User manual
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1. Microorganism N2 of copies of plasmid per PCR reaction Yersinia enterocolitica Escherichia coli enteropathogenic 100 Campylobacter jejuni Shigella Salmonella Clostridium difficile 1000 Campylobacter coli Aeromonas aerolisina Table 1 Number of copies of recombinant plasmid necessary to obtain 100 sensitivity for the detection of each of the microorganisms 20 Analytical specificity Specificity experiments were performed with 8 recombinant plasmids 2 showing that there is no nonspecific detection of other microorganisms Therefore it is considered that the analytical technique reaches a specificity of 100 Diagnostic parameters In order to determine the diagnostic parameters of the kit CLART EnteroBac comparative studies against stool culture characterization were performed 2 These comparisons were performed in collaboration with two Spanish hospitals and one Portuguese hospital e Microbiology Service of the University Hospital Germans Tr as i Pujol Badalona Barcelona e Microbiology Service of the University Hospital Ramon y Cajal Madrid A total amount of 334 stool samples were processed The following table illustrates the data of diagnostic sensitivity and specificity for the microbial species detected in the kit CLART EnteroBac CLART EnteroBac results were compared to2. otherwise false negatives might appear caused by intensity loss 16 CAR CLINICAL ARRAY READER Place the plate normally on the tray and the CAR will take and analyse the arrays automatically 8 RESULTS READING 17 The processing of the data obtained in each analysis is completely automatic The reading analysis equipment will provide a report with the results On the screen a table with three columns will appear The left column shows the microbial taxa suitable to be detected the central column will give either a positive or negative result for each microbial taxa and the right column will show if the amplification and DNA extraction controls have been passed 9 RESULTS INTERPRETATION One of the main drawbacks of genomic amplification is the utilization of poor quality DNA samples too short DNA fragments degradation of DNA or loss of DNA during extraction or the presence of DNA polymerase inhibitors e g haemoglobin remains of paraffin wax salts etc in the samples to be analyzed thus interfering with the genomic amplification and resulting in false negatives However the CLART EnteroBac eliminates false negatives via the use of internal controls within the same tubes Mix1 and Mix2 in which the sample is analyzed and that are amplified at the same time as the microbial DNA Included in the Mix 1 tube are specific oligonucleotides that amplify the extraction control DNA EC which is added to the sampl
3. 6 war Figure 2 Diagram of the visualization method Probes immobilized on the surface capture their complementary biotin labeled amplified products With the help of the biotin the conjugate binds in this case streptavidin HRP HorseRadish Peroxidase Due to the HRP action the o dianisidine substrate produces a precipitation on the hybridization site 3 KIT COMPONENTS AND STORAGE CLART EnteroBac Kit contains sufficient reagents for the extraction and analysis of DNA from 48 clinical samples These reagents are provided in two different boxes depending on the temperature they should be stored at All the reagents provided are stable under the appropriate conditions until the indicated expiration date 3 1 Amplification tubes Amplification tubes contain 45 ul of reaction mix They are sent ready to use and must be stored at 209C Only the required number should be thawed on ice at any given time while the remainders should be kept at 209C Two different amplification tubes are included in the kit Mix 1 White tube Amplification of Shigella spp Yersinia spp Campylobacter coli Campylobacter jejuni Escherichia coli EPEC Clostridium difficile and Aeromonas aerolisin toxin positive Internal amplification control and extraction control are included in this mix Mix 2 Green tube Amplification of Salmonella spp and Campylobacter spp Internal amplification control different that internal control from mix 1
4. for 15 minutes exactly After this incubation take the strip and remove the diluted buffer immediately with the pump Set the thermomixer at 25 C and no shaking for step 8 Remove the lid to speed up the cooling 15 7 Triple Washing Add straight away 200 ul of diluted solution well Mix well 10 to 15 times with the pipette and remove the diluted TL buffer with the pump without drying the array out Repeat this washing twice and leave the CS with 200 ul of TL buffer at RT for 5 10 minutes or until the thermomixer has reached 25 C It is very important that the diluted CJ buffer is completely washed off Any remaining buffer could react with the RE buffer producing an unspecific signal 8 Developing with RE buffer remove the diluted TL buffer without drying the array out and add 100 ul of RE buffer per well Incubate in the thermomixer at 25 C for 10 minutes without agitation Attention It is very important to use the thermomixer without agitation in this step 9 Remove the RE buffer with the pump The array must be dry at this time 10 CAR CLINICAL ARRAY READER Place the plate normally on the tray and the CAR will take and analyse the arrays automatically 7 3 2 autoclart visualization 1 Denaturation Use the thermocycler to denature the amplification tubes Place the amplification tubes in the thermocycler when this has reached 952C and incubate the tubes for 10 min Program the termocycler duri
5. 8 C Store between 4 2C and 8 2C 4 C 18 C Store between 30 and 18 30 C 2 DESCRIPTION CLART EnteroBac detects the presence of the following enteric bacteria causing diarrhea e Salmonella spp all the described species e Shigella spp S dysenteriae S Sonnei S boydii and S flexneri e Yersinia enterocolitica e Yersinia spp pestis pseudotuberculosis enterocolitica e Campylobacter spp C lari laridis upsaliensis jejuni coli e Campylobacter jejuni e Campylobacter coli e Escherichia coli enteropathogenic EPEC E coli enterohemoragic E coli enteroinvasive E coli enterotoxigenic and E coli enteropathogenic e Clostridium difficile B e Aeromonas spp producers of aerolisin Detection of the different microorganisms is achieved by PCR amplification of a specific regions coding for enterotoxins and virulence factors for the microorganisms included in the kit and for constitutive genes of Salmonella spp and Campylobacter spp Amplification was performed in two different types of PCR tubes Mix 1 tubes are white and allow the amplification and subsequent detection of Shigella spp Yersinia enterocolitica Yersinia spp Campylobacter coli Campylobacter jejuni Escherichia coli EPEC Clostridium difficile and Aeromonas aerolisin toxin positive Mix 2 tubes are green and contain everything needed for amplification and detection of Salmonella spp and Campylobacter
6. is included DNA Extraction control Genomic human DNA extraction control Note the kit includes an adhesive temperature indicator strip If a red colour appears in the viewing window of this temperature indicator strip the cold chain may have been broken and the kit should not be used 3 2 Visualization reagents WARNING Once received the microarrays should be stored at room temperature e Microarrays CS well strips including the specific probes These are delivered a sealed envelope After opening the envelope should be closed and stored at room temperature protected from light exposure RE Developer Store at 42C e Hybridization solution Store at 42C e DC Conjugate solvent Store at 42C e CJ Conjugate Store at 42C Centrifuge briefly before using e TL Washing buffer Store at 42C e Support and lid for the 8 well strip 3 3 Other components The following components are required for the capture and subsequent image processing CAR CLINICAL ARRAY READER which allows the reading and automatic interpretation up to 12 CS that means a total amount of 96 samples This platform is manufactured exclusively for GENOMICA kits use only SAICLART software developed by GENOMICA for image processing e CLART EnteroBac Software It is specific for CLART EnteroBac designed and validated by Installed and ready to use Figura 3 CAR CLINICAL ARRAY REA
7. part of the normal flora of the human digestive tract so it must be extremely careful when processing the clinical sample Wear gloves at all times Put on gloves with fingers touching the edge of them Clean work surfaces with 1096 diluted bleach Turn on laminar flow and UV light at least 20 minutes before extraction The preparation of the samples before extraction should be inside the cabin 5 3 Visualization precautions 1 Prevent the pipette tip or vacuum system from touching the bottom of the tube where the microarray is located 2 It is recommended to add all solutions to the side wall of the CS never directly to the bottom 3 Only add the hybridization solution immediately before adding the PCR products 4 Using CS there will be a slight residual volume left avoiding the array to dry out 5 After incubating with the conjugate it is very important to thoroughly wash the CS to avoid any remaining conjugate from reacting with the developer 6 Avoid bubbles on the surface of the microarray when adding the different solutions 7 Keep the bottom of the CS clean in order to avoid possible interference when reading the results 8 When visualizing the image in the reader confirm that position markers appear and that there are no bubbles or spots interfering with the reading If required clean the bottom of the tube with cellulose paper or gently tap the tube with your finger 6 SAMPLES STOOL SAMPLES The CLAR
8. spp The platform is based on low density microarray fixed at the bottom of an 8 well strip CLART Strip CS Fig 1 thus rendering a very efficient and easy to use system This technology allows the simultaneous detection of multiple molecular markers for diagnostic use while providing the controls needed to ensure the reliability of the results Moreover this system considerably simplifies the processes of hybridization and visualization when compared with classic microarray systems Figure 1 CLART Strip CS platform in the form of an 8 well strip Hybridization of the amplified PCR product is detected by generation of an insoluble precipitate at the sites of the microarray where the amplified products have been captured by the probes This fact is achieved using biotin labelled oligonucleotides Biotinilated amplification products hybridize to their specific probes attached to the microarray surface and become immobilised These immobilised biotinilated products are recognized by the streptavidin of a streptavidin peroxidase conjugate thus providing with peroxidase activity to the hybridised products Peroxidase activity will then metabolise o Dianisidine and produce an insoluble product which will precipitate in those places where hybridisation occurred Fig 2 Labelled products Probeson the ray E s Hybridization a T incubation with ennjugate 7 7 Conjugate 2 pe
9. used 7 3 Visualization Protocol for CLART Strip CS Specific recommendations before starting the visualisation process THE PROTOCOL DESCRIBED BELOW SHOULD BE FOLLOWED IN THE POST PCR AREA NEVER TAKE THE AMPLIFIED PRODUCT INTO THE PRE PCR AREA 1 At the beginning of the assay Switch on the CAR CLINICAL ARRAY READER in order to allow auto calibration of the device Input the sample IDs It is important to have the equipment ready to read the samples at the end of the assay so that they are not exposed to an excess of developing time 13 Switch the thermomixer at 562C at least 30 min before starting the hybridization process Keep the SH Hybridization Solution at room temperature Prepare the washing solution before each assay Do not use previous solutions or any remaining from previous assays Before starting the denaturing program wash the thermocycler with bleach diluted at 10 During the denaturing process place the amplification tubes separated from each other into the thermocycler Do not denature for more than 10 minutes It is not necessary to use filter tips during the visualization process only when adding amplified products to every well However a different tip for each sample and for every reagent must be used This precaution must also be undertaken for the TL buffer The 8 tip combs used with the aspiration pumps must be discarded after use or decontaminated with 10 bleach solution a
10. CLART GEN MICA CLART EnteroBac DETECTION AND MOLECULAR IDENTIFICATION OF ENTERIC BACTERIA CAUSING DIARRHEA FOR N VITRO DIAGNOSTICS CLART EnteroBac CLART CLART Strip CAR SAICLART AUTOCLART ENTEROBAC registered Trademarks of GENOMICA For further information and questions do not hesitate to visit www genomica com S A U Parque Empresarial Alvento Edificio Calle V a de los Poblados 1 12 planta 28033 Madrid Spain www genomica com Version 4 July 2015 CONTENTS 1 GLOSSARY OF TERMS 2 DESCRIPTION 3 KIT COMPONENTS AND STORAGE 3 1 Extraction purification and amplification reagents 3 2 Visualization reagents 3 3 Other components 4 ADDITIONAL MATERIAL 4 1 Reagents and material 4 2 Equipment 5 HANDLING PROCEEDINGS AND RECOMMENDATIONS 5 1 General recommendations 5 2 Extraction precautions 5 3 Visualization precautions 6 SAMPLES STOOL SAMPLES 7 WORKING PROTOCOLS 7 1 Automatic extraction of DNA from microorganisms present in stool samples 7 2 Amplification reaction 7 3 Visualization of amplified product 7 3 1 Manual visualization 7 3 2 autoclart visualization 8 RESULTS READING 9 RESULTS INTERPRETING 10 TECHNICAL AND OPERATIONAL SPECIFICATIONS 11 BIBLIOGRAPHY 1 GLOSSARY OF TERMS Please check handling instructions Expiry date IVD In vitro diagnostic device LOT Batch 25 C Store at room temperature 20 C
11. DER 4 ADDITIONAL MATERIAL 4 1 Reagents and materials Distilled water Disposable gloves Positive displacement or filtered pipette tips Bowl of chipped ice Sterile Eppendorf type tubes 1 5 ml Racks for 1 5 ml tubes Racks for 0 5 ml 0 2 ml tubes 4 2 Equipments autoclart Figure 4 The following equipment is needed for the automatic visualization phase It enables the automatic visualization of up to 12 CS that means a total amount of 96 samples Figure 4 autoclart Microcentrifuge Thermocycler Three adjustable micropipettes 1 20 20 200 and 200 1000 ul for use in the extraction laboratory Three adjustable micropipettes 1 20 20 200 and 200 1000 ul for use in the visualization laboratory Thermoblocks at 37 C 55 C and 1002C with an adjustable agitation source and compatible with Eppendorf like tubes Vortex Vacuum system 5 HANDLING PROCEEDINGS AND RECOMMENDATIONS Very important read this section carefully before beginning any work 5 1 General recommendations 1 The procedure should be performed in two physically separated areas This will avoid contamination of samples with previously amplified products Each area should have its own identified working materials pipettes tips tubes racks gloves etc which should never leave the assigned area e Pre PCR area samples are prepared and DNA is extracted Manipulations of stool samples must be done inside saf
12. T EnteroBac kit has been designed and validated for use on stool samples GENOMICA is not responsible for the results when using other samples 11 7 WORKING PROTOCOL 7 1 Automatic DNA extraction 1 Sample preparation before extraction performed out of the equipment Recommended for all automatic equipments e Transfer 1 g of stool sample and resuspend in 2 ml of saline solution sodium chloride 0 9 Centrifuge for 2 min at 1500rpm Note Manipulations of stool samples must be performed in safety hood e Take the supernatant into a sterile 1 5 ml tube and discard the pellet e Centrifuge at 13000rpm for 5 min to concentrate the bacterial pellet e Discard supernatant and resuspend in 1 5 ml of saline solution sodium chloride 0 9 Resuspend vigorously e Transfer 275 a new tube Add 25 ul of DNA CE extraction control e Transfer the mix to the extractor 2 Internal lysis and DNA extraction in automatic extractor equipment Follow the computer s user guide The elution volume selected is 110 ul This volume may vary depending on the automatic extractor instrumentation used If the device has several washing programs select the most comprehensive option e g Specific protocol B in Nuclisens easyMAG from Biomerieux 3 Once the extraction is made with the micropipette 110 ul of eluted DNA and placed Eppendorf tubes of 1 5 ml Use 5 for every tube of amplification and store the rest at 20 The estim
13. ance is found at the detection limit of the technique which range is set by the software for each type of microorganism 19 10 TECHNICAL AND OPERATIONAL SPECIFICATIONS 10 1 Known sources of interference Certain substances can interfere with the CLART EnteroBac kit They are mainly substances inhibiting enzyme mixing and thus inhibiting the amplification reaction The most common factors are as follows Use of unsuitable samples The analysis of any kind clinical samples other than those specified in the manual of the CLART EnteroBac kit as well as incorrect sampling can produce an inconclusive or invalid analysis result due to the lack of amplification as a consequence of sample shortage or inhibited reaction Inadequate storage of samples can influence the result of the analysis If samples are subject to conditions that can result in the degradation of their DNA the result of the analysis might lead to a false negative 10 2 Technical specifications Analytical parameters Analytical sensitivity Analytical sensitivity of microorganisms presented in the kit was determined via amplification of a series of DNA dilutions of recombinant plasmids with the cloned specific amplification fragment product including the complementary part of the detection specific probe for each microorganism The visualization step was performed in CLART Strip obtaining the results which are summarized in the following Table 1
14. are present in the sample Diagnostic reproducibilty and repeatability The obtained data are as follows e Reproducibility 91 8 96 n 49 samples e Repeatability 97 2 96 n 48 samples Samples have been processed from the extraction step Detection of multiple infections CLART EnteroBac results shows the presence of multiple infections two or more microorganisms in the 15 9 of the stool samples analyzed vs 2 4 of multiple infections detected in the stool samples by culture characterization supporting the higher sensitivity of CLART EnteroBac for detection of multiple infections vs classical methods of culture identification 22 BIBLIOGRAPHY 1 Alvarez Buesa J Castillo J and J Vila Microbiologic diagnostic of enteric diseases 2007 2 Ed 24 Eds Cercenado E and R Cant n Proceedings in clinical microbiology Spanish Society of Clinical Microbiology SEIMC 2 Manj n N Moscoso J Margolles Y Garcia M Morosini M I Salazar O Cospedal R Cant n R and M L Villahermosa 2011 Design and optimization of microarray based in vitro assay for the rapid identification of bacterial pathogens responsible of infectious diarrhea 2011 Infectious diseases and Clinical Microbiology Vol 29 33 34 15 Congress of the Spanish Society of Clinical Microbiology SEIMC Malaga Spain June 174 2011 23
15. ated minimum yield of the extraction of DNA required for successful amplification is 5 ng ul 7 2 Amplification reaction Specific recommendations for amplification e Work in pre PCR area always using hood and following the recommentations described in 5 1 e Add the DNA to the amplification tubes always in hood During the process keep the tubes separated on ice 12 1 Thaw reaction tube from Mix1 Mix2 for each sample and keep them on ice Do not use temperatures above 37 for thawing 2 Centrifuge the reaction tubes in a microcentrifuge so that all the liquid goes to the bottom if no adapters are available to hold the reaction tubes they can be placed in larger tubes with their caps removed 3 Add 5 ul of extracted DNA from each sample to Mix 1 and 5 ul of extracted DNA from each sample to Mix 2 tubes and resuspend several times with a micropipette tubes on ice 5 Program the thermocycler as follows Leave the 1 cycle 959C 5 min 45 cycles 95 30 sec 53 30sec 722C 1 1 72 10 49C maintained until tube collection 6 Start the program and place the Mix 1 and Mix 2 tubes in the thermocycler when the block is above 909C This minimises any non specific amplifications due to hybridization occuring below the reaction temperature The amplification process lasts about 3 and a half hours although this can vary depending on the thermocycler
16. dd the specified volume in the container once it has been tempered CJ Conjugate It s recommended to shortly spin the CJ before use The display shows the final volume of diluted CJ to add meaning that each mL indicated on the display should be prepared as follows 1 ml of DC Conjugate Diluent and 9 CJ reagent Vortex the diluted solution in order to mix it properly up RE Developer Add the RE volume indicated on the display 12 Close the door and press the knob to start the program 13 The device will start priming the system Then it will perform the pre washes of the CS and add the Hybridization Solution Once finished these steps the device will beep as a signal for the user to add the samples on the CS The autoclart will keep beeping until the user opens the door 14 For the addition of the samples on the CSs please carefully remove the plate from autoclart unit and add 5 ul of the denatured products from the white tube and the green tube both to the same well Mix it up carefully in order to not touch the array and place the microplate again on the autoclart Press the knob to continue the visualization process 15 Once the visualization process is finished the autoclart will beep indicating the end of the run Please carefully remove the microplate and proceed with the reading step on the CAR WARNING Once the visualization phase is finished on the autoclart the arrays should immediately be read on the
17. e before extraction The presence in the array of genomic DNA indicates that the extraction process has been adequate thus eliminating false negative results due to failures in the extraction To obtain correct results sample must be amplified in Mix 1 and Mix 2 tubes and amplified products must be visualized in the same array In every set of analysis a negative extraction control should be included to check that samples have not been contaminated during the extraction amplification and visualization thus giving rise to a false positive Each tube contains the following amplification primers Mix 1 e A pair of primers that amplify the extraction control e A pair of primers that amplifies a modified plasmid included in the amplification tube and used as a control for amplification of the PCR reaction e Target specific oligonucleotides designed to detect microbial pathogens 18 2 e A pair of primers that amplify modified plasmid included in the amplification tube and used as a control for amplification of the PCR reaction This plasmid is different from that included in the mix 1 tube e Target specific oligonucleotides designed to detect microbial pathogens The reaction tube has been designed in order to favour the amplification of microorganisms comparing to the other two controls Among these two controls the amplification of the genomic DNA will be performed preferentially comparing to the control of the ampl
18. ety cabin e Post PCR area products are amplified and then visualized Material in this area should never come into contact with material in the pre PCR area AFTER WORKING IN THE POST PCR AREA DO NOT RETURN TO THE PRE PCR AREA 2 Use gloves at all times It is recommended to change gloves quite frequently while it is mandatory to change them prior to start working in each of the above mentioned areas New gloves should be used for the preparation of the amplification tubes and every time DNA is added to them 3 Clean working areas laboratory benches hoods grids pipettes thermocycler thoroughly with 10 diluted disinfectant following every sample batch processing it is mandatory to disinfect all working areas preventing contaminations 4 Always use pipette tips containing a filter or use positive displacement pipettes to avoid contamination 5 Use disposable and autoclaved laboratory materials 6 Never mix reagents from two different tubes even though they belong to the same lot 7 Close reagent tubes immediately after use as this will avoid contamination 8 Dispose of micropipette tips after use 9 Separate the tubes from each other at all times during handling with special caution during extraction steps 10 GENOMICA does not assume any responsibility for those results obtained without following the directions in this manual 10 5 2 Extraction precautions Many of the microorganisms in CLART EnteroBac kit are
19. fter each assay Make sure that the vacuum pump works properly and do not let remaining liquid in the wells All the buffers must be thoroughly aspirated from the wells without touching the bottom 7 3 1 Manual Visualization 1 2 3 Denaturation use the thermocycler to denature the samples Adjust the program for 15 minutes at 952 C Place the amplified products into the thermocycler and incubate 10 minutes at 952 C After 10 minutes take off the tubes from the thermocycler still at 95 C and place them straight away on ice Prepare TL diluted Solution For 8 wells one strip add as follows e 1mlofTL solution 9 ml of distilled water This will make up 10 of diluted TL solution necessary for one strip Pre washing of CS Add 200 ul of diluted TL Solution to every array and pipet up and down 10 to 15 times Discard the diluted TL Solution using a pipette or preferably a vacuum system 14 4 This step is necessary in order to wash already packaged CSs before adding the sample The CS should not contain washing solution residues Under no circumstances should CSs be allowed to dry out for a long period of time Hybridization Hybridization solution SH must be heated at 569C in order to dissolve crystallized salts Add 100 of SH buffer avoiding the appearance of foam 5 ul of denatured product from Mix1 tube and Mix2 tube to each well Mix properly with the pipette avoiding touching the array and
20. ification reaction The reason for this design is Genomic DNA control would only be essential for confirming a negative result since it informs you that the DNA extraction from stool sample was conducted successfully PCR control would only be essential when no amplification in the tube is found because it will help to distinguish between an inhibited PCR and a sample where no DNA is present Under certain conditions e g high concentration of microbial DNA it could happen a negative amplification of the two controls or any of them displaying a reading NO SIGNAL There are two possibilities that may lead to a not valid result e Not valid extraction The amplification of the microbial target and or the amplification of the extraction and amplification controls may be disturbed due to the presence of amplification inhibitors or due to a mechanical mistake during extraction The process has completely to be repeated e Not valid amplification The microbial presence in one tube and the absence of amplification in the other indicates a valid extraction procedure but indicates the presence of a problem during amplification The amplification with both tubes has to be repeated There are three possibilities that may lead to an inconclusive result n those cases when replicates of an array probe are very different from each other n multiple infections of more than 3 bacteria When the signal intensity of non normalized absorb
21. incubate the strip covered with the transparent plastic lid in the thermomixer for 30 minutes at 56 C shaking at 550 rpm To obtain correct results amplified products in Mix 1 and Mix 2 tubes must be visualized in the same array Remove the CSs and discard the SH Solution using a pipette or a vacuum system Program the heating block at 309C and leave it running so that it can be used later on step 6 You can remove the lid from the heating block to let it cool down quicker Double washing use different tips for each well in both washes Wash twice the CS with 200 ul of diluted TL Solution in every well mixing 10 to 15 times with the pipette Discard the diluted TL Solution using a pipette or a vacuum system leaving a remanent volume In case the heating block has not reached a temperature of 309C when you get to this step leave the CSs filled with diluted TL Solution until the heating block reaches the necessary temperature Blocking and conjugate Prepare the diluted CJ solution 15 minutes before hybridization time is over and keep it on ice until its use It is recommended to spin the CJ buffer for 10 seconds before using Prepare the diluted CJ buffer For one strip 8 wells adds as follows e 1mlof DC buffer e 9ul of CJ buffer Vortex the diluted CJ solution briefly before use Remove the diluted TL buffer without drying the array out and add 100 ul of diluted CJ buffer to each well Incubate in the thermomixer at 30 C 550 rpm
22. ng 15 minutes in order to Remove the tubes when the 10 minutes are over Place the tubes immediately on ice 2 Switch on the autoclart unit and follow the instructions described on the screen 1 Close the door and press the knob 2 Select Program at the main menu 3 Select the assay EnteroBac test among those listed 4 Select the well of the strip where the run should start A1 or E1 in case the first 4 wells have already been processed 5 Select the number of samples to be processed With the autoclart the user can process from 4 up to 96 samples per run In any case samples must be multiples of four 6 Confirm that the number of samples and the start up well A1 or E1 are correct 7 Place the tip rack full on its position 8 Load the array microplate in the holder Make sure that the catch in fastened in order to clamp the plate down 9 Check that both the tip waste and the liquid waste containers are empty and on its proper position 16 10 Fill the DI bottle with 250 ml distilled water 11 Add each of the reagents to its specific container The autoclart calculates the specific volumes required according to the amount of samples indicated TL Washing buffer The volume showed in the display indicates the diluted washing buffer required In order to prepare the diluted washing buffer please dilute the TL reagent provided 1 10 into distilled water SH Hybridization solution Ready to use A
23. the results of the reference technique Stool culture characterization In case of discrepancies the results of sequencing were considered as the valid results In those specific cases where this information was not available the discrepancies were evaluated by Nested PCR and further DNA sequencing N 334 Sensitivity Specificity PPV NPV Campylobacter 90 0 100 0 100 0 94 0 Salmonella 83 2 99 0 98 3 89 4 Clostridium difficile 83 0 100 0 100 0 97 7 Escherichia coli enteropathogenic 100 0 100 0 100 0 100 0 Shigella 94 4 100 0 100 0 99 7 Table 2 Diagnostic sensitivity and specificity of CLART EnteroBac for each microorganism PPV positive predictive value NPV negative predictive value 21 n this validation 15 samples Aeromonas spp have been processed of them positive for aerolisin toxin targeted in this kit so the diagnostic parameters for this microorganism have been not determined e Due the low prevalence of Yersinia in the samples used in this validation only 5 samples with this microorganism have been processed being not enough to calculate reliable diagnostic parameters Diagnostic specificity The specificity was determined using negative stool samples and positive samples for the microorganisms included in the kit A value of 99 of specificity has been obtained which means no unspecific identification of other bacteria than those that
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