rotating scenes requires a little more work 1 Layout the scene you want and size the 3D Scene Window for image size you want in your animation 2 Put the scene in the desired starting orientation and uncheck the Spin item in the View menu 3 Save the scene image to a file using Export As Bitmap 4 Open the View menu Rotation dialog and enter a horizontal angle say 36 degrees 5 Go to step 3 to continue saving and rotating the scene until you ve done this 9 times You now have a sequence of images showing the scene at different angles You can put these together into an animation using your favorite image editing software such as Corel Photopaint and sometimes reduce the images to 8 bit color to save the movie as an animated GIF You could also save the VRML of your scene and import it into sophisticated graphics software like 3D Studio MAX for rendering and creating animations This will produce much prettier images but it works in a similar way Another alternative is to display your VRML file using a VRML viewer during your presentation A good VRML viewer can rotate the scene for you How can I view a saved VRML scene Display your VRML file using a VRML viewer such as FluxPlayer from Media Machines See also the information on VRML files on the File Formats page Copyright 2006 by John C Fiala Revised by K Harris and K Sorra 2009 Re
225. programs VRML 2 0 To export the scene as a 3D model use the VRML 2 0 menu item from the Export As submenu of the Scene menu Select the desired directory and filename Virtual Reality Modeling Language VRML files use the wrl file name extension This file extension will be automatically added to the filename The VRML 2 0 output adheres to the VRML97 file format specification www web3d org All objects are represented as indexed line or face sets and are easily imported into other 3D graphics packages for editing or display The VRML file can be displayed in most web browsers by using a plug in for VRML To find out if a VRML plug in is currently installed direct the web browser to a VRML plug in detector http cic nist gov vrml vbdetect html A number of free VRML plug ins are available for popular web browsers When the scene is opened with the VRML viewer it should appear as it did in the 3D Scene window at the time it was saved The background and object colors including transparency are preserved However the Front and Back faces wireframe setting will not be retained The VRML file is a simple text file Comments in the file indicate the version of RECONSTRUCT used to generate the file the series name and units Each object in the scene is delineated with comments at the start and end of the object description The starting object comment in addition to the object name and type contains the following information
226. propagation of wildfires Copyright 2006 by John C Fiala Revised by K Harris and K Sorra 2009 Reconstruct v1 1 0 0 11 Chapter 3 Software Overview RECONSTRUCT was developed from years of experience working with high magnification serial section images of brain tissue Since each section is imaged separately in the microscope the images must be brought back together to understand the structure of the whole tissue RECONSTRUCT aids in the extraction of three dimensional 3D information from the serial section images Series Sections Domains Traces and Objects Serial section microscopy consists of an ordered set of sections representing the sequential pieces of the tissue block Data in RECONSTRUCT are organized around this concept An ordered set of sections is called a series RECONSTRUCT operates on one series at a time Within a series data are grouped by section and each section is given an index indicating its position within the series Each section in the series contains the data related to one physical section of the tissue The section data includes images of the section and traces drawn on these images The traces are later grouped together across sections to form 3D objects 1 Transformation for domain2 domain boundaries Transformation for domain Transformation for dendrite Trace dendrite Figure 3 1 The mapping of data elements onto the section
227. pter 5 Series Series Options The series file contains a set of attributes that remember the user defined options Table 5 1 These are accessed through the Options dialog from the Series menu The Options dialog Fig 5 1 contains tabbed pages that separate the options into categories To change options set the desired values in the pages and then select the OK button at the bottom of the dialog Selecting Cancel will cancel the changes in most cases The options are saved when the series is saved General The General tab contains parameters for controlling how data is saved and displayed The units description string that specifies what units are used for quantitative values such as measurements All quantities within a series are expressed in these units All non image data is saved as text versus binary format The data precision parameter controls how many significant digits are written to represent each number The General tab also contains the default section thickness given to new sections and an option for changing how the section thickness is used in calculating distances perpendicular to the sections Details on the use of these options can be found in Chapter 9 Calibration and Measurement The hide and unhide options in the General tab determine whether traces and domains images will be displayed on screen when a section is accessed and also whether the traces and domains will be marked as hidden when a section is saved
228. r of each section profile Then the Distance List can be used to report the distance from the synapse object to the central axis giving effectively the radius of the dendrite at the level of the synapse Can I compute the length of a region of interest by using the maximum and minimum X and Y coordinates of the trace No The Extent does not give the maximum width of each trace but instead gives the size of the bounding box aligned with the image An accurate length measurement requires a line of measurement to be drawn along the curved interior either in a single section and across serial sections as needed The Z trace can be used for this and the length measurements are displayed in the Z trace list Reconstruct v1 1 0 0 160 Appendix 1 How can I make a measurement on a piece of an object If the piece is defined by a range of sections you can rename your object using the special character to create a separate object for each section These can be again renamed in groups to get pieces of your object If the piece is more complicated e g the spine head in a dendrite reconstruction you ll need to separate the traces that define the piece The easiest way to do this may be to copy the object using the Copy command in the Object List After you create a Copy Hide the original object Make sure the Unhide flag is not checked in the Series Options and use the Trace List while paging through sections to verify original object is
229. r to work in units of pixels for example it is possible to do that instead Just set the units descriptor in the General tab of the Series Options to pixels and then always import your images using a pixel size of 1 Objects and The Object List Why is the object list so slow to fill See Chapter 9 When you open the Object List the program reads all of the sections to see what traces have been created and to compute the values for the list e g volumes surface area etc The length of time it takes to read this list will be the time it takes to read one section times the number of sections in the series You can speed up the Object List by making sure your section files are stored locally on your hard drive for fast access turning off all list parameters like volume surface area etc turning off all other programs that are actively accessing the hard drive such as any virus scanning software Due to the nature of Windows list views the list display will also be slow or even stop altogether if there are tens of thousands of objects in the list A particularly critical number for Win32 appears to be 65 535 If you are tracing one object through the series make sure you are using the same object name for every trace not an incrementing name Names with different numbers in them are interpreted as belonging to different objects Can tips be provided for dividing an Object into section ranges and for Object Renaming See Chapter 11
230. r types of locally ambiguous alignments are possible and these may combine e g a cone sectioned obliquely to produce complex distortions Avoid Aligning the Same Features Every Time To minimize the effect of ambiguous alignments it is also a good idea to choose distinct objects for correspondence points on each pair of sections Repeatedly aligning the same profiles is more likely to produce a pattern of shift or scaling that builds up to high levels over many sections For example two objects can be moving towards each other as the sections are ascended By aligning only these objects an artifactual scaling may be introduced Randomly distributing correspondence points as you align pairs of sections can help by using more of the whole field for alignments Reconstruct v1 1 0 0 120 oe ee lt Chapter 10 Alignments and Movements Don t Over Align Ignore the urge to make every alignment perfect some local misalignments are to be expected since objects will move relative to each other Don t rely just on blend to evaluate alignment use flicker to see if there is a pattern of motion consistent with a whole field misalignment Avoid Quadratic Aligns As much as possible use Linear or Rigid Align commands as these introduce the least distortion Use Quadratic and Deformal alignments sparingly It may be a good idea to skip sections that can only be aligned by Quadratic or Deformal alignments and come back to them once
231. rawing Interchange File DXF format www autodesk com by using the Lines command from the Series Export menu A dxf is created for each section that contains all the non hidden traces as POLYLINES The trace name is written after group code 3 The approximate trace color is converted to an 8 bit value that is output in code 62 Whether the trace is closed or not is output as a boolean value after code 70 The vertices of the trace are output in series units with the precision specified in the General tab of the Series Options Each VERTEX contains the X and Y positions on the section and the z distance for the section The following example demonstrates the DXF output for a section containing a single rectangular trace called testi 0 SECTION 2 ENTITIES 0 POLYLINE 62 227 66 1 70 1 3 testl 0 VERTEX 10 74 7673 20 75 2601 30 0 05 0 VERTEX 10 181 965 VERTEX 10 181 965 20 185 168 30 0 05 0 Reconstruct v1 1 0 0 17 Chapter 3 Software Overview EOF 3D Output Formats In addition to saving a reconstructed scene as an image file the scene can be exported as a 3D model in one of three commonly used formats VRML 1 0 VRML 2 0 and DXF For more information on Virtual Reality Modeling Language VRML and 3D output DXF file formats see Chapter 12 The 3D Scene System Requirements RECONSTRUCT was writ
232. reating calibration lines as described in Chapter 9 Calibration and Measurement Press and release the left mouse button to start the segment A candidate line will then follow the cursor until the left mouse button is clicked again to create the line trace To abort without creating a trace use the Esc key Stamping Predefined Shapes The Stamp Tool allows creation of traces with a single mouse click The predefined shape is centered at the position of the Stamp Tool cursor The shape is drawn at a fixed pixel size such that the shape is a constant size with respect to the screen This means that stamping at high magnification will produce a much smaller trace in series units than stamping at lower magnification Shapes with a predefined fixed size in series units can be created using the Grid Tool The right mouse button allows panning the section while using the Stamp Tool Press and hold the right button and drag the cursor to the edge of the main window The section will scroll as long as the cursor is near the edge and the right button is held down Stamp shapes can be selected from the Trace Palette by selecting one of the palette buttons or equivalently by using the number keys A stamp shape can also be obtained from the traces in the main window by clicking the left mouse button while holding down the Ctrl key on the keyboard The trace closest to the cursor point replaces the current stamp shape This shape can replace the shape in a p
233. red for proxies images to be loaded during full section display Without proxies each 7322x4840 section would require a long time to load and display After creating proxies at fraction 0 28 the image loading time would decrease by a factor of 4 or 5 But if you zoom in to the section the display would slow back down because the whole image must loaded to display the data at the higher magnification In addition to section display in the main window proxies are also used when sections are displayed on thumbnails or exported as images If desired you could set the fraction parameter to a much smaller value to increase the speed of thumbnail generation For the 7322x4840 sections suppose the full image load without proxy requires 800ms Generating 100 thumbnails at a size of 128x96 might therefore require more than a minute without proxies Creating proxies at 0 28 of full dimensions would allow the 100 thumbnails to be generated in 15s and speed up the full screen display of sections as well By making the proxy fraction even smaller say 0 028 the thumbnails could be generated in just a second However at 0 028 our full screen display of sections would slow down again because these proxies are too small to be used Proxy Rule of Thumb for single domains If your domain image is at least twice the screen resolution use this formula screen height domain height proxy fraction 1 2 If your domain image is not twice the screen size
234. ributes dialog The title bar indicates how many traces were selected when the dialog was invoked All of these traces will receive the changes made in the dialog Grayed checkboxes or buttons e g the Hidden checkbox indicate a don t care condition As long as these boxes are not modified these parameters will not be changed on any of the selected traces The Get Default and Get Clipboard buttons can be used to fill the attribute fields with the values of the default attributes or the attributes of traces placed on the trace clipboard Alternatively the individual fields can be filled as described in the following Trace Name The current trace name is shown in the Name box A new name for the trace may be typed in the box If more than one trace was selected then all the traces will be given the new name The name in the Trace Attributes dialog only modifies the selected traces When new traces are drawn they use the default trace attributes for the series which are set in the Names Colors tab of the Series Options or with the Trace Palette see above Reconstruct v1 1 0 0 85 Chapter 8 Traces If the selected traces had different names when the Attributes dialog was opened then an asterisk will be displayed in the Name box Only when the asterisk is replaced with a new string will the names of the traces be changed This allows the colors or other attributes of a set of traces to be modified at once even though the traces have di
235. ries A new series begins with user entries set to predefined values Fig 8 5 Reconstruct v1 1 0 0 77 Chapter 8 Traces x eaaa ee slalald lolol E P Figure 8 5 The Trace Palette window The top row of buttons displays the user defined palette entries while the bottom row displays the predefined palette entries Each button shows the default border and fill colors fill style and Stamp Tool trace shape To use the trace palette simply select a button in the palette window using the mouse The default trace attributes will be immediately set to the name colors and fill mode defined for that palette button Holding the mouse over a button when the palette window is active shows the name attribute in the title bar The colors and fill styles are rendered on the buttons The shape on the palette button is the shape of the stamp trace that will be adopted whenever the Stamp Tool is used See above Define the trace palette entries with the Names Colors tab of the Series Options Fig 8 4 Each user definable palette button is shown in this tab Select one and edit the attributes in the Attributes box The palette entry attributes are changed immediately an OK in the Series Options dialog is not required To copy the attributes from an existing trace to the palette copy the trace to the trace clipboard and then select the palette entry in the Names Colors tab Use the Get Clipboard button to copy the clipboard attributes
236. s one domain image per section When a candidate list of images is ready for import use the Import button in the upper right of the dialog to carry out the operation Reconstruct v1 1 0 0 57 Chapter 7 Domain Images The Pixel Size box specifies the width of an image pixel in series units Chapter 9 Calibration and Measurement All domains created by Import Images will receive this pixel size attribute The pixel size of a domain can be changed later by editing the domain s attributes or calibrating the pixel size Import Images Saurce C fiala RECONSTRUCT test Import Pixel Size 0 002697 Offset X o o Ke an v Copy files to series folder Quit Randomize Sort numerically Start numbering at 1 and increment by 1 from fie of type into section at position D Stack of 20 TIFF 1 0 0 microns Stack_of_3 tif TIFF 2 0 0 microns Stack_of_3 tif TIFF 3 0 0 microns dendrite1 bmp BMP 4 0 0 microns synapses gif GIF 5 0 0 microns synapses gif GIF 6 0 0 microns synapses gif GIF 7 0 0 microns synapses gif GIF 8 0 0 microns synapses gif GIF 9 0 0 microns synapses gif GIF 10 0 0 microns synapses gif GIF 11 0 0 microns synapses gif GIF 12 0 0 microns hee synapses gif GIF 13 0 0 microns of 4 gt Figure 7 2 The Import Images dialog The list shows three types of image files Stack_of_3 tif dendrite1 bmp and synapses gif that were selected into the dialog Stack_of_3 tifis a TIFF stack of 3 ima
237. s at the bottom of the dialog For example a grayscale image can be displayed as red by unchecking the Green and Blue checkboxes Make sure the boxes are completely empty to turn off the channels A grayed check mark will keep the channel state unchanged Moving and Montaging Domain Images Each domain in a section is associated with a transformation that places the image on the section at a particular location and orientation Chapter 10 Movements and Reconstruct v1 1 0 0 63 Chapter 7 Domain Images Alignments To change the position of an image on the section pick up the Select Domain Image Tool and select the domain image using the left mouse button The domain image will be displayed by itself inside its domain boundary The position of the domain relative to the rest of the section can be seen by blending the domain with the section spacebar Translate the domain image by using the arrow keys or by dragging the domain with the left mouse button When done moving the domain merge the domain with the rest of the section by clicking the right mouse button Multiple domains can be created for an image by importing the image into the section multiple times Up to 254 images may be arranged as separate domains within a single section to create a montage Each image is imported as a separate domain see above and then moved into position with the other images by dragging it with the Select Domain Image Tool by using keyboard command
238. s or by using one of the other methods discussed in Chapter 10 Movements and Alignments If the precise arrangement of sections is known in advance e g each image is offset by 10 microns along the x axis use the Import Images dialog from the Series menu with particular X and Y offsets to place the domains in the correct locations on the section Merging a Domain To return a selected domain to the section i e to deselect it use either the Merge front or Merge rear commands Domains have an implicit order that determines which image will be displayed on top of and occluding other images This order is reflected in the Domain List The order of domains can be changed by selecting and merging the domains to either the front or rear of the domain order Merge front puts the domain at the end of the domain list where it will be painted on top of all other domains Merge rear puts the domain at the start of the domain list where it will be painted over by all other domains When the Select Domain Image Tool is being used the Merge front operation can be carried out by clicking the right mouse button When to Merge a Domain The appearance of either a folded section Fig 7 6 or cracked section Fig 7 7 can be fixed in RECONSTRUCT by merging domains This is done as needed to preserve a region of interest through serial sections Start by creating domains for each piece where the fault exists and shifting the pieces to align with
239. s tab may not be appropriate for a given data set since this depends on the magnification used For example the initial value for translational movements using the arrow keys is one full series unit So if your data is examined at high magnification 1 unit may move more than the whole screen width resulting in objects disappearing whenever an arrow key is pressed Adjust the size of the arrow key movements by editing the values in the Translate X and Translate Y boxes Proxies The Proxies tab contains options for the use creation and deletion of proxy images on the section described in detail in Chapter 7 Domain Images When this tab is opened the program searches through all the sections to determine how many domains have image proxies This can be slow if there are a lot of sections during which time the Reconstruct v1 1 0 0 39 Chapter 5 Series program might become unresponsive When the process is complete the percent of domain images that have proxies is displayed When creating or deleting proxies the program again may become unresponsive while is processes all the section The Cancel button is ineffective in terminating these operations Thumbnails The Thumbnails options apply to the Thumbnail window described in Chapter 6 Sections The Thumbnail window displays a view of the sections in pre rendered form These section thumbnails can be quickly browsed and animated When viewing sections in the main window
240. se Click Highlight the trace under the pointer Left Mouse DblI Click Put the trace under the pointer into the scene Distances List Window The Distances List window Fig 4 11 displays a table of distances between objects in the series For more information on the distance computation see Chapter 9 Calibration and Measurement The object names and calculated distance in series units are displayed for each pair of objects that matches the list s limit strings To limit the number of distances calculated and displayed set the limit strings in the Series Options BEFORE selecting Distances from the Object menu The list display may seem to hang for 65 535 or more distances but displaying even a few thousand distances may be slow If more than 65 535 distances are calculated a warning message offers the opportunity to cancel the action before the list is displayed lt NewSeries Program Series Section Domain Trace MeS Ea List objects 3D Scene 2 Traces Distances Figure 4 11 The Distances item from the Object menu in the main RECONSTRUCT window There are no special keyboard or mouse operations on the Distances List As with all list views the columns of the list can be resized by dragging the borders of the column headers The entire list can be saved to a csv file by choosing the Save item from the List menu Exiting or Aborting Most windows in RECONSTRUCT can be closed by choosing the x in th
241. se trace without a surrounding clockwise trace is invalid The inner trace should be counterclockwise to mark the hole boundary and the outer trace should be clockwise to delineate the exterior of the object Use Reverse to fix the orientations Draw closed traces Boissonnat surfacing is designed to surface closed traces however the algorithm will attempt to incorporate open traces as well In the best case open traces will be partially filled in the clockwise part of the traces In general however the results with open traces will be difficult to control Straight line traces will be ignored altogether since these are not capable of forming a solid connection with the rest of the object Use clockwise traces to define outer boundaries Clockwise traces represent the exterior of the object Clockwise traces must be wholly outside of all other clockwise traces of the same object in the section The exception to this rule is when the clockwise trace is completely contained within a counterclockwise trace A clockwise trace can occur inside another clockwise trace only if it is fully enclosed by a counterclockwise trace of the same object Use counterclockwise traces to define holes Counterclockwise traces represent an interior hole boundary Traces representing holes must be wholly contained within clockwise traces Fig 11 4 C When traces are automatically simplified during tracing they are also made clockwise To change a simplified tra
242. se your original aligned series is located in the folder myStudy and is named aligned ser Create a new series in a subfolder myStudy N0O1 N01 ser and then import a subset of your original dataset Select Import gt Series from the series menu in the new series Use the Browse button to select myStudy aligned ser as the series to import from Check all the boxes and verify the section range incorporates the entire series Check the domains named box and leave the wildcard in the name field to import all images but uncheck the box next to Copy image files This will force the new series to display images by accessing the files in the parent folder rather than unnecessarily copying the image files into the subfolder Check the trace named box and use a wildcard name string to select a subset of the data you want to be included in the new series e g NO1 to include all traces that begin with the string N01 Click Import and verify the traces are correctly in the new series You can repeat the Import dialog to grab additional subsets of data using different wildcard strings but be carefully not to copy the same traces twice as this will create problems for your reconstructions You can repeat the process of creating subfolder series and importing part of your dataset until the entire series is divided up into manageable units To avoid confusion you may want to delete the original traces from the parent series aligned ser Later i
243. section file before it is deleted from memory This can be changed in the General tab of the Series Options When sections are not automatically saved the user will be warned before any changes are deleted provided the Warn before deleting unsaved sections checkbox is set A section can be manually saved by selecting Save from the Section menu Since the filename is already specified there is no dialog the save operation will be executed immediately Displaying a Section Images and traces within a section are defined in a local coordinate system and transformed into position on the section by a general nonlinear transformation To display a section each image data file is read from disk and transformed pixel by pixel into position on the section s display bitmap To support color images with different color formats the display bitmap uses 24 bit color After all images are rendered the line traces are transformed into position and drawn using the windows graphics device interface Traces are drawn with or without a colorized fill to highlight the interior of the object Finally the rendered bitmap is copied to the client area of the window The process of rendering a section can be slow depending on how much data is to be displayed and the media on which the data is stored When a section is being rendered for display the cursor will change to the wait busy cursor typically an hourglass When rendering is complete the section will be displayed a
244. sections Can I use RECONSTRUCT with confocal microscopy How many different colors objects can I have Is it possible to organize data in a hierarchical tree How can I create a local copy of the Users Manual How should I reference the software in my paper Images a gat En What image file formats does RECONSTRUCT accept After Importing images why do I see only part of them or none at all Why does Export Images produce such a huge image Why can t I Export Images from my series How can I speed up the paging and display of sections Moving and Aligning Pe gt Why don t the Arrow keys move my section images Can RECONSTRUCT align my sections all by itself How can 1 align one series to another My first 50 images align well then they seem rotationally off Can I adjust Traces and Trace Editing 4 1 Can RECONSTRUCT automatically trace my images 2 3 How do I draw without having the trace filled with a color Is it possible to trace a single structure on a single section In my serial sections I have very small structures that are embedded in a single section I tried to trace the single structure but no image of the structure was observed in the reconstructed scene How can I place text on my sections reconstructions Reconstruct v1 1 0 0 152 Appendix 1 Can I personalize RECONSTRUCT to create and save my own palette Can I switch tools using
245. sed by K Harris and K Sorra 2009 Reconstruct v1 1 0 0 44 ae Chapter 6 Sections Sections are the main data containers of a series A section contains a set of images domains and a set of polylines traces The domains and traces for each section are stored in a separate file the section file Chapter 3 Section Indexing Since serial sections have an intrinsic order the position of a section in this order is used as the file extension of the section filename Sections must be numbered with non negative integers in the range of 0 through 2147483646 The section with the smallest section number is referred to as the first section while the highest numbered section is the ast section The section index or number is also stored internally in the section file The internal index and the file extension must be the same Leading zeros and spaces should be avoided in the section extension since these will not be maintained when saving the section file Sections do not have to be numbered sequentially Gaps in section numbering are generally ignored But note that gaps may require careful interpretation for 3D reconstructions and measurements The position of a section in the volume is determined by the combined section thicknesses of lower numbered sections see Z Distance in Chapter 9 Calibration and Measurement so the section thicknesses must account for any gaps in the series to get correct 3D distances To reorder some sect
246. selected traces can be automatically propagated to adjacent sections using the F or B key ets oix WEEN cx R m als Program Seres Section Doman Trace Object Help Program Seres Section Doman Trace Object Help Program Ser Seton Doman Trace Object Hep poo E Secton 2 d Sector 2 Mue 255 Sat 000 Bright 252 zf Section 2 Seecting wes of 3200 8 square merons Figure 8 13 An example of using the Wildfire Tool to trace multiple areas To begin the cursor is positioned and the left mouse held down left A rectangle is created by dragging the mouse middle When the left mouse button is released right multiple areas are grown up to the stop criteria of Hue differs by 40 Saturation differs by 50 and Brightness is greater than 200 To prevent creation of small areas a minimum size of 100 square pixels was required for trace creation Regional wildfires can generate a very large number of traces and this can take a long time Make sure the stop criteria are set appropriately by testing them with a single mouse click before attempting to trace multiple wildfires using the mouse drag Use less than or greater than stop relations rather than differs by to generate fewer regions by tracing only white areas rather both white and black areas To further reduce the time required for regional wildfires work at lower magnification The large number of small areas sometimes generated by a regional wildfire can be controlled
247. series A domain is stored as a pointer to the pixel data file and a pixel size parameter The actual position of the domain on the section is additionally determined by the associated transformation also stored in series units The pixel size of an image can be determined from the magnification factor of the microscope and the dpi used to digitize the optical image into pixels Many computer controlled imaging systems report the pixel resolution as part of the data so that it doesn t have to be calculated It can just be entered directly into the pixel size input field when importing images or domains The basic formula for calculating pixel size is pixel size dpi magnification Loch where units are the chosen series units dpi is dots or pixels per inch and magnification is the optical magnification from the specimen to the digitizer A reminder of this formula is provided in the Domain Import dialog Chapter 7 Domain Images For example suppose an electron microscope is used with a known magnification factor from specimen to photographic film of 10 000 The film is then developed and scanned at 1000 dpi If the series units were chosen to be microns then the pixel size would be o 25400 microns 0 00254 1000 10000 inch d While this estimate is a useful first approximation magnification factors of instruments are rarely known precisely Accurately determining the pixel size from the data is the main goa
248. special character can be used in the default name when repeatedly drawing Z traces to create unique names Note Z traces should be uniquely named Z traces and Objects can be displayed together in a 3D scene but to see where Z trace points are on the sections one must convert Z traces to Objects by using Create Grid at Z trace points from the Z trace list First setup the desired Grid shape in the Grids tab from the Series Option menu and the desired object name in the Names Colors tab also on the Series Option menu It is also possible to create the Z trace from a traced object rather than drawing the Z trace directly but this requires that your object is unbranched and with convex traces Setting Trace Attributes for Drawing When a trace is drawn it is given the current default trace attributes These are set in the Names Colors tab of the Series Options Fig 8 4 The default tracing attributes are saved with the series so that tracing can easily be continued when a series is reopened Reconstruct v1 1 0 0 76 Chapter 8 Traces Series Options PIS Movements Proxies Thumbnails AutoT racing General Names Colors Grids 3D Lists Trace names can be 63 characters long is replaced with the section number A plus sign increments each new trace increments within a section Do not use seh gt lt Give new traces these default attributes Name Tracet Border Fill Gaal Fill
249. t ATTLIS ransform dim SSFInt32 Os xcoef SMFFloat WO aly Uu Et 0 0 ycoef SMFFloat WO Ot OO Om lt ELEMENT Section Transformt gt lt ATTLIST Section index SSFInt32 Maen Reconstruct v1 1 0 0 14 Chapter 3 Software Overview thickness SSFFloat TOL OSN alignLocked SFBool false gt Figure 3 2 The Document Type Definition of the section data file section dtd A section contains one Section data element The Section has three attributes an index specifying the position of the section in the series a thickness specifying the section thickness and an alignLocked flag that specifies whether the entire section can be moved The Section may contain one or more Transform elements The Transform element contains the coefficients of the linear combination of the bivariate polynomial basis and a dim parameter specifying how many of these terms are to be used Each Transform element contains either an Image element and boundary Contour or a set of Contour elements For more information transformation equations are provided in Fiala and Harris 2001 htip Awww jamia org cgi content absiract 8 1 1 The Image element is the reference to an image file Image attributes are mag the width of a square pixel in series units src the path to the file containing the image data contrast and brightness operate on a virtual intensity range of 0 1 proxy_src the path to a file containing image data at reduced dimensions
250. t into alignment This is done on the sections without domains selected rather than on selected domains With the point traces selected in both sections use Align Traces from the Trace menu to generate the correct alignment movement for the domain This will move the traces from the domain to the correct positions on the section Fig 10 3C To move the domain to match the trace movement select the domain and use Repeat from the Movement menu This will place the domain at the location of the moved traces Fig 10 3D The technique can be repeated with each domain to align each element of a montage separately Just make sure that a unique trace name is selected for entering trace points on each domain so that the traces for each domain can be distinguished A variation of the above method can be used to add and align a domain to an existing section Assume that goal is to import a new domain image into section and align it to the existing part of section I instead of to an adjacent section Step 1 Import the domain to a different section Il This section is arbitrary but it may be convenient to use an adjacent section for paging Select the domain and move it to the approximate desired location on the section Merge the domain into the section Step 2 Enter correspondence points on sections and II that would align the domain on section II with desired features on section I Then use Align Traces from the Trace menu on section Il
251. t is added to the selected traces and drawn on the section If the trace is unacceptable it may be deleted by using the Delete key but be careful that no other traces are also selected With the default settings the Wildfire Tool ignites on bright regions and stops spreading at black regions If a black region is completely surrounded by the bright region the wildfire will grow completely around it and the black region will be ignored i e it won t be part of the final boundary Wildfires will not soread beyond the display of the window except for the part under the status bar and will not spread into a region in which there is no domain image If an attempt is made to ignite a wildfire trace on a black region no trace will be created The stop criteria for the Wildfire Tool can be changed in the AutoTracing tab of the Series Options Fig 8 8 Existing traces can be used as stop criteria by checking the appropriate box in the AutoTracing tab but the main criteria that stop region growing are the relations set on the hue saturation and brightness values The default stop value of Brightness is less than 100 means that Wildfires will not pass through pixels that have an intensity less than 100 where 0 is black and 252 is white Changing this option to Brightness differs by 50 will allow either white or black regions to be automatically traced with the Wildfire Tool Saturation refers to the amount of color A saturation value of 0 has no
252. t keyboard Type n or mouse drag movements are added to the recording until the Stop item is selected from the Record submenu Note that alignments or repeated movements are not added to the recording After Stop the recorded sequence is moved to the last movement buffer where it can be applied using Repeat or Propagate Copyright 2006 by John C Fiala Revised by K Harris and K Sorra 2009 Reconstruct v1 1 0 0 125 ae Chapter 11 Objects An object is the set of all traces in sections with index greater than zero that have the same name Thus an object is defined by a trace name not by the color or other shared attributes of traces Traces with different names belong to different objects The Object List The list of all objects in the series is reported in the Object List window Fig 11 1 This list of objects is regenerated from the section data every time the Object List window is opened or refreshed Since each section file in the series is opened and scanned for object traces generating the Object List may be slow if there are large numbers of sections or access to the section files is slow In addition if a new object is created by tracing in the sections it will not immediately appear in the Object List Rather the Object List window will need to be closed and reopened from the Object menu in order for the new object to be recognized objects Dee ES Scene List Modify Create Object Start End D10
253. t submenu This is particularly useful for repeating a change made to one section on the rest of an aligned series Such an operation allows a misalignment at one point in the series to be easily fixed For example suppose a small offset existed in the middle of the series but all the sections above the offset were aligned and all the section below the offset were also aligned Fixing the offset by moving the upper section would now cause this section to be misaligned with the next higher section By propagating the same movement to all higher sections the entire series could be put into alignment NOTE There is no undo for Propagate Reconstruct v1 1 0 0 124 Chapter 10 Alignments and Movements The Repeat menu item is only available when an unlocked section or a selected item is available for movement whereas the Propagate operation can be applied anytime after a movement has been made This is because the Propagate operation applies to entire sections and the sections do not have to be unlocked first Repeating Movement Sequences When the keyboard is used to move a trace or domain only the last keyboard increment is saved for repetition with Repeat or Propagate but it is sometimes desired to repeat a sequence of keyboard movements A sequence can be captured using the Record submenu of the Movement menu Selecting Start from this submenu clears the recording buffer and prepares for accumulating movements Any subsequen
254. t will be possible to reverse the process and copy the subfolder traces back into the main folder if you want to reconstitute the whole dataset as one series How can I create a local copy of the Users Manual Upgrade to the latest version of RECONSTRUCT and download the manual chm file from the Users Group http tech groups yahoo com group reconstruct_users into the RECONSTRUCT program files subfolder If you re looking for the old PDF manuals see the Older Versions folder in the files section of the Users Group How should I reference the RECONSTRUCT software in my paper Please cite the paper Fiala JC 2005 Reconstruct a free editor for serial section microscopy J Microscopy 218 52 61 Reconstruct v1 1 0 0 155 Appendix 1 Images What image file formats does RECONSTRUCT accept See Chapter 3 RECONSTRUCT currently supports several common single image file formats including Windows Bitmaps JPEG TIFF and GIF The complete set of acceptable file formats is determined by the image input output library developed by Andy Key see Credits below Acceptable formats include Windows and OS 2 bitmaps BMP VGA BGA RLE DIB RL4 RL8 except for CCITT G3 MH Fax compressed and 24 bit RLE files CompuServe GIF files GIF JPEG File Interchange Format files JPG JPEG JPE TIFF files CTIE TIFF with 1 4 8 and 24 bits per pixel Truevision Targa Vista bitmaps TGA VST AFI ZSoft PC Paintbrush Image format
255. tation will now be about the midpoint of the 2 objects 4 Delete the first object Scene rotation now will still be about the midpoint of the 2 objects rather than just the one remaining Reset the scene Rotation remains at the 2 object midpoint 5 Clear the scene 6 Add the 2nd object to the scene Scene rotation is still at the midpoint 7 Reset the scene Scene rotation is now at the center of the 2nd object alone Why does the program crash when I open or interact with the 3D Scene See Chapter 12 A common culprit is the OpenGL implementation in your video driver OpenGL is used by RECONSTRUCT to display the 3D Scene You may need to update your video driver recommend first repeating the same operation on a different machine to see if it works there If it works fine then the video driver is the prime suspect Why does my object appear as only lines in the 3D Scene If you want a surfaced object select that option in the 3D tab of the Series Options dialog Why can t smooth my reconsiruction in 3D Studio MAX Try generating your 3D Scene using Face Normals Series Options 3D tab instead of Vertex Normals While Vertex Normals generate a smoother picture in the 3D Scene window they prevent 3D Studio MAX from smoothing between faces Reconstruct v1 1 0 0 164 Appendix 1 How can I record save a video sequence of my rotating 3D Scene See Chapter 12 One method is to simply record the screen display using another
256. ten and tested under Microsoft Windows XP on a Dell Optiplex GX260 Pentium 4 2 GHz computer with 512 Mb of RAM The RECONSTRUCT binary executable is compiled for Pentium compatible processors and the application relies entirely on the Win32 libraries for interacting with the computer s user interface RECONSTRUCT will therefore run on any Pentium compatible computer that supports Win32 Operating System RECONSTRUCT will run on all Microsoft Windows operating systems Windows 95 Windows 98 Windows 2000 Windows NT Windows XP and Vista RECONSTRUCT will run under other operating systems provided a Win32 emulator translator is installed A Win32 translation layer for X Windows such as WINE www winehq com translates the Win32 API calls from RECONSTRUCT into the equivalent X Windows operations WINE is available for a variety of operating systems including GNU LINUX FreeBSD and Solaris Users have verified WINE for running RECONSTRUCT under Mandriva Linux w KDE 3 3 2 In addition the RECONSTRUCT binary may run on Virtual PC Apple s Pentium Windows emulator OpenGL OpenGL libaries are required for previewing and saving 3D objects The OpenGL libraries provide a software interface to the computer s graphics hardware OpenGL is shipped standard with every version of Windows 95 98 2000 NT XP Vista and should work with RECONSTRUCT without any additional configuration For more information on OpenGL see Chapter 12
257. tension Each image in the sequence is generated by rotating the scene by the Horizontal and Vertical increments specified by the user When either the total Horizontal angle or the total Vertical angle exceeds 360 the image sequence is terminated and the resulting final orientation of the 3D scene is displayed on screen Any positive or negative Horizontal or Vertical increment can be specified but no more than 999 image files will be generated Scene Information The number of data elements that compose a scene determines the speed of rendering the size of VRML files and the complexity of future scene processing Therefore it is often desirable to reduce the total number of elements in a 3D Scene The total number of elements including vertices line segments triangles and normal vectors is tallied in the Scene Info dialog box Fig 12 3 To reduce the number of vertices and triangles it is necessary to reduce the number of trace segments prior to generating the 3D Reconstruct v1 1 0 0 149 Chapter 12 The 3D Scene representation This can be done using the Simplify command Chapter 8 Traces but note that such changes are permanent so you may want to make copy of any objects before you Simplify them scene mmo a Scene contains 1 Objects 264 Vertices 532 Normal vectors 0 Line segments 532 Triangles Figure 12 3 The Scene Info dialog box reports the total number of scene elements including those not visible due to
258. tes relative the specified movement center The center of the movement can be automatically set to the center of the selected Reconstruct v1 1 0 0 123 Chapter 10 Alignments and Movements elements by using the Set to Center button This movement center point is used for all subsequent keyboard movements as well Undoing Movements Movements of a selected trace or domain or of an unlocked section can be undone by using the Undo item from the Section menu or equivalently Ctrl Z as described in Chapter 6 Sections Each incremental movement is pushed onto the undo stack so that multiple undos will back up through a movement sequence The state of the section prior to any changes can be recovered by the Reset command To move a domain it must first be selected from the section by using the domain list or the domain selection tool Chapter 7 Domain Images An undo stack is created for a selected domain so that keyboard movements can be undone Although the undo stack has a limited depth the original position of the domain is retained at the bottom of the stack Backing up through the entire stack will eventually lead to the original position the one prior to selection of the domain This starting position can also be restored by using the Reset item from the Section menu Once the domain is deselected the movements are no longer undoable However the entire domain change can be undone by using Undo on the section In rare circumstanc
259. tion Image domains without movements will be displayed somewhat faster than rotated flipped or scaled images For images that are aligned prior to using RECONSTRUCT such as confocal stacks the ideal scenario is not to introduce any transformations movements of the images Lock the sections immediately after importing the images to prevent the inadvertent introduction of transformations Moving and Aligning Why don t the Arrow keys move my section images See Chapter 10 The size of the movement generated by pressing the arrow keys may depend on the pixel size of your section Try increasing the value of the movement parameters in the Series Options Movement tab and see if you can get a movement with the arrow keys Also make sure your sections are Unlocked so that movements are enabled Can RECONSTRUCT align my sections all by itself See Chapter 10 No it is not possible to execute an alignment without user input but in some cases it may be possible to automate some aspects of the process such as creating traces for point correspondences Then assuming you use the same fiducials on every section it is just a matter of repeating Ctrl S and Alt T N R on every section How can align one series to another See Chapter 10 If you have a rotational offset between series you can bring them into registration by propagating a corrective rotation throughout one of the series This will keep the alignment and just rotate everythi
260. tion are aligned Chapter 10 If the alignment is acceptable lock Ctrl L the section to prevent further movements Step 7 If the alignment is not acceptable use Ctrl Z to undo the movement Check the names and positions of the traces entered and modify or add traces as needed Go to Step 5 As a last resort delete all traces by entering Ctrl S followed by the Delete key Do this for each of the two sections and then start over with Step 3 Step 8 Once the alignment is acceptable you can delete the alignment traces from both sections If you decide to keep the alignment traces for later editing you will need to switch the color and name of future correspondence points to avoid confusion with the existing ones Switching to a new trace name ensures that traces with the same numbering will be created on both sections To switch correspondence point names simply select the second button on the Trace Palette Later when you repeat this step after aligning the next section go back to the first palette entry alternating between trace names after each alignment Step 9 Page Up or Down to the next section to be aligned and go to Step 3 Trace Profiles Information about sectioned objects is created by tracing the profiles of the objects on the sections To do this return to the first section in the series by using Page Down or by selecting the first section in the list generated from the List sections item of the Section menu
261. to one closed trace Traces to be merged should be closed and should overlap If some traces do not overlap the effect of merge will depend on the ordering of the selected traces Some non overlapping traces may be deleted while overlapping ones are merged Another possibility is that none of the traces will be changed Reconstruct v1 1 0 0 81 Chapter 8 Traces Reverse One can verify that a trace has a clockwise or counterclockwise orientation by checking the area measurement in the Trace List Clockwise traces have positive areas whereas counterclockwise traces have negative areas Typically traces are generated as clockwise boundaries of the exterior surface of an object Note a closed trace with a negative value assigned to it i e was originally traced counterclockwise as an interior boundary will surface as a hole Reverse changes the orientation of selected traces Apply the Reverse command from the Trace menu to reverse the order of a trace and change its characteristics Multiple traces can be changed this way from the Objects List to avoid editing section by section Simplify The Simplify command is used to reduce the complexity of traces Simplify provides on demand simplification of selected traces provided the Simplified attribute of the traces is false unchecked If a trace is already simplified then the Simplify command has no effect If no traces are selected that have the Simplified attribute unchecked then the S
262. touched so care should be used when using other Ctrl key sequences while holding the Wildfire Tool Automatic tracing of wildfires proceeds by using the centroid of the selected traces on the current section as ignition points of new wildfires on the next section If ignition is successful each wildfire grows to fill an area defined by the stop criteria The area of the resulting new trace is compared to the area of the trace on the previous section If this area differs by more than a certain percentage the wildfire propagation is aborted The percentage value can be specified in the AutoTracing tab of the Series Options By setting this value high enough say 999 the area test can be effectively turned off Tracing of very small regions can be prevented by setting the minimum number of square pixels a region should contain for tracing by wildfire in the Autotracing tab as well Reconstruct v1 1 0 0 92 Chapter 8 Traces Generating Wildfires throughout a Region By pressing and holding the left mouse button the Wildfire Tool can be used to drag out a rectangular region Fig 8 13 When the mouse button is released all points inside the rectangle are tested for wildfire ignitions Any regions satisfying the stop criteria are automatically traced using the region growing algorithm When these regional wildfires are generated firebreaks are respected but existing traces are not Wildfires generated by the regional method like any other
263. traces Ctrl O Open the Series Options dialog Ctrl P Switch to from precision cursor when drawing Ctrl R Repeat last movement Ctrl S Select all traces on section Ctrl U Undo all current changes to the section Ctrl V Paste traces into section Ctrl X Cut selected traces from section for later pasting Ctrl Z Undo section or domain changes Home Center section image in view Ctrl Home Zoom and center selected traces in view End Undo redo last zoom Insert Paste traces into section Delete Delete selected traces or domain Tools Window The Tools window Fig 4 2 is a floating toolbar that allows the user to select different modes of mouse input in the main window The toolbar can be opened or closed by selecting the Tools window item from the Program menu The Tools window can also be closed by selecting the close box on the right hand side of the title bar SPESON Hu N Figure 4 2 The Tools window This window should be visible at the top of the RECONSTRUCT main window Use the left mouse button to select a tool In this Reconstruct v1 1 0 0 23 Chapter 4 User Interface example the Wildfire tool button is depressed and so a description of the tool appears in the title bar A description of the tool appears in the title bar of the Tools window whenever a tool button is pressed Pressing the tool button also selects the tool for use in the main window The keyboard Table 4 4 can be used to change tools without mo
264. ure 8 12 The closed trace on the left has loops while the closed trace on the right does not Certain trace operations are not automatically followed by the simplification procedure Therefore traces with loops can be created even when automatic simplification is enabled A closed trace with loops can be created by drawing an open loop trace and then converting it to closed by changing its attributes Doing this does not eliminate the loops even when automatic simplification is turned on To eliminate the loops in a closed trace originally drawn as open apply the Simplify command from the Trace menu More information on the Simplify command is provided above Closed A trace can be either closed or open An open trace does not have the end of the trace connecting back to the start of the trace Generally the open vs closed characteristic is determined by the choice of drawing tool used to create the trace For example ellipses and rectangles are created as closed traces while lines are open The open vs closed characteristic of traces can be changed by using the Closed checkbox in the Attributes dialog Adding a Comment A comment string of up to 127 characters can be associated with each trace This comment can be displayed in the Trace List window The rules for comment strings are similar to those for trace names Illegal characters lt gt are replaced with underscores The special characters are not interpreted for
265. us an attempt to overwrite the series by giving the same name in the Series Name box will result in an error message To display only the image data in the section select None in the Traces option box To display traces in the same way they appear in the main window select the As displayed option This will produce a similar effect that seen in the Thumbnails window when the Display traces on thumbnails option is checked Hidden traces will not appear in the exported image and the Series Options to hide unhide all traces will effect whether traces appear Any changes to the current sections must be saved to the section file to be reflected in the exported images This includes traces which have just been hidden or unhidden An alternative method of displaying trace information on rendered sections is the Fill with border colors option With this option traced regions will be colored with the border color using the Colorize algorithm Colorize replaces only the most intense most white colors in the region with the border color Using very light pastel colors for the border colors will result in colored regions in which much of the underlying contrast is still visible as shown in Fig 6 7 This algorithm also allows coloring with subtle shades that would not give nice fills in the main window Like all fills the Colorize fills may give different results for different trace orders Fig 6 7 A trace can be moved to the top of the implicit or
266. utes the distance to the top of the section The former method gives more accurate z distances and 3D representations when sections are not uniform in thickness Setting z distances to the tops of sections provides an easy way to represent gaps of missing sections by giving a larger thickness to the sections at the top of the gaps When section thickness is uniform the only difference between the methods is a half thickness offset in z values The method of z distances calculation can be selected in the General Tab of the Series Options Physical gaps in the series can be represented by empty sections of an appropriate thickness For example suppose a series was cut at 50nm section thickness but only every fifth section was imported The sections were numbered 1 6 11 16 to reflect that every fifth section was used Assuming uniform section thickness these sections could all be given a thickness of 50nm New sections could be created at 2 7 12 with thickness 200nm to represent the gaps To get accurate object measurements with this method traces would need to be created in the gap sections so that the missing thickness is accounted for in the surface area and volume calculations see below Alternatively only sections 1 6 11 16 could be created but with thicknesses 50nm 250nm 250nm 250nm reflecting the gaps between these sections The z distances to the tops of these sections would then be 50nm 300nm 550nm 800nm etc No
267. very likely it cannot be solved to the satisfaction of an expert microscopist since the program would have to be an expert microscopist itself You may be able to obtain a degree of help in the segmentation process by using the Wildfire Tool The Wildfire Tool works well for some types of images but it does not work well for others e g transmission electron micrographs Also you may have to spend some time trying different settings for the Stop Criteria in the Autotracing tab Even then don t expect wildfire to segment perfectly with one mouse click But even if you have to click at mutiple points in your region and then Merge the results Wildfire can sometimes still save time and effort How do I draw without having the trace filled with a color See Chapter 8 Set the Fill Mode to None in the Names Colors options before drawing Is it possible to trace a single structure on a single section In my serial sections have very small structures that are embedded in a single section tried to trace the single structure but no image of the structure was observed in the reconstructed scene See Chapter 8 Yes If you generate the object as a Sphere in 3D or as Traces Trace Midpoints or Box it will be visible Go to the 3D tab in the Series Options How can I place text on my sections reconstructions A way to get text on sections is to create text traces and paste them where desired An arial font set of traces is available as a RECONSTRUCT
268. ving the mouse pointer To do this give the Tools window the focus using Ctrl Tab Then use the Tab key to move through the tool buttons The highlighted button can be selected with the Enter key The Tools window can be resized and placed anywhere on the screen The tool buttons will automatically reorganize to fit within the new window frame TABLE 4 4 Keyboard and Mouse Actions in Tools Window Command Action Tab Move to next tool button Enter Select highlighted tool Left mouse click Select the tool under the pointer Status Bar The Status bar Fig 4 1 can be opened or closed by selecting the Status bar item from the Windows submenu in the Program Menu The Status bar displays information about the data under the pointer when a series is open The left most element on the Status bar is a lock unlock icon that indicates whether the current section can be moved or aligned The Status bar also contains the number of the section being displayed the name of the trace nearest to the mouse pointer and the position of the pointer on the section in series units On a domain the Status bar displays the position of the pointer in image pixels When drawing the Status bar displays the name of trace being drawing and either position length or area information for the drawing increment Section List Window The Section List window is opened by selecting the List sections item from the Section menu Fig 4 3 The Section List displays t
269. were drawn This is to be expected Since these calibration lines are no longer useful they can be deleted from the calibration section An additional check on the calibration would be to redraw one or two calibration lines and verify that their length is now correct Align Sections Tissue that has been physically sectioned and then imaged must be realigned for accurate 3D measurements and visualizations Section images can be manually moved into relative alignment using keyboard commands Chapter 10 but it is usually much easier to align sections by specifying correspondence points and then using one of the Align commands from the Trace menu This option is outlined in the following steps It will only work if appropriate landmarks are visible in adjacent sections For best alignment results read Chapter 10 Step 1 Go to a section which will serve as the stationary reference Then page to the adjacent section that will be aligned to the stationary one Press the key to switch between the two sections Step 2 In the Trace menu select Palette to open the Trace Palette window Click on the first palette button and pick up the Stamp Tool from the Tools window It is assumed that this is the default palette for a new series such that the first palette button is an orange circle with the default name a Step 3 Use the Stamp Tool to place traces at points to be aligned Use the key to alternate between sections as points
270. with the Cancel button Shown are the default settings for a new series Reconstruct v1 1 0 0 38 Chapter 5 Series Wildcards and Displaying a List Wildcard characters are asterisk question mark and pound sign These characters allow a range of values to be displayed in a list when needed An asterisk matches any string of characters A question mark matches any single character The pound sign matches any single number For example D will limit the list rows to those that begin with a capital D The limit string D will list rows D01 D02 and D99 but not with other characters such as Da1 D100 or Dendrite It is possible in RECONSTRUCT to limit viewing structures of interest by manipulating object names and limit strings in the Lists tab of the Series Options For example if objects are named as follows No1D01 N01D01Synapse01 N01D01Synapse02 N01D01Synapse22 No1D02 N0O1D02Synapse01 N01D03 N0O1D03Synapse01 No2D01 N02D02 NO3D01 Then with the Limit string for the Object List set to N01 the Object List will only show the objects associated with neuron N01 To see all synapses on all neurons one can use the limit string N D Synapse To see all dendrites D on Neuron N02 use limit string NO2D and so on Movements The Movements tab contains the options related to keyboard movements described in Chapter 10 Movements and Alignments The initial values contained in thi
271. with the Scissors tools To try Simplifying your whole object open the Object List Highlight the object and select copy from the Create menu This will create an exact copy of the traces with the name Copy of You can later keep or delete this object without losing your existing work Highlight only the copy and select Modify gt Attributes and uncheck the Simplified flag in the dialog This will mark your object copy as not yet simplified Now set the Simplify on Demand parameters in the Autotracing tab For a pixelsize of 0 0084 microns try setting the resolution to 0 02 for starters If you re worried about your traces expanding by 0 02 microns then also check the Shrink back box Click OK Now with the object copy highlighted in the Object List run Simplify from the Modify menu You should see an immediate change in your trace on the section If not then you may have forgotten to uncheck the Simplified flag for the traces Finally try regenerating your surface by adding the copied simplified object to the 3D Scene Make sure you Clear the Scene of the original object first You can repeat the process with a larger resolution parameter to simplify the object even further How do I generate a 3D representation for an object that appears on a single section If you generate the object as a Sphere or as Traces Trace Midpoints or Box it will be visible in the 3D Scene See the 3D tab in the Series Options copied the same tra
272. wn in the main window but will appear in the trace list with a special H icon Fig 8 6 To unhide a trace simply select it from the Trace List or use Unhide from the list Modify menu All traces can be hidden at once whenever a section is first displayed by using the checkbox in the General tab of the Series Options To prevent a permanent change to the section make sure the Autosave checkboxes for sections are unchecked as well Subsequently paging through the series will result in sections being displayed without any visible traces Go back to the General tab and uncheck the Hide all traces when loading section box Subsequent paging will display the traces again If the traces remain hidden Reconstruct v1 1 0 0 87 Chapter 8 Traces then the sections were saved with Hidden attribute set on all traces To unhide them check the Unhide all traces when loading section box in the Series Options If both hide and unhide checkboxes are checked simultaneously all hidden traces will be revealed while all visible traces will be hidden This feature can be used to quickly switch between two sets of traces for the series Simplified Trace simplification occurs automatically after traces are drawn except with Open Point by Point drawing Trace simplification means that a trace is re pixelized to the resolution of the screen and then reduced to a set of line segments that match this path If the trace is closed all loops are removed
273. xtension is different ser for the series data file and a positive integer for each section data files The image data itself is not stored in the section data file For each domain in the section there is a reference to the corresponding image file The actual image data can be stored anywhere on the computer but generally it is best to store the image files in the same folder as the section data files This allows the entire series to be easily off loaded to CD ROM or other archival media and restored at a later date XML File Formats RECONSTRUCT uses XML eXtensible Markup Language www xml com for representing series and section data XML files are in plain ASCII text and are therefore readable by text editors XML can also be validated allowing errors in the files to be automatically detected A Document Type Definition DTD specifies the format for a valid Reconstruct v1 1 0 0 13 Chapter 3 Software Overview file For RECONSTRUCT there are two DTDs one for the section data file and one for the series data file By including a reference to the DTD in the header of the XML data file an XML validator can determine whether the syntax of the data file is correct The section DTD Fig 3 2 specifies the XML file format for all section data files The basic data types are defined by the ENTITY descriptions referenced later by the sign SFBool defines a single field Boolean either true or false SFColor is an RGB c
274. y algorithm that is applied to your trace to eliminate loops You can turn this off in the series options AutoTracing tab but this is not recommended as you may introduce loops that will seriously affect your measurements and 3D reconstruction For best results keep automatic simplification on and set the associated Simplify on Demand value to a negative number which forces simplification to be at screen resolution Then edit your traces when fully zoomed in on them so that the expansion of only one screen pixel will have a minimal effect on the trace In addition you can set the Shrink back option in the Autotracing tab to prevent expansion How do I know if my tracing is correct for Boissonnat surfacing See Chapter 11 A proper trace for Boissonnat surfacing should be listed next to a blue circle icon and a positive area This will always be the case when you use one of the drawing tools for closed traces with automatic simplification turned on Why is Auto simplify always checked in the AutoTracing tab when I start RECONSTRUCT See Chapter 8 You ll want Auto simplify to be on all the time to prevent creating traces with loops when you re drawing Because it s important not to make loops Auto simplify comes on everytime you restart RECONSTRUCT This is just to let you know that you shouldn t turn it off under normal circumstances How can fix the orientation of my traces See Chapter 8 You can verify the orientation by opening t
275. y black image from Export check that the area you want is what you re specifying in the Export dialog Try Exporting just one image setting the area you want in the main window and then using Make Images Resemble Current View Use the default pixel size and verify the output There was a bug prior to version 1 0 5 3 that caused a uniformly black image to be created when files were large This was caused by a failure in a Windows API call under XP when the image size got too big around 18 Mpixels This API call is used to draw traces onto the image so now if the image is too big and traces are requested As Displayed the program will export the image but may not show the traces Even when images are too big to use the API call you can still export traced areas using the Fill option in the Export Images dialog How can I speed up the paging and display of sections Two main factors determine how quickly sections are displayed the time it takes to read image files from the storage device and the number of screen pixels that contain image data The time it takes to read image files is influenced by the type of storage device the size of the files and the number of files that have to be read to display the visible portion of the section You can greatly increase the speed of paging through section by optimizing these factors To optimize file access times store image files on the local hard drive of the computer usually the C drive Avoid access
276. ze magnification parameter Alignment is realized by a non linear transformation associated with the image All this information is stored within the section In addition to the images and transformations lines within the section specify object profiles on the image data These traces are added to the sections by drawing with a mouse or a pen on a Tablet PC All the traces that share the same name belong to the same 3D object This convention allows the 3D objects to be extracted from the section files by grouping together all the traces with the same name Objects are thus represented by the traces in the sections Objects can be split apart or combined together simply by renaming the traces Data File Organization The data for each section images and traces is saved to a file indexed by the section number as the filename extension A series with 100 sections would have 100 section data files numbered sequentially 1 through 100 For a series named myseries the section data is stored in files named myseries 1 myseries 2 myseries 3 and so on to myseries 100 All the section data files are stored in the same folder or directory Information about the whole series e g option settings is stored in a separate series data file in this same folder The series data file has a ser file extension e g myseries ser Thus the data files associated with a series reside in the same folder and share the same filename Only the file e
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