LOGIQ P6 Premium
Contents
1. Internal Hard Drive partition of 50 GB for image storage Focus number 8 steps External USB 2 0 hard drive support for import export DICOM Read SaveAs and MPEGVue Focus width 3 types Range focus On off General system parameters cont B Mode cont Power doppler imaging Compression 0 5 1 5 0 1 step PDI Map 13 types Line Density 4 steps CF PDI Flash Suppression 2 steps Line Density Zoom 4 steps Suppression 6 steps Frame average 8 steps Edge enhance 6 steps Scanning Size FOV or Angle probe dependent see probe specifications CF PDI Focus Depth default pre settable for 0 100 of ROI in depth 10 step CF PDI Acoustic Output 0 100 10 step CF PDI Angle Steer 0 20 Packet size 5 16 dependent on probe application Spatial Filter 6 steps Gray Scale Map 23 types Frame Average 7 steps Clear Map 23 types PRF 280 Hz 19 600 Hz Tint Map 10 types Power Threshold 0 100 5 step Gain 0 98 dB 2 dB step Gain 0 40 dB 0 5 dB step Dynamic Range 30 120 dB 3 dB step Wall Filter 7 steps depend on probe application Depth 1 30 cm 1 cm step depend on probe CF PDI Frequency Up to 3 steps depend on probe Rejection 6 steps Auto Line Density On off pre settable Frequency Up to 5 steps depend on probe Transparent 5 st2. Indicator lights identify activated keys Integrated recording keys for remote control of up to 2 peripheral devices and DICOM devices 8 TGC pods with re mapping functionality at any depth Monitor 17 inch TFT LCD XGA Format e Display size 1024 x 768 Tilt rotate translate e Tilt angle 40 90 e Rotate angle 90 e Translate horizontal 442 mm e Translate vertical 165 mm Digital brightness dim bright contrast adjustment Vascular Urological Small Parts and superficial Breast Pediatric and Neonatal Trancranial Endocavitary Intraoperative Transesophageal Scanning methods Electronic sector Electronic convex Electronic linear TEE multi plane sector array Real Time 4D Volume Sweep Transducer types Sector phased array Convex array Micro convex array Linear array Single CW pencil probes TEE multi plane sector array probes Bi plane Micro convex arrays Volume probes 4D Operating modes B Mode Coded Harmonic Imaging M Mode Color Flow Mode CFM Power Doppler Imaging PDI with Directional Map PW Doppler with High PRF M Color Flow Mode Anatomical M Mode option Anatomical M Color Mode option B Flow Mode option B Flow Color Mode option Coded Contrast Imaging option CW Doppler Mode optio
3. Left Ventricle Left Ventricle Mass LVPWd LVPWs Left Ventricle Volume Teichholz Cubic LVIDd LVI Ds Left Ventricle Internal Diameter LVIDd LVI Ds Left Ventricle Length LVLd LVLs Left Ventricle Outflow Tract Diameter LVOT Diam Left Ventricle Posterior Wall Thickness LVPWd LVPWs Left Ventricle Length LV Major Right Ventricle e Right Ventricle Outflow Tract Area RVOT Planimetry e Left Pulmonary Artery Area LPA Area e Right Pulmonary Artery Area RPA Area e Right Ventricle Internal Diameter RVIDd RVIDs e Right Ventricle Diameter Length RVD Ma e Right Ventricle Diameter Width RVD Mi e Right Ventricle Wall Thickness RVAWd RVAWs e Right Ventricle Outflow Tract Diameter RVOT Diam e Left Pulmonary Artery LPA e Main Pulmonary Artery MPA e Right Pulmonary Artery RPA System e Interventricular Septum Thickness IVSd IVSs e Inferior Vena Cava e Pulmonary Artery Diameter MPA e Systemic Vein Diameter Systemic Diam e Patent Ductus Arterosis Diameter PDA Diam Cardiac measurements calculations cont B Mode measurements cont Doppler Mode measurements e Pericard Effusion PEs e Patent Foramen Ovale Diameter PFO Diam e Ventricular Septal Defect Diameter VSD Diam e Interventricular Septum IVS e Fractional Shortening IVSd IVSs Tricuspid Valve e Tricuspid Valve Area TV Panimetry e Tricuspid Valve Annulus Diameter TV Annulus Diam M
4. PV Vmax e Pulmonic End Diastolic Pressure Gradient PR Trace e Pulmonic Insufficiency Peak Velocity PR Vmax e Pulmonic Insufficiency End Diastolic Velocity Prend Vmax e Pulmonic Valve Peak Velocity PV Vmax e Pulmonic End Diastolic Velocity PV Trace e Pulmonary Artery Diastolic Pressure PV Trace e Pulmonic Insufficiency Mean Pressure Gradient PR Trace e Pulmonic Valve Mean Pressure Gradient PV Trace e Pulmonic Insufficiency Mean Velocity PR Trace e Pulmonic Insufficiency Mean Square Root Velocity PR Trace e Pulmonic Insufficiency Velocity Time Integral PR Trace e Pulmonic Valve Mean Velocity PV Trace e Pulmonic Valve Mean Square Root Velocity PV Trace e Pulmonic Valve Velocity Time Integral PV Trace e Pulmonic Insufficiency Pressure Half Time PR PHT e Pulmonic Valve Flow Acceleration PV Acc Time e Pulmonic Valve Acceleration Time PV Acc Time e Pulmonic Valve Ejection Time PVET e Pulmonic Valve Pre Ejection Period PVPEP e QRS complex to end of envelope Q to PV close e Pulmonic Valve Acceleration to Ejection Time Ratio PV Acc Time PVET e Pulmonic Valve Pre Ejection to Ejection Time Ratio PVPEP PVET Right Ventricle e Right Ventricle Outflow Tract Peak Pressure Gradient RVOT Vmax e Right Ventricle Systolic Pressure RVOT Vmax e Right Ventricle Outflow Tract Peak Velocity RVOT Vmax e Right Ventricle Diastolic Pressure RVOT Trace e Right Ventricle Outflow Tract Velocity Time Inte
5. YS PICA Systolic Proximal Internal Carotid Artery g AS PICA Diastolic Proximal Internal Carotid Artery Yn YS DECA Systolic Distal External Carotid Artery g AS DECA Diastolic Distal External Carotid Artery Yn YS PECA Systolic Proximal External Carotid Artery g AS PECA Diastolic Proximal External Carotid Artery VERT Systolic Vertebral Velocity SUBCLAV Systolic Subclavian Velocity e Left Ventricle Width LV Minor e Left Ventricle Outflow Tract Area LVOT e Left Ventricle Area Two Chamber Four Chamber Short Axis LVA d LVA s e Left Ventricle Endocardial Area Width LVA d LVA s e Left Ventricle Epicardial Area Length LVAepi d LVAepi s e Left Ventricle Mass Index LVPWd LVPWs e Ejection Fraction Teichholz Cube LVIDd LVIDs e Left Ventricle Posterior Wall Fractional Shortening LVPWd LVPWs e Left Ventricle Stroke Index Teichholz Cube LVIDd LVIDs and Body Surface Area e Left Ventricle Fractional Shortening LVIDd LVIDs e Left Ventricle Stroke Volume Teichholz Cubic LVIDd LVIDs e Left Ventricle Stroke Index Single Plane Two Chamber Method of Disk LVI Dd LVIDs LVSd LVSs e Left Ventricle Stroke Index Single Plane Four Chamber Method of Disk LVI Dd LVIDs LVSd LVSs e Left Ventricle Stroke Index Bi Plane Bullet Method of Disk LVAd LVAs e Interventricular Septum IVS e Left Ventricle Internal Diameter LVI D e
6. e E8C e ML6 15 e E8CS e i739 e 8C e T739 e ERB e 6Tc e BE9CS e 4D3C L 35 e 4D5C L e 3Sp e 4DE7C e 5Sp e 4D8C Softener 4 steps Line Density 4 steps Line Density Zoom 4 steps Suppression 6 steps Edge Enhance 6 steps Gray Scale Map 23 types Clear Map 23 types Tint Map 10 types Gain 0 98 dB 2 dB step Dynamic Range 30 120 dB 3 dB step Rejection 6 steps Auto Line Density On off pre settable Frequency Up to 5 steps depend on probe Available on the following probes e 11L e E8CS e 8C e BE9CS e E8C e ERB Virtual convex Provides a Convex Field of View for Convex Linear and Sector probes Available on the following probes e 8L e ERB Linear e OL e 4C e 11L e 5CS e ML6 15 e 4D3C L e T739 e 4D5C L e 739 e 3CRF e 3S e 8C e 3Sp e E8C e 5Sp e 4D8C e 6Ic Automatic optimization Optimize B Mode B Flow image to improve contrast resolution Selectable amount of contrast resolution improvement low medium high Auto TGC in B Mode and Color adjusts overall and axial gain Optimize Spectral Waveform adjusts baseline invert PRF on live image and angle correction Algorithm works on focal zone number and depth changes Available on stored or live image Available in B Mode B Flow PW Doppler and Color Doppler B Flow color option Available on 8L 9L 11L ML 6 15 i739
7. e Mitral Valve Flow Acceleration MV Trace e Mitral Valve E Peak to A Peak Ratio A C and D E MV E A Ratio e Mitral Valve Acceleration Time MV Acc Time tral Valve Deceleration Time MV Dec Time tral Valve Ejection Time MV Trace tral Valve A Wave Duration MV A Dur tral Valve Time to Peak MV Trace tral Valve Acceleration Time Deceleration Time Ratio MVAcc Dec Time troke Volume Index by Mitral Flow MVA Planimetry MVTrace e Mitral Valve Area from Continuity Equation MVAPlanimetry LVOT Vmax MV Vmax e SS558 e Ww System e Pulmonary Artery Peak Velocity PV Vmax e Pulmonary Vein Velocity Peak A reverse P Vein A e Pulmonary Vein Peak Velocity P Vein D P Vein S e Systemic Vein Peak Velocity PDA Diastolic PDA Systolic e Ventricular Septal Defect Peak Velocity VSD Vmax e Atrial Septal Defect ASD Diastolic ASD Systolic e Pulmonary Artery Velocity Time Integral PV Trace e Systemic Vein Velocity Time Integral PDA Trace e Pulmonary Vein A Wave Duration P Vein A Dur e IsoVolumetric Relaxation Time IVRT e IsoVolumetric Contraction Time IVCT e Pulmonary Vein S D Ratio P Vein D P Vein S e Ventricular Septal Defect Peak Pressure Gradient VSD Vmax e Pulmonic to Systemic Flow Ratio Qp Qs Pulmonic Valve e Pulmonic Insufficiency Peak Pressure Gradient PR Vmax e Pulmonic Insufficiency End Diastolic Pressure Gradient PRTrace e Pulmonic Valve Peak Pressure Gradient
8. 3D Color Mode option e B CW option e B CFM PDI CW option e B PFD PW option Lateral scale marker Focal Zone markers Image depth Zoom depth Simultaneous Display with Bi plane probe e B CFM B Mode e Gain e Dynamic range e Imaging frequency e Edge enhance e Frame averaging e Gray Map e ATO On off Multi Image split screen e Live and or frozen e B B CFM or PDI e B B PFD option e Independent CINE playback e Quad screen format M Mode e Gain e Dynamic Range e Time Scale Zoom write read pan Colorized image e Colorized B e Colorized M e Colorized PW e Colorized CW option e Colorized B Flow option Time line display e Independent Dual B PW display e Display formats Top bottom selectable format Size 1 2 1 2 1 3 2 3 2 3 1 3 side side selectable format 1 2 1 2 1 3 2 3 0 1 e Switchable after freeze Doppler Mode e Gain e Angle e Sample volume depth and width e Wall filter e Velocity and or frequency scale e Spectrum inversion e Time scale e PRF e Doppler frequency Virtual Convex Crossxbeam Tissue Velocity Imaging TVI Mode Elastography and simultaneous B Elasto Display annotation Color Flow Mode e Line density e Frame averaging e Packet size e Color scale e Color velocity range and baseline e Color threshold marker e Color gain e PDI e Color scale inversion e Color dopp
9. AV Vmax e Aorta Proximal Coarctation Coarc Pre Duct e Aorta Distal Coarctation Coarc Post Duct e Aortic Valve Insufficiency Pressure Half Time AR PHT e Aortic Valve Flow Acceleration AV Trace e Aortic Valve Pressure Half Time AV Trace e Aortic Valve Acceleration Time AV Acc Time e Aortic Valve Deceleration Time AV Trace e Aortic Valve Ejection Time AVET e Aortic Valve Acceleration to Ejection Time Ratio AV Acc Time AVET e Aortic Valve Area according to PHT Mitral Valve Mitral Valve E Point to Septum Separation EPSS Mitral Valve Leaflet Separation D E Excursion Mitral Valve Anterior Leaflet Excursion D E Excursion Mitral Valve D E Slope D E Slope Mitral Valve E F Slope E F Slope Pulmonic Valve e QRS complex to end of envelope Q to PV close Right Ventricle e Right Ventricle Internal Diameter RVIDd RVIDs e Right Ventricle Wall Thickness RVAWd RVAWs e Right Ventricle Outflow Tract Diameter RVOT Diam e Right Ventricle Ejection Time RVET e Right Ventricle Pre Ejection Period RVPEP e Velocity Circumferential Fiber Shortening Vcf Left Ventricle e Left Ventricle Outflow Tract Peak Pressure Gradient VLOT Vmax e Left Ventricle Outflow Tract Peak Velocity LVOT Vmax e Left Ventricle Outflow Tract Mean Pressure Gradient LVOT Trace e Left Ventricle Outflow Tract Mean Velocity LVOT Trace e Left Ventricle Outflow Tract Mean Square Root Velocity LVOT Trace e
10. Displayed Imaging Depth 0 30 cm Minimum Depth of Field 0 2 cm probe dependent Selectable CINE Sequence for CINE Review Maximum Depth of Field 0 30 cm probe dependent Measurements calculations and annotations on CINE Playback Transmission focus e 1 8 Focus points selectable probe and application dependent Scrolling timeline memory Continuous Dynamic Receive Focus Aperture Cine Capture Function Multi Frequency Wideband Technology Digital Continuous CINE Capture Frequency Range 1 to 15 MHz Image storage 256 Shades of Gray Up to 259 dB composite Dynamic Range On board database of patient information from past exams 16 777 216 Hues of Color Storage Format DICOM Raw Data DICOM Still Image storage size e Gray image 300K to 1 3 MB e Color image 900K to 1 9 MB Adjustable Field of View FOV up to 170 depending on probe Image reverse Right left Image rotation 4 steps rotation 0 90 180 270 Multiframe Display Format Full size 4x4 and thumbnails B Mode Live image and stored image side by side display B M Acoustic output 0 100 2 step CD R storage 650 700 MB Image reverse On off DVD storage R 4 7 GB B Color 10 types Conversion to JPEG AVI SaveAs and WMV MPEGvue file formats Thermal Index TIC TIS TIB Softener 4 steps
11. Fetal Graphical Trending Growth Percentiles Multi Gestational Calculations 4 Fetal Qualitative Description Anatomical survey Fetal Environmental Description Biophysical profile Programmable OB Tables Over 20 selectable OB Calcs Expanded Worksheets GYN measurements calculations Right ovary length width height Left ovary length width height Uterus length width height Ovarian volume ENDO Endometrial thickness Ovarian RI Uterine RI Follicular measurements Summary reports Vascular measurements calculations Carotid Artery Lower extremity artery Lower extremity vein Upper extremity artery Upper extremity vein Abdominal Renal Artery Measurements calculations cont Vascular measurements calculations cont TCD SYS DCCA Systolic Distal Common Carotid Artery g AS DCCA Diastolic Distal Common Carotid Artery Yn YS MCCA Systolic Mid Common Carotid Artery 1s AS MCCA Diastolic Mid Common Carotid Artery Yn YS PCCA Systolic Proximal Common Carotid Artery g AS PCCA Diastolic Proximal Common Carotid Artery Yn YS DICA Systolic Distal Internal Carotid Artery g AS DICA Systolic Distal Internal Carotid Artery Yn YS MICA Systolic Mid Internal Carotid Artery g AS MICA Diastolic Mid Internal Carotid Artery Yn
12. Left Ventricle Posterior Wall Thickness LVPW Summary Reports Mean IMT Measurement Tools Cardiac measurements calculations B Mode measurements Mitral Valve e Mitral Valve Annulus Diameter MV Ann Diam e E Point to Septum Separation EPSS e Mitral Valve Area by Pressure Half Time MVA By PHT e Mitral Valve Area Planimetry MVA Planimetry Aorta e Aortic Root Diameter Ao Root Diam e Aortic Arch Diameter Ao Arch Diam e Ascending Aortic Diameter Ao Asc e Descending Aortic Diameter Ao Desc Diam e Aorta Annulus Diameter Ao Annulus Diam e Aorta Isthmus Ao Isthmus e Aorta Ao st junct Pulmonic Valve e Pulmonic Valve Area PV Planimetry e Pulmonic Valve Annulus Diameter PV Annulus Diam e Pulmonic Diameter Pulmonic Diam Aortic Valve e Aortic Valve Cusp Separation AV Cusp e Aortic Valve Area Planimetry AVA Planimetry e Trans AVA Right Atrium e Right Atrium Diameter Length RAD Ma e Right Atrium Diameter Width RAD Mi e Right Atrium Area RAA e Right Atrium Volume Single Plane Method of Disk RAAd e Right Atrium Volume Systolic Single Plane Method of Disk RAAs Left Atrium Left Atrium Diameter LA Diam LA Length LA Major LA Width LA Minor Left Atrium Diameter to AoRoot Diameter Ratio LA Ao Ratio Left Atrium Area LAA d LAA s LAESV A2C LAEDV A4C LAESV A4C Left Atrium Volume Single Plane Method of Disk LAEDV A2C
13. Mode measurements Aorta e Aortic Root Diameter Ao Root Diam Aortic Valve e Aortic Valve Diameter AV Diam e Aortic Valve Cusp Separation AV Cusp e Aortic Valve Ejection Time LVET Left Atrium Left Atrium Diameter to AoRoot Diameter Ratio LA Ao Ratio Left Atrium Diameter LA Diam Left Ventricle Left Ventricle Volume Teichholz Cubic LVIDd LVI Ds Left Ventricle Internal Diameter LVIDd LVI Ds Left Ventricle Posterior Wall Thickness LVPWd LVPWs Left Ventricle Ejection Time LVET Left Ventricle Pre Ejection Period LVPEP nterventricular Septum IVS Left Ventricle Internal Diameter LVI D Left Ventricle Posterior Wall Thickness LVPW Aortic Valve e Aortic Insufficiency Mean Pressure Gradient AR Trace e Aortic Insufficiency Peak Pressure Gradient AR Vmax e Aortic Insufficiency End Diastole Pressure Gradient AR Trace e Aortic Insufficiency Mean Velocity AR Trace e Aortic Insufficiency Mean Square Root Velocity AR Trace e Aortic Insufficiency Velocity Time Integral AR Trace e Aortic Valve Mean Velocity AV Trace e Aortic Valve Mean Square Root Velocity AV Trace e Aortic Valve Velocity Time Integral AV Trace e Aortic Valve Mean Pressure Gradient AV Trace e Aortic Valve Peak Pressure Gradient AR Vmax e Aortic Insufficiency Peak Velocity AR Vmax e Aortic Insufficiency End Diastolic Velocity AR Trace e Aortic Valve Peak Velocity AV Vmax e Aortic Valve Peak Velocity at Point E
14. OB Report format 5 Types Tokyo Univ Osaka Univ USA Europe and ASUM RS 232 serial data output need a converter cable EFBW 10 types Japan USA and Europe Tokyo Univ Osaka Univ Tokyo Shinozuka JSUM German Shephard Merz Hadlock Shephard Williams Brenner 348 Pre defined annotations and user programmable libraries annotations Body patterns 140 human types plus 14 animal types Customized comment home position Complete User Manual available on board through Help F1 User Manual and Service Manual are included on CD with each system A printed Manual is available upon request CINE memory image memory DICOM 3 0 option e Verify e Print e Store e Modality worklist e Storage commitment e Modality Performed Procedure Step MPPS e Media exchange e Off network mobile storage queue e Query retrieve supported on Centricity and other compatible vendors e Structured reporting compatible with LOGIQworks e Public SR Template e Media Store of SR e iLing capability CINE memory 256 MB Dual Image CINE display Scanning parameters Quad Image CINE display Digital Beam former CINE Gauge and CINE Image Number display 75 189 effective system processing channels CINE Review Loop Maximum frame rate 1652 F s CINE Review Speed 20 steps 10 20 30 40 50 60 70 80 90 100 150 200 300 400 500 600 700 800 900 1000
15. T739 4C 5CS and 4D3C L 4D5C L Probes Background On off Sensitivity PRI 14 steps Line Density 4 steps Edge Enhance 6 steps Frame Average 8 steps Gray Scale Map 23 types Clear Map 23 types Tint Map 10 types Dynamic Range 30 120 dB 3 dB step Rejection 6 steps Gain 0 98 dB 2 dB step Auto Line Density On off pre settable Dual Beam On off pre settable B Flow Color 8 color maps and 3 directional color maps Accumulation 8 steps General system parameters cont Elastography mode option Elasto Acoustic Output 0 100 Line Density Elasto Frequency Frame Average Axial Smoothing Later Smoothing Window Frame Reject Noise Reject Transparency Map Color and Gray Map Soft Compress Hard Compress Quality Graph On off Available on the following probes e 11L e ML6 15 Auto IMT option Automated measurement of the intimae media thickness of common carotid artery Result window displayed on screen Hybrid contrast imaging option Coded Harmonic Angio Available on 4C 5CS i739 and t739 probes e Tissue Background Selection 4 steps TruAgent Detection Available on 4C and 5CS probes e 2 frequencies on 4C and 5CS probes e Monitor Mode Coded Phase Inversion e 3 types Available on 4C and 5CS probes e 1 type Available on i739 t739 prob
16. 28 APAC GE Healthcare Asia Pacific 4 7 127 Asahigaoka Hino shi Tokyo 191 8503 Japan T 81 42 585 5111 imagination at work Not all features or specifications described in this document may available in all probes and or modes 1LOGIQ LOGIQ P6 Premium is designed for compatibility with commercially available ultrasound contrast agents Because the availability of these agents is subject to government regulation and approval product features intended for use with these agents may not be commercially marketed nor made available before the contrast agent is cleared for use 1CEUS cleared by the United States FDA only for LVO imaging 2014 General Electric Company All rights reserved General Electric Company reserves the right to make changes in specifications and features shown herein or discontinue the product described at any time without notice or obligation Contact your GE Representative for the most current information GE the GE monogram LOGIQ CrossxBeam TruScan B Flow LOGIQ View and InSite are trademarks of General Electric Company GE Medical Systems Ultrasound amp Primary Care Diagnostics LLC a General Electric company doing business as GE Healthcare DICOM is a registered trademark of the National Electrical Manufacturers Association Third party trademarks are the property of their respective owners GE Healthcare 9900 Innovation Drive Wauwatosa WI 53226 U S A www gehealthcare com Febr
17. ASO e Audio Volume Color Flow Mode optional e Gain e ROI Position Size e PRF e Wall Filter e Baseline e Angle Steer e Color e Line e Density Color e Frequency e Packet Size e Color Invert e Color Map e Threshold Frame e Average Focus e Position e ACE e Spatial Filter e CFM PWD Ratio e Duplex e Sweep Speed for Color M Mode e Anatomical Color M Mode 3D Acquisition e Scan Distance e Front to back side to side e ROI Style e Acquisition Mode e Display Format e Parallel Sweep e Scan Plane Post Processing w TruAccess Raw Data SRI 5 Selectable level Read Zoom up to 8x B M Mode e Gain e Dynamic Range e TGC e Image Reverse e Auto Tissue Optimize ATO e Compression e Image Rotation e Gray Map e Colorize e Frame Average lin loop images e Rejection e Sweep Speed for M Mode e Anatomical M Mode PW CW Mode e Post Gain e Full Timeline e Baseline Angle e Rejection e Correct Quick Angle e Map Gray e Correct Doppler Invert e Colorize e Display Format Sweep e Speed e Compression Dynamic Range e Auto Optimize ASO Color Flow Mode e Auto Color Optimization ACO e Baseline e Color Invert e Color Map e Threshold e Frame Average in loop images e Sweep Speed for Color M Mode e Anatomical Color M Mode Easy 3D option e Colorize e Gray Surface e Threshold Opacification e Scalpel e Mix Type 1 e Auto Movie e Render e Un
18. FD Flash Suppression 2 steps CF PDI PFD Focus Depth default pre settable for 0 100 of ROI in depth 10 step CF PDI PFD Acoustic Output 0 100 10 step High Definition Speckle Reduction Imaging SRI HD Provides 6 levels of speckle reduction Side by side display Available on all probes Compatible with ALL scanning modes Compatible with side by side display Pre and post processing TVI option Myocardial Doppler Imaging with color overlay on tissue image Available on all sector probes Tissue color overlay can be removed to show just the 2D image still retaining the tissue velocity information Anatomical M Mode free placement of M Mode generated from the cursor independent from the axial plane Q Analysis Multiple Time Motion trace display from selected points in the myocardium Real time 4D option Acquisition Modes e Real time 4D B Mode e Static 3D B Mode Max Volumes 43 8 Hz Visualization Modes e 3D Rendering diverse surface and intensity projection modes e Sectional Planes 3 Section planes perpendicular to each other Render Mode e Surface texture Surface Smooth max min and X ray average intensity projection Gradient Inversion Glass Body Mix Mode of two render Modes CF PDI PFD Angle Steer 0 20 Curved 3point Render start Packet Size 5 16 dependent on probe application 3D Movie
19. GE Healthcare LOGIQ P6 Premium TruScan Imaging Technology Product description The LOGIQ P6 Premium is a high end highly mobile and intuitive performance multipurpose color Doppler imaging system designed for Abdominal Obstetrics Gynecology Cardiology Musculoskeletal Vascular Urological Small Parts Superficial Pediatric Neonatal Transcranial and other applications General specifications System overview Dimensions and weight Applications Height Max 1525 1465 mm Abdominal Width 430 mm Gynecological Depth 640 mm Cardiac Weight Approx 80 kg 176 Ib Musculoskeletal Electrical power Voltage 100 120 Vac or 220 240 Vac Frequency 50 60 Hz Power Max 750 VA with built in and on board peripherals Maximum Thermal Output 2500 BTU hr Console design 3 active probe ports Integrated HDD Capacity 250 GB Integrated DVD R W Drive On board storage for peripherals Max 3 peripherals Wheels e Wheel diameter 12 5 cm e Integrated locking mechanism that provides rolling lock and optional caster swivel lock Probe holders removable for cleaning and washing Gel holder removable for cleaning and washing Air filters easily removable Front handle User interface Operator keyboard Keyboard width 43 cm Keyboard height 84 90 cm 17 mm spacing alphanumeric keyboard Ergonomic hard key operations
20. Hz Physical Foot Print 30 x 50mm Doppler Frequency 5 0 6 7 MHz B Mode Imaging Frequency 6 0 8 0 10 0 MHz Biopsy Guide Available Multi angle Grid reusable Harmonic Frequency 8 0 10 0 11 0 MHz Doppler Frequency 4 0 5 0 MHz Biopsy Guide Available Single angle Reusable stainless steel plastic Probes cont Inputs and outputs 4DE7C Video In Convex Volume Probe e S Video Applications OB Gyn Urology Lormponiig color Probe Band Width 4 11 MHz Video Out e S Video Number of Element 192 e Analog VGA Convex Radius 10 1 mmR e Composite color Volume Sweep Radius 11 6 mmR Audio stereo in FOV 133 Volume 146 x 90 Audio stereo out Physical Foot Print 27x6mm External microphone in B Mode Imaging Frequency 6 0 8 0 10 0 MHz Connectors Harmonic Frequency 8 0 10 0 11 0 MHz Footswitch Doppler Frequency 4 0 5 0 MHz USB for BW printer Biopsy Guide Available Single angle Reusable USB for Color Printer stainless steel USB for remote control P2D USB for DMC Non imaging Single CW Doppler Pencil Probe Additional USB 2 Applications Cardiac Ethernet Frequency 2 0 MHz Power for Peripherals 3 P6D Safety conformance Non imaging Single CW Doppler Pencil Probe The LOGIQ P6 P6 PRO are Applications Cardiac Vascular Pediatric Listed to UL 2601 1 by
21. Isovelocity Surface Area Radius of Aliased Point AR Radius e Proximal Isovelocity Surface Area Regurgitant Flow AR Trace e Proximal Isovelocity Surface Area Regurgitant Volume Flow AR Trace e Proximal Isovelocity Surface Area Aliased Velocity AR Vmax Mitral Valve e Proximal Isovelocity Surface Area Regurgitant Orifice Area MR Radius e Proximal Isovelocity Surface Area Radius of Aliased Point MR Radius e Proximal Isovelocity Surface Area Regurgitant Flow MR Trace e Proximal Isovelocity Surface Area Regurgitant Volume Flow MR Trace e Proximal Isovelocity Surface Area Aliased Velocity MR Vmax Cardiac measurements calculations cont Probes Combination Mode measurements 3CRF Aortic Valve Wide Band Micro convex Probe e Aortic Valve Area Ao Root Diam LVOT Vmax AV Vmax e Aortic Valve Area by Continuity Equation by Peak Velocity Ao Root Diam LVOT Vmax AV Vmax e Stroke Volume by Aortic Flow AVA Planimetry AV Trace e Cardiac Output by Aortic Flow AVA Planimetry AV Trace HR e Aortic Valve Area by Continuity Equation VTI Ao Root Diam LVOT Vmax AV Trace Left Ventricle e Cardiac Output Teichholz Cubic LVIDd LVIDs HR e Cardiac Output Two Chamber Single Plane Area Length Method of Disk Simpson LVAd LVAs HR e Cardiac Output Four Chamber Single Plane Area Length Method of Disk Simpson LVAd LVAs HR e Ejection Fraction Two Chamber Sin
22. Left Ventricle Outflow Tract Velocity Time Integral LVOT Trace e Left Ventricle Ejection Time LVET e Cardiac Output by Aortic Flow AVA Planimetry AV Trace e Stroke Volume Index by Aortic Flow AVA Planimetry AV Trace System e Interventricular Septum Thickness IVSd IVSs e Pericard Effusion PE d e Interventricular Septum IVS e Fractional Shortening IVSd IVSs Tricuspid Valve e QRS complex to end of envelope Q to TV close Mitral Valve e Mitral Valve Regurgitant Flow Acceleration MR Trace e Mitral Valve Regurgitant Mean Velocity MR Trace e Mitral Regurgitant Mean Square Root Velocity MR Trace e Mitral Regurgitant Mean Pressure Gradient MR Trace e Mitral Regurgitant Velocity Time Integral MR Trace e Mitral Valve Mean Velocity MR Trace e Mitral Valve Mean Square Root Velocity MR Trace e Mitral Valve Velocity Time Integral MR Trace e Mitral Valve Mean Pressure Gradient MR Trace e Mitral Regurgitant Peak Pressure Gradient MR Vmax e Mitral Valve Peak Pressure Gradient MR Vmax e Mitral Regurgitant Peak Velocity MR Vmax e Mitral Valve Peak Velocity MR Vmax e Mitral Valve Velocity Peak A MV A Velocity e Mitral Valve Velocity Peak E MV E Velocity e Mitral Valve Area according to PHT MV PHT Cardiac measurements calculations cont Doppler Mode measurements cont e Mitral Valve Flow Deceleration MV Trace e Mitral Valve Pressure Half Time PV PHT
23. Max 50 4 2 mm Physical Foot Print 50 4 x 3 MM B Mode Imaging Frequency 6 0 8 0 10 0 MHz Harmonic Frequency 8 0 10 0 12 0 MHz Doppler Frequency 5 0 6 7 MHz Steered Angle 0 5 10 15 20 Biopsy Guide Available Multi angle Reusable 9L Wide Band Linear Probe Applications Vascular Small Parts Probe Band Width 3 10 MHz Number of Element 192 FOV Max 44mm Physical Foot Print 44 x 10mm B Mode Imaging Frequency 5 0 7 0 9 0 MHz Harmonic Frequency 8 0 10 0 MHz Doppler Frequency 4 0 5 0 MHz Steered Angle 0 5 10 15 20 Biopsy Guide Available Multi angle Reusable 11L Wide Band Linear Probe Applications Small Parts Vascular Neonatal Pediatrics Probe Band Width 5 13 MHz Number of Element 192 FOV Max 38 4mm Physical Foot Print 38 x 10 mm B Mode Imaging Frequency 7 0 10 0 12 0 MHz Harmonic Frequency 10 0 12 0 13 0 MHz Doppler Frequency 5 0 6 7 MHz Steered Angle 0 5 10 15 20 Biopsy Guide Available Multi angle Reusable B Mode Imaging Frequency 9 0 11 0 13 0 15 0 MHz Harmonic Frequency 10 0 12 0 15 0 MHz Doppler Frequency 5 0 6 7 8 0 MHz Steered Angle 0 7 20 Biopsy Guide Available Multi angle Reusable T739 Intraoperative Wide Band Linear Probe Applications Intraoperative Small Pa
24. Print 60 x 18mm B Mode Imaging Frequency 2 0 3 0 4 0 5 0 MHz Harmonic Frequency 4 0 5 0 5 2 5 5 MHz Doppler Frequency 2 5 3 3 MHz Biopsy Guide Available Multi angle Reusable 5CS Convex Probe e Left Ventricle Volume Apical View Long Axis Method of Disk ppplemens Abdomen OB GYN Urology LVAd LVAs Probe Band Width 2 6MHz e Stroke Volume by Aortic Flow AVA Planimetry AV Trace Number of Element 128 Mitral Valve Convex Radius 60 MMR e Stroke Volume by Mitral Flow MVA Planimetry MV Trace FOV Max 58 e Cardiac Output by Mitral Flow MVA Planimetry MV Trace HR Physical Foot Print 60x 18 mm Pulmonic Valve e Stroke Volume by Pulmonic Flow PV Planimetry PV Trace e Cardiac Output by Pulmonic Flow PV Planimetry PV Trace HR B Mode Imaging Frequency 2 0 3 0 4 0 5 0 MHz Harmonic Frequency 4 0 5 0 5 2 6 0 MHz Tricuspid Valve e Cardiac Output by Tricuspid Flow TV Planimetry TV Trace HR Doppler Frequency 2 5 3 3 MHz Biopsy Guide Available Multi angle Reusable Report Writer On board reporting package automates report writing Formats various exam results into a report suitable for printing to a windows printer or reviewing on a standard PC Exam results include patient info exam info measurements calculations images comments and diagnosis Standard templates provided Cus
25. Spatial Filter 6 steps Scalpel 3D Cut tool Frame Average 7 steps PRF 280 Hz 19600 Hz Power Threshold 0 100 5 step Arbitration Threshold 15 steps pre settable Gain 0 40 dB 0 5 dB step Wall Filter 4 steps CF PDI PFD Frequency Up to 3 steps depend on probe Auto Line Density On off pre settable Transparent 5 steps Invert On off Accumulation 8 steps Display Format e Quad A B C Plane 3D e Dual A Plane 3D e Single 3D or A or B or C Plane Pre Processing Acoustic power output Write Zoom up to 8x B M Mode e Gain e Rotation Gray Map e TGC e Colorize Frame e Image Reverse Depth e Scan Area Auto e Optimize ATO e Dynamic Range Focus e Number Focus e Position Line Density e Frequency Image e Average Edge Enhance e Rejection Virtual e Convex Focus Width e Suppression B e Softener M D Cursor e Sweep Speed for M Mode General System Parameters cont Pre Processing cont PW Mode e Gain e Sample Volume Depth e PRF e Wall Filter e Baseline e Angle Steer e Angle Correct e Quick Angle Correct e Auto Angle Correct e Doppler Frequency e Doppler Invert e Display Format Sweep Speed e Full Timeline e Rejection Time e Resolution e Gray Map e Colorize e Duplex Auto Calcs e Trace Direction e Modify Calcs e Number of Average Cycles e Trace Method e Trace Sensitivity e Auto Optimize
26. a Nationally Recognized Test Lab Frequency 5 0 MHz Certified to CSA 22 2 60601 1 by an SCC accredited Test Lab CE Marked to Council Directive 93 42 EEC on Medical Devices Conforms to the following standards for safety e EN 60601 1 Electrical medical equipment e EN 60601 1 1 Electrical medical equipment e EN 60601 1 2 Electromagnetic compatibility e EN 60601 1 4 Programmable medical systems e EN 60601 1 6 Usability e IEC 61157 Declaration of acoustic output e EN 60601 2 37 Particular requirements for the safety of ultrasonic medical diagnostic and monitoring equipment e ISO 10993 Biological evaluation of medical devices e NEMA UD3 Acoustic output display MI TIS TIB TIC e EMC Emissions Group 1 Class B device requirements as per Sub clause 4 2 of CISPR 11 GE LOGIQ P6 P6 PRO are designed for compatibility with commercially available ultrasound contrast agents Because the availability of these agents is subject to government regulation and approval product features intended for use with these agents may not be commercially marketed nor made available before the contrast agent is cleared for use Contrast related product features are enabled only on systems for delivery to an authorized country or region of use GE Healthcare makes no claims concerning the safety or effectiveness of contrast agents Europe GE Healthcare Beethovenstr 239 D 42655 Solingen T 49 212 2802 0 F 49 212 2802
27. al Foot Print 16 x 14mm B Mode Imaging Frequency 2 0 3 0 4 0 5 0 MHz Harmonic Frequency 3 0 3 5 4 0 5 0 5 5 MHz Doppler Frequency 1 8 2 0 2 5 3 3 4 0 MHz CW Doppler Frequency 2 0 MHz Biopsy Guide Available Multi angle Reusable 5Sp Wide Band Phased Array Sector Probe Applications Cardiac Trancranial Abdomen Probe Band Width 4 0 10 0 MHz Number of Element 64 FOV Max 90 Physical Foot Print 10 x 10mm B Mode Imaging Frequency 4 0 5 0 6 7 8 0 MHz Harmonic Frequency 5 0 6 0 8 0 10 0 MHz Doppler Frequency 2 7 3 0 3 3 4 0 5 0 MHz CW Doppler Frequency 2 5 MHz Biopsy Guide Available Multi angle Reusable 8C Wide Band Micro convex Probe Applications Neonatal Pediatrics Probe Band Width 4 11 MHz Number of Element 128 Convex Radius 11 MMR FOV Max 133 Physical Foot Print 26 x 10 mm B Mode Imaging Frequency 6 0 8 0 10 0 MHz Harmonic Frequency 8 0 10 0 MHz Doppler Frequency 4 0 5 0 MHz Biopsy Guide Available None Probes cont 8L ML6 15 Wide Band Linear Probe Wide Band Linear Probe Applications Vascular Small Parts Applications Small Parts Vascular Probe Band Width 4 11 MHz Neonatal Pediatrics Number of Element 128 Probe Band Width 6 15 MHz FOV Max 33mm Number of Element 576 Physical Foot Print 38 x 10 mm FOV
28. ble Auto Line Density On off pre settable PW CF Ratio 1 2 4 Accumulation 8 steps Anatomical M Mode M Mode cursor adjustable at any plane Can be activated from a CINE loop from a live or stored image Available with Color Flow Mode M amp A capability PW CW Mode Maximum and Minimum Velocity Scales e Max 10 m sec e Min 5 cm sec Gray Scale Map 4 types Dynamic Range 24 60 4 dB step Base Line 5 95 11 steps SV Gate 1 2 3 4 5 6 7 8 9 10 12 14 16 mm Angle Correct 90 1 step Spectral Color 6 types General system parameters cont PW CW Mode cont Coded excitation PW Sweep Speed 8 steps Invert On off M PW Display Format V 1 3B V 1 2B V 2 3B H 1 2B H 1 4B TL only Duplex On off PW only PW Acoustic Output 0 100 10 step Spectral Averaging 4 steps Time Resolution 4 steps PW CF Ratio 1 2 4 Rejection 15 steps Gain 0 32 dB 1 dB step Wall Filter 5 1500 Hz 22 steps depend on probe application PW Angle Steer 0 5 10 15 20 PRF 640 29800 Hz with PW 50000 Hz with CW Sample Volume Depth 29 steps default pre settable CW Mode option is available on the following probes e 3S e 6Tc e 3Sp e P2D e 5Sp e P6D Coded harmonic imaging Available on the following probes e 3CRF e 8L 4C e 9L e 5CS e 11L
29. cro Network storage Quick save Elastography Easy 3D baby face vascular Advanced 3D with 3D landscape DICOM 3 0 connectivity LOGIQ View B Flow color Hybrid Contrast Imaging Anatomical M Mode Real Time 4D ECG ECG Cable Steered CWD Rear handle Drawer Probe cable hanger Urology probe holder Stress Echo package PFD Pulsatile Flow Detection Tissue Velocity Imaging TVI with Q Analysis 1 pedal and 3 Pedal Foot Switch with programmable functionality Remote control switch On board electronic documentation PDF format Media amp peripheral options Integrated mounting kits and remote controls provided for e B W digital thermal printer e Digital Color A6 Digital thermal printer e Digital Color A5 Digital thermal printer e DVD video recorder Display modes Live and stored display format Full size and split screen both w thumbnails For Still and CINE Review image format 4x4 and thumbnails For Still and CINE Simultaneous capability e B PW e B CFM or PDI e B M e B CFM M e Real time Triplex Mod B CFM or PDI PW e B Flow PW option e Dual B B B e Dual B CFM or PDI e B PFD option System overview cont Display modes cont Selectable alternating modes e B M e B PW e B CFM M e B CFM PDI PW e B Flow PW option e 3D Mode e
30. do e Texture e Reset Advanced 3D option e 3D Landscape e Visible Data e Colorize e Tile e Threshold Opacification e Active Data Re slice e Type 1 2 e Auto Movie e Group Planes e Rotate Undo e Scalpel Define Axis e Reset 3D Movie e Colorize e Define Start End e Pause e Auto Movie e Movie Speed e 360 Manual e Axis Measurements calculations 1 Abdomen and small parts measurements calculations e Aorta Diameter e Renal Length e Doppler Abdomen and Renal Artery Exam Cals e Thyroid 2 Urology measurements calculations e Bladder e Prostate e Renal e Testicle e STVOL e Pelvic Floor Study 3 Pediatrics measurements calculations e Hip Dysplasia e Alpha HIP e d D Ratio General B Mode Depth amp Distance Circumference Ellipse Trace Area Ellipse Trace Volume Ellipsoid Stenosis Area or Diameter Angle between two lines Measurements calculations cont General M Mode cont M Depth Distance Time Slope Heart Rate General Doppler measurements calculations Velocity Time A B Ratio Velocities Frequency Ratio PS Peak Systole ED End Diastole PS ED PS ED Ratio ED PS ED PS Ratio AT Acceleration Time ACCEL Acceleration TAMAX Time Averaged Maximum Velocity Volume Flow TAMEAN and Vessel Area Heart Rate PI Pulsatility Index RI Resistivi
31. eps Auto Line Density On off pre settable Invert On off Diff On off Accumulation 8 steps Steered Linear 15 Color flow mode M Mode Sweep speed 8 steps Base Line 0 100 10 step M Color 10 types Invert On off CF PDI Focus Depth default pre settable for 0 100 of ROI in depth 10 step M PW Display format V 1 3B V 1 2B V 2 3B H 1 2B H 1 4B TLonly B M Acoustic Output 0 100 2 step CF PDI Flash Suppression 2 steps Rejection 6 steps CF PDI Acoustic Output 0 100 10 step Dynamic Range 30 120 dB 3 dB step CF PDI Angle Steer 0 20 Edge Enhance 6 steps Packet Size 5 16 dependent on probe application Gray Scale Map 23 types Line Density 5 steps Clear Map 23 types Line Density Zoom 5 steps M Gain 0 98 dB 2 dB step Frame Average 7 steps PRF 280 Hz 19600 Hz Spatial filter 6 steps Gain 0 40 dB 0 5 dB step Wall filter 4 steps depend on probe application Scanning size FOV or Angle Probe dependent CF PDI Vertical Size mm of ROI Default pre settable CF PDI Center Depth mm of ROI Default pre settable CF PDI Frequency Up to 3 steps depend on probe Color Map 20 types depend on application Transparent 5 steps Color Threshold 0 100 5 step Arbitration Threshold 15 steps pre setta
32. es e Tissue Background Selection 4 steps Visulaization Contrast Imaging e Available on 4C 5CS i739 and t739 probes e Display Tissue image and Contrast Enhanced image simultaneously in split screen Max Enhancement On off Gray Scale Map 21 types Clear Map 21 types Contrast Clock Display Colorization On off Time Trigger Scan 0 3 amp 0 5 10 sec 0 5 sec step Time Intensity Curve Analysis Accumulation 8 steps SRI HD The LOGIQ P6 is designed for compatibility with commercially available ultrasound contrast agents Because the availability of these agents is subject to government regulation and approval product features intended for use with these agents may not be commercially marketed nor made available before the contrast agent is cleared for use Contrast related product features are enabled only on systems for delivery to an authorized country or region of use GE Medical Systems makes no claims concerning the safety or effectiveness of contrast agents LOGIQ view option Available on all probes Extended Field of View imaging For use in B Mode LOGIQ View Status Auto detection of scan direction Pre or post process zoom up to 10x Rotation Auto best fit on monitor Measurements in B Mode Up to 60 cm scan length Easy 3D option Colorize Threshold Opacification Render Texture Gray S
33. gle Plane Area Length Method of Disk Simpson LVAd LVAs e Ejection Fraction Four Chamber Single Plane Area Length Method of Disk Simpson LVAd LVAs Left Ventricle Stroke Volume Single Plane Two Chamber Four Chamber Area Length LVAd LVAs Left Ventricle Stroke Volume Single Plane Two Chamber Four Chamber Method of Disk Simpson LVIDd LVIDs LVAd LVAs Left Ventricle Volume Two Chamber Four Chamber Area Length LVAd LVAs Ejection Fraction Bi Plane Method of Disk LVAd LVAs 2CH 4CH Left Ventricle Stroke Volume Bi Plane Method of Disk LVAd LVAs 2CH 4CH Left Ventricle Volume Bi Plane Method of Disk LVAd LVAs 2CH 4CH Left Ventricle Stroke Index Single Plane Two Chamber Four Chamber Area Length LVSd LVSs and BSA Left Ventricle Volume Single Plane Two Chamber Four Chamber Method of Disk LVAd LVAs Applications Abdomen Urology Vascular Probe Band Width 2 0 4 0 MHz Number of Element 128 Convex Radius 20 MMR FOV Max 80 Physical Foot Print 28 x 15 mm B Mode Imaging Frequency 2 0 3 0 3 5 4 0 MHz Harmonic Frequency 3 6 3 8 4 0 4 2 MHz Doppler Frequency 2 5 3 3 MHz Biopsy Guide Available Single angle Reusable 4c Wide Band Convex Probe Applications Abdomen OB GYN Urology Vascular Probe Band Width 14 5 MHz Number of Element 128 Convex Radius 60 mmR FOV Max 58 Physical Foot
34. gral RVOTTrace e Right Ventricle Ejection Time RV Trace e Stroke Volume by Pulmonic Flow RVOTPlanimetry RVOTTrace e Right Ventricle Stroke Volume Index by Pulmonic Flow RVOT Planimetry RVOT Trace Tricuspid Valve e Tricuspid Regurgitant Peak Pressure Gradient TR Vmax e Tricuspid Valve Peak Pressure Gradient TV Vmax e Tricuspid Regurgitant Peak Velocity TR Vmax e Tricuspid Valve Peak Velocity TV Vmax e Tricuspid Valve Velocity Peak A TV A Velocity e Tricuspid Valve Velocity Peak E TV E Velocity e Tricuspid Regurgitant Mean Pressure Gradient TR Trace e Tricuspid Valve Mean Pressure Gradient TV Trace e Tricuspid Regurgitant Mean Velocity TR Trace e Tricuspid Regurgitant Mean Square Root Velocity TR Trace e Tricuspid Regurgitant Velocity Time Integral TR Trace e Tricuspid Valve Mean Velocity TV Trace e Tricuspid Valve Mean Square Root Velocity TV Trace e Tricuspid Valve Velocity Time Integral TV Trace e Tricuspid Valve Time to Peak TV Acc Dec Time e Tricuspid Valve Ejection Time TV Acc Dec Time e Tricuspid Valve A Wave Duration TV A Dur e QRS complex to end of envelope Q to TV close e Tricuspid Valve Pressure Half Time TV PHT e Stroke Volume by Tricuspid Flow TV Planimetry TV Trace e Tricuspid Valve E Peak to A Peak Ratio TV E A Velocity Color Flow Mode measurements Aortic Valve e Proximal Isovelocity Surface Area Regurgitant Orifice Area AR Radius e Proximal
35. ler frequency TGC Curve 1 Patient name First last and middle name each store 27 characters Up to 64 total characters displayed Acoustic frame rate Cine frame number Patient ID 31 characters Up to 27 total characters displayed VCR counter 2 4 Patient ID VCR status Age sex and birth date optional VCR playback counter Hospital name 23 characters Body pattern Date 3 types selectable MM DD YY DD MM YY YY MM DD Application name Time 2 types selectable e 24 hours e 12 hours Measurement results Operator message Gestational age from LMP EDD GA BBT Probe name Gray Map names Displayed acoustic output e TIS Thermal Index Soft Tissue e TIC Thermal Index Cranial Bone e TIB Thermal Index Bone e MI Mechanical Index Probe orientation of Power output Depth scale marker Biopsy guide line and or zone Heart rate General system parameters System setup 8 Pre programmable Categories USB 1 1 2 0 Memory Stick support for SaveAs and MPEGVue User Programmable Preset Capability Factory default preset data Network Storage support for import export DICOM Read SaveAs MPEGVue Languages English French German Spanish Italian Portuguese Russian Greek Swedish Danish Dutch Finnish Norwegian Japanese Connectivity Ethernet network connection
36. n PFD Mode option System overview cont Operating modes cont System options Tissue Velocity Imaging TVI Mode option Auto IMT 3D 4D Volume Modes option e 3D Static option e 4D Real time option e Elastography option System standard features Hard disk partition of 50 GB for image storage Without compression e Raw DICOM up to 33 000 images e DICOM image only HDD up to 71 000 images CINE Memory 256 MB Up to 60s Up to 1000 frames depending on depth FOV line density etc Real time Triplex mode at any depth and PRF Crossxbeam SRI Speckle Reduction Imaging Automatic Optimization ATO Auto Tissue Optimization Auto TGC ASO Auto Spectrum Optimization ACO Auto Color Optimization Coded Harmonic Imaging Coded Excitation Virtual Convex Patient information database Image Archive on CD DVD and hard drive Easy backup to media for data security TruAccess Raw Data processing and analysis Real time Automatic Doppler Calcs OB calcs Report designer Fetal trending Multi Gestational calcs Hip Dysplasia calcs Gynecological calcs Vascular calcs Cardiac calcs Urological calcs Renal calcs InSite capability remote service iLing capability remote service On board electronic documentation XPS format MPEGVue Key ma
37. rts Vascular Pediatrics Probe Band Width 4 12 MHz Number of Element 192 FOV Max 39 mm Physical Foot Print 39 x 10 mm B Mode Imaging Frequency 6 0 8 0 10 0 MHz Harmonic Frequency 8 0 10 0 12 0 MHz Doppler Frequency 5 0 6 7 MHz Steered Angle 5 10 15 20 Biopsy Guide Available None 1739 Intraoperative Wide Band Linear Probe Applications Intraoperative Small Parts Vascular Pediatrics Probe Band Width 4 12 MHz Number of Element 192 FOV Max 39mm Physical Foot Print 39 x 10mm B Mode Imaging Frequency 6 0 8 0 10 0 MHz Harmonic Frequency 8 0 10 0 12 0 MHz Doppler Frequency 5 0 6 7 MHz Steered Angle 5 10 15 20 Biopsy Guide Available None Probes cont 6Tc 4D3C L Wide Band Multiplane Transesophageal Phased Array Sector Probe Convex Volume Probe Applications Cardiac Applications Abdomen OB GYN Probe Band Width 3 7 MHz Probe Band Width 2 5 MHz Number of Element 64 Number of Element 192 FOV Max 90 Convex Radius 39 1 MMR B Mode Imaging Frequency 4 0 5 0 6 0 MHz Volume Sweep Radius 19 8 MMR Harmonic Frequency 6 0 MHz FOV 87 Volume 85 x 80 Doppler Frequency 4 0 5 0 MHz Physical Foot Print 60 x 13mm CW Doppler Frequency 4 0 MHz B Mode Imaging Frequency 3 0 4 0 5 0 MHz Biopsy Guide Available None Harmonic Frequency 4 0 4 5 4 8 5 0 MH
38. tomizable templates Probes cont E8C 3S Wide Band Micro convex Probe Wide Band Phased Array Sector Probe Applications OB GYN Urology Endocavity Applications Cardiac Trancranial Aodomen Probe Band Width 4 11 MHz Probe Band Width 1 5 3 5 MHz Number of Element 128 Number of Element 64 Convex Radius 11 MMR FOV Max 90 FOV Max 133 Physical Foot Print 19x 12mm Physical Foot Print 26 x 10 mm B Mode Imaging Frequency 2 0 2 5 3 0 MHz B Mode Imaging Frequency 6 0 8 0 10 0 MHz Harmonic Frequency 2 8 3 0 3 2 3 6 MHz Harmonic Frequency 8 0 10 0 MHz Doppler Frequency 1 7 2 0 2 2 MHz Doppler Frequency 4 0 5 0 MHz CW Doppler Frequency 2 0 MHz Biopsy Guide Available Single angle Disposable and Reusable E8CS Wide Band Micro convex Probe Applications OB GYN Urology Endocavity Probe Band Width 4 11MHz Number of Element 128 Convex Radius 9 MMR FOV Max 168 Physical Foot Print 15 x 10 mm B Mode Imaging Frequency 6 0 8 0 10 0 MHz Harmonic Frequency 8 0 10 0 MHz Doppler Frequency 4 0 5 0 MHz Biopsy Guide Available Single angle Disposable and Reusable Biopsy Guide Available Multi angle Reusable 3Sp Wide Band Phased Array Sector Probe Applications Cardiac Trancranial Abdomen Probe Band Width 1 5 5 5 MHz Number of Element 64 FOV Max 90 Physic
39. ty Index Real time Doppler auto measurements calculations PS Peak Systole ED End Diastole MD Minimum Diastole PI Pulsatility Index RI Resistivity Index AT Acceleration Time ACC Acceleration PS ED PS ED Ratio ED PS ED PS Ratio HR Heart Rate TAMAX Time Averaged Maximum Velocity PVAL Peak Velocity Value Volume Flow TAMEAN and Vessel Area OB measurements calculations Gestational Age by e GS Gestational Sac e CRL Crown Rump Length e FL Femur Length e BPD Biparietal Diameter e AC Abdominal Circumference e HC Head Circumference e APTD x TTD Anterior Posterior Trunk Diameter by Transverse Trunk Diameter e LV Length of Vertebra e FTA Fetal Trunk Cross sectional Area e HL Humerus Length e BD Binocular Distance e FT Foot Length e OFD Occipital Frontal Diameter e TAD Transverse Abdominal Diameter e TCD Transverse Cerebellum Diameter e THD Thorax Transverse Diameter e TIB Tibia Length e ULNA Ulna Length Estimated Fetal Weight EFW by e AC BPD e AC BPD FL e AC BPD FL HC e AC FL e AC FL HC e AC HC Calculations and Ratios e FL BPD e FL AC e FL HC e HC AC e Cl Cephalic Index e AFI Amniotic Fluid Index Measurements Calculations by Jeanty Merz Tokyo University Mercer Hansmann Erickson Hill Shephard Hadlock Hohler Campbell
40. uary 6 2014 DOC0771639
41. urface Scalpel Auto Movie Undo Reset Advanced 3D option Acquisition of Color data Automatic rendering 3D Landscape technology 3D Movie Main Mode CrossXBeam Provides Spatial Compounding Available on the linear and convex probes e 3CRF e ML6 15 e 4C e T739 e 5CS e BE9C e 8C e BE9CS e E8C e 4D3C L e E8CS e 4DE7C e 3L e 4D8C e 9L e ERB e 11L General System Parameters cont CrossXBeam SRI HD Provides 3 5 or 7 angles for Compounding on Linear probes 3 or 5 angles on Convex probes Compatible with side by side display Compatible with Color mode Timeline mode SRI HD Coded Harmonic Imaging Virtual Convex on linear probes Stress echo package option Advanced and flexible stress echo examination capabilities Provides exercise and pharmacological protocol templates e 6 default templates Template editor for user configuration of existing templates or creation of new templates Reference scan display during acquisition for stress level comparison dual screen e Baseline level Previous level selectable Raw Data continuous capture e Over 180 sec available Wall motion scoring bulls eye and segmental PFD option Available on all probes PFD Map 4 types e PFD directional pulsatile 2 types e PFD pulsatile non pulsatile 2 types PFD Type 6 steps PFD Scale 1 109 3 step CF PDI P
42. z Doppler Frequency 2 5 3 3 MHz BE9CS Wide Band Biplane Micro convex Probe Biopsy Guide Available Single angle Reusable stainless steel plastic Applications Urology Endocavity Probe Band Width 4 11MHz 4D5C L Number of Element 96 x2 Convex Volume Probe Convex Radius 9mmR Applications Abdomen OB GYN FOV Max 127 Probe Band Width 3 7MHz Physical Foot Print 20x 10mm Number of Element 192 B Mode Imaging Frequency 6 0 8 0 10 0 MHz Convex Radius 39 1 MMR Harmonic Frequency 8 0 10 0 MHz Volume Sweep Radius 19 8 mmR Doppler Frequency 4 0 5 0 MHz FOV 87 Volume 85 x 80 Biopsy Guide Available Single angle Reusable Physical Foot Print 60x 13mm stainless steel Disposable B Mode Imaging Frequency 4 0 5 0 6 0 MHz Harmonic Frequency 5 0 6 0 6 5 7 0 MHz ERB Doppler Frequency 2 5 3 3 MHz Wide Band Biplane Probe Biopsy Guide Available Single angle Applications Urology Probe Band Width 3 11 MHz 4D8C ERB Linear 3 10 MHz Micro Convex Volume Probe eee Te Applications Neonatal Pediatrics Nopibe pel Element o Probe Band Width 4 11 MHz FOMARIGNI A o Number of Element 192 Physical Foot Print ERB Linear 51 x 10 mm Conve RARIUS e ERB Convex 17 x 10 5 mm Volume Sweep Radius 80mm B Mode Imaging Frequency 6 0 8 0 10 0 MHz FOV 120 Volume 37 4 mm x 29 Harmonic Frequency 8 0 10 0 M
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