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The Verigene® Respiratory Pathogens Flex Nucleic Acid Test (RP Flex) is a multiplexed qualitative test intended for the simultaneous detection and identification of multiple viral and bacterial nucleic acids in nasopharyngeal swabs (NPS) obtained from individuals suspected of respiratory tract infection. The test is performed on the automated Verigene System utilizing reverse transcription (RT), polymerase chain reaction (PCR), and microarray hybridization to detect gene sequences of the following organism types and subtypes: | Viruses | Bacteria | |-------------------------------|-----------------------------------------| | Adenovirus | Bordetella parapertussis/bronchiseptica | | Human Metapneumovirus | Bordetella holmesii | | Influenza A | Bordetella pertussis | | Influenza A (Subtype H1) | | | Influenza A (Subtype H3) | | | Influenza B | | | Parainfluenza 1 | | | Parainfluenza 2 | | | Parainfluenza 3 | | | Parainfluenza 4 | | | Respiratory Syncytial Virus A | | | Respiratory Syncytial Virus B | | | Rhinovirus | | Detecting and identifying specific viral and bacterial nucleic acids from individuals exhibiting signs and symptoms of respiratory infection aids in the diagnosis of respiratory infection with other clinical and laboratory findings. The results of this test should not be used as the sole basis for diagnosis, treatment, or patient management decisions. Negative results in the presence of a respiratory illness do not preclude respiratory infection and may be due to infection with pathogens that are not detected by this test or lower respiratory tract infection that is not detected by an NPS specimen. Conversely, positive results do not rule-out infection with organisms not detected by RP Flex. The agent(s) detected may not be the definite cause of disease. The use of additional laboratory testing and clinical presentation may be necessary to establish a final diagnosis of respiratory infection. Clinical evaluation indicates a lower sensitivity specific to RP Flex for the detection of Rhinovirus. If infection with Rhinovirus is suspected, negative samples should be confirmed using an alternative method. Performance characteristics for Influenza A were established when Influenza A/H1 (2009 Pandemic) and A/H3 were the predominant Influenza A viruses in circulation. RP Flex may not detect novel Influenza A strains. If infection with a novel Influenza A virus is suspected based on current clinical and epidemiological screening criteria recommended by public health authorities, specimens should be collected with appropriate infection used specifically for novel virulent influenza viruses and sent to appropriate health authorities for testing. Viral culture should not be attempted in these cases unless a biosafety level (BSL) 3+ facility is available to receive and culture specimens.

The Verigene Respiratory Pathogens Flex Nucleic Acid Test (RP Flex) is a molecular assay that relies on detection of specific nucleic acid targets in a microarray format. For each of the bacterial or viral nucleic acid sequences detected by RP Flex, unique Capture and Mediator oligonucleotides are used, with gold nanoparticle probe-based endpoint detection. The Capture oligonucleotides are covalently bound to the microarray substrate and hybridize to a specific portion of the nucleic acid targets. The Mediator oligonucleotides have a region that binds to a different portion of the same nucleic acid targets and also have a sequence that allows binding of a gold nanoparticle probe. Specific silver enhancement of the bound gold nanoparticle probes at the capture sites results in gold-silver aggregates that scatter light with high efficiency and provide accurate detection of target capture. The RP Flex test is performed on the Verigene System, a "sample-to-result," fully automated, bench-top molecular diagnostics workstation. The System enables automated nucleic acid extraction from nasopharyngeal swabs (NPS) and detection of analyte-specific target nucleic acids. The Verigene System consists of two components: the Verigene Reader and the Verigene Processor SP. The Reader is the Verigene System's user interface and serves as the central control unit for all aspects of test processing, automated imaging, and result generation using a touch-screen control panel and a barcode scanner. The Verigene Processor SP executes the test procedure, automating the steps of (1) Sample Preparation and Target Amplification – cell lysis and magnetic bead-based bacterial and viral nucleic acid isolation and amplification, and (2) Hybridization- detection and identification of analyte-specific nucleic acid in a microarray format by using gold nanoparticle probe-based technology. Once the specimen is loaded by the operator, all other fluid transfer steps are performed by an automated pipette that transfers reagents between wells of the trays and finally loads the specimen into the Test Cartridge for hybridization. Single-use disposable test consumables and a self-contained Verigene Test Cartridge are used for each sample tested with the RP Flex assay. To obtain the test results after test processing is complete, the user removes the Test Cartridge from the Processor SP, and inserts the substrate holder into the Verigene Reader for analysis. Light scatter from the capture spots is imaged by the Verigene Reader and intensities from the microarray spots are used to make a determination regarding the presence (Detected) or absence (Not Detected) of a targeted nucleic acid sequence/analyte. This determination is made by means of software-based decision algorithm resident in the Verigene Reader.

The Verigene® Enteric Pathogens Nucleic Acid Test (EP) is a multiplexed. qualitative test for simultaneous detection and identification of common pathogenic enteric bacteria and genetic virulence markers from liquid or soft stool preserved in Cary-Blair media, collected from individuals with signs and symptoms of gastrointestinal infection. The test is performed on the automated Nanosphere Verigene System utilizing reverse transcription (RT), polymerase chain reaction (PCR), and array hybridization to detect specific gastrointestinal microbial nucleic acid gene sequences associated with the following pathogenic bacteria: - Campylobacter Group (comprised of C. coli. C. jejuni. and C. lari) . - . Salmonella species - Shigella species (including S. dysenteriae, S. boydii, S. sonnei, and S. flexneri) . - Vibrio Group (comprised of V. cholerae and V. parahaemolyticus) . - . Yersinia enterocolitica In addition, EP detects the Shiga toxin 1 gene and Shiga toxin 2 gene virulence markers. Shiga toxin producing E. coli (STEC) typically harbor one or both genes that encode for Shiga Toxins l and 2. EP is indicated as an aid in the diagnosis of specific agents of gastrointestinal illness, in conjunction with other clinical, laboratory, and epidemiological information; however, is not to be used to monitor these infections. EP also aids in the detection and identification of acute gastroenteritis in the context of outbreaks. Due to the limited number of positive specimens collected for certain organisms during the prospective clinical study, performance characteristics for Yersinia enterocolitica, Vibrio Group and Shigella species were primarily established with contrived specimens. Concomitant culture is necessary for organism recovery and further typing of bacterial agents. EP results should not be used as the sole basis for diagnosis, treatment, or other patient management decisions. Confirmed positive results do not rule out co-infection with other organisms that are not detected by this test, and may not be the sole or definitive cause of patient illness. Negative EP results in the setting of clinical illness compatible with gastroenteritis may be due to infection by pathogens that are not detected by this test or non-infectious causes such as ulcerative colitis, irritable bowel syndrome, or Crohn's disease.

The Verigene Enteric Pathogens Nucleic Acid Test (EP) is a molecular assay which relies on detection of specific nucleic acid targets in a microarray format. For each of the bacterial nucleic acid sequences detected by EP, unique Capture and Mediator oligonucleotides are utilized, with gold nanoparticle probe-based endpoint detection. The Capture oligonucleotides are covalently bound to the microarray substrate and hybridize to a specific portion of the nucleic acid targets. The Mediator oligonucleotides have a region which bind to a different portion of the same nucleic acid targets and also have a sequence which allows binding of a gold nanoparticle probe. Specific silver enhancement of the bound gold nanoparticle probes at the capture sites results in gold-silver aggregates that scatter light with high efficiency and provide accurate detection of target capture. The EP test is performed on the Verigene System, a "sample-to-result", fully automated, bench-top molecular diagnostics workstation. The System enables automated nucleic acid extraction from unformed stool specimens (liquid or soft) preserved in Cary-Blair media and detection of bacterial-specific target DNA. The Verigene System consists of two components: the Verigene Reader and the Verigene Processor SP. The Reader is the Verigene System's user interface, which serves as the central control unit for all aspects of test processing, automated imaging, and result generation using a touchscreen control panel and a barcode scanner. The Verigene Processor SP executes the test procedure, automating the steps of (1) Sample Preparation and Target Amplification – cell lysis and magnetic bead-based bacterial DNA isolation and amplification, and (2) Hybridizationdetection and identification of bacterial-specific DNA in a microarray format by using gold nanoparticle probe-based technology. Once the specimen is loaded by the operator, all other fluid transfer steps are performed by an automated pipette that transfers reagents between wells of the trays and finally loads the specimen into the Test Cartridge for hybridization. Single-use disposable test consumables and a self-contained Verigene Test Cartridge are utilized for each sample tested with the EP assay. To obtain the test results after test processing is complete, the user removes the Test Cartridge from the Processor SP, and inserts the substrate holder into the Reader for analysis. Light scatter from the capture spots is imaged by the Reader and intensities from the microarray spots are used to make a determination regarding the presence (Detected) or absence (Not Detected) of a bacterial nucleic acid sequence/analyte. This determination is made by means of software-based decision algorithm resident in the Reader.

The Verigene® Gram Negative Blood Culture Nucleic Acid Test (BC-GN), performed using the sample-to-result Verigene System, is a qualitative multiplexed in vitro diagnostic test for the simultaneous detection and identification of selected gram-negative bacteria and resistance markers. BC-GN is performed directly on blood culture media using blood culture bottles identified as positive by a continuous monitoring blood culture system and which contain gram-negative bacteria as determined by gram stain. BC-GN detects and identifies the following: | Bacterial Genera and Species | Resistance Markers | |------------------------------|--------------------| | Acinetobacter spp. | CTX-M (blaCTX-M) | | Citrobacter spp. | KPC (blaKPC) | | Enterobacter spp. | NDM (blaNDM) | | Proteus spp. | VIM (blaVIM) | | Escherichia coli1 | IMP (blaIMP) | | Klebsiella pneumoniae | OXA (blaOXA) | | Klebsiella oxytoca | | | Pseudomonas aeruginosa | | BC-GN will not distinguish Escherichia coli from Shigella spp. (S. dysenteriae, S. flexneri, S. boydii, and S. sonnei) BC-GN is indicated for use in conjunction with other clinical and laboratory findings to aid in the diagnosis of bacterial bloodstream infections; however. is not used to monitor these infections. Sub-culturing of positive blood cultures is necessary to recover organisms for antimicrobial susceptibility testing (AST), for identification of organisms not detected by BC-GN, to detect mixed infections that may not be detected by BC-GN, for association of antimicrobial resistance marker genes to a specific organism, or for epidemiological typing.

The Verigene Gram Negative Blood Culture Nucleic Acid Test (BC-GN) is a molecular assay which relies on detection of specific nucleic acid targets in a microarray format. For each of the bacterial nucleic acid sequences detected by the BC-GN test, unique Capture and Mediator oligonucleotides are utilized, with gold nanoparticle probe-based endpoint detection. The Capture oligonucleotides are covalently bound to the microarray substrate and hybridize to a specific portion of the nucleic acid targets. The Mediator oligonucleotides have regions which bind to a different portion of the same nucleic acid targets and also have sequences which allow binding of gold nanoparticle probes. Specific silver enhancement of the bound gold nanoparticle probes at the capture sites results in gold-silver aggregates that scatter light with high efficiency and provide accurate detection of target capture. The BC-GN test is performed on the Verigene System, a sample-to-result, fully automated. bench-top molecular diagnostics workstation consisting of two components: the Verigene Reader and the Verigene Processor SP. For the BC-GN test, the Verigene System allows automated nucleic acid extraction from positive bacteria-containing blood culture specimens and target detection of bacteria-specific DNA. The BC-GN test utilizes single-use disposable test consumables and a self-contained Verigene Test Cartridge for each sample tested. The Reader is the Verigene System's central control unit and user interface, and, with a touch-screen control panel and barcode scanner, guides the user through test processing. imaging, and test result generation. The Verigene Processor SP executes the test procedure. automating the steps of (1) Sample Preparation- cell lysis and magnetic bead-based bacterial DNA isolation from blood culture samples, and (2) Hybridization-- detection and identification of bacterial-specific DNA in a microarray format by using gold nanoparticle probe-based technology. Once the specimen is loaded by the operator, all other fluid transfer steps are performed by an automated pipette that transfers reagents between wells of the trays and loads the specimen into the Test Cartridge for hybridization. Single-use disposable test consumables and a self-contained Verigenc Test Cartridge are utilized for each sample tested with the BC-GN test. To obtain the test results after processing is complete. the user removes the Test Cartridge from the Processor SP, and inserts the substrate holder into the Reader for analysis. Light scatter from the capture spots is imaged by the Reader and intensities from the microarray spots are used to make a determination regarding the presence (Detected) or absence (Not Detected) of a bacterial nucleic acid sequence/analyte. This determination is made by means of software-based decision algorithm resident in the Reader.

The Verigene® Clostridium difficile Nucleic Acid Test (CDF) is a qualitative multiplexed in vitro diagnostic test for the rapid detection of toxin A (tcdA), toxin B (tcdB), and tcdC gene sequences of toxigenic Clostridium difficile and for presumptive identification of PCR ribotype 027 strains from unformed (liquid or soft) stool specimens collected from patients suspected of having C. difficile infection (CDI). Presumptive identification of the PCR ribotype 027 strain of C. difficile is by detection of the binary toxin (cdt) gene sequence and the single base pair deletion at nucleotide 117 in the tcdC gene encodes for a negative regulator in C. difficile toxin production. The test is performed on the Verigene System and utilizes automated specimen preparation and polymerase chain reaction (PCR) amplification, combined with a nanoparticle-based array hybridization assay to detect the toxin gene sequences associated with toxin-producing C. difficile. The CDF Test is indicated for use as an aid in the diagnosis of CDI. Detection of PCR ribotype 027 strains of C. difficile by the CDF Test is solely for epidemiological purposes and is not intended to guide or monitor treatment for C. difficile infections. Concomitant culture is necessary only if further typing or organism recovery is required.

The Verigene C. difficile Nucleic Acid Test (CDF) is a molecular assay which relies on detection of specific nucleic acid targets in a microarray format. For each of the bacterial nucleic acid sequences detected by CDF, unique Capture and Mediator oligonucleotides are utilized, with gold nanoparticle probe-based endpoint detection. The Capture oligonucleotides are covalently bound to the microarray substrate and hybridize to a specific portion of the nucleic acid targets. The Mediator oligonucleotides have a region which bind to a different portion of the same nucleic acid targets and also have a sequence which allows binding of a gold nanoparticle probe. Specific silver enhancement of the bound gold nanoparticle probes at the capture sites results in gold-silver aggregates that scatter light with high efficiency and provide accurate detection of target capture. The CDF Test is performed on the Verigene System, a "sample-to-result", fully automated, bench-top molecular diagnostics workstation. The System consists of two components: the Verigene Reader and the Verigene Processor SP. The Reader is the user interface, serving as the central control unit for test processing, automated imaging, and result generation. The Processor SP automates sample preparation, target amplification, and hybridization-detection.

The Verigene® CYP2C19 Nucleic Acid Test (CYP2C19 Test), performed using the sample-to-result Verigene System, is a qualitative multiplexed in vitro diagnostic test for the simultaneous detection and identification of an individual's CYP450 2C19 genotype in genomic deoxyribonucleic acid (DNA) obtained from EDTA-anticoagulated whole blood samples. The Verigene CYP2C19 Nucleic Acid Test (CYP2C19 Test) is indicated for use in clinical laboratories upon prescription by the attending physician as an aid to clinicians in determining therapeutic strategy for therapeutics that are metabolized by the CYP450 2C19 gene product, specifically *2, *3, and *17. The Verigene CYP2C19 Nucleic Acid Test (CYP2C19 Test) is not indicated to be used to predict drug response or non-response.

The Verigene® System is comprised of test consumables and shared instrumentation. All Verigene tests are formatted in self-contained test-specific Verigene Test Cartridges which serve to analyze a nucleic acid sample that is presented to them. Nucleic acids are prepared directly from a whole blood specimen using magnetic glass particles and input automatically into a Test Cartridge inside the Verigene Processor SP. Test progress is tracked and directed by the Verigene Reader instrument, which serves as a central control unit for each Verigene System. Genomic DNA is extracted from the white blood cells in a whole blood specimen, fragmented and denatured. This fragmented, single-stranded genomic DNA hybridizes to complementary sequence-specific DNA oligonucleotides, known as capture oligonucleotides, arrayed on the surface of a substrate (glass slide). A second DNA oligonucleotide is then hybridized to the captured genomic DNA that was captured initially. This oligonucleotide is known as a mediator oligonucleotide containing two sequence domain is complementary to the genomic DNA target and a second domain is complementary to a common oligonucleotide attached to a signal generating gold nanoparticle probe. After washing away any DNA not affixed to the captures, the probe is exposed to the captured mediator/target compound where it hybridizes to any captured mediators. Presence of the gold nanoparticle probes at a particular location on the substrate is assessed optically. The Verigene CYP2C19 Nucleic Acid Test is designed to detect and genotype the CYP450 2C19 *2, *3 and *17 alleles. The test report lists the alleles and provides which genotype was detected in the specimen. The CYP2C19 Test algorithm automatically calculates each of the allele results using a preset normalized ratio of the signal of wild type capture locations on the microarray to the mutant capture locations on the microarray.

The Verigene® Gram-Positive Blood Culture Nucleic Acid Test (BC-GP) performed using the sample-to-result Verigene System is a qualitative, multiplexed in vitro diagnostic test for the simultaneous detection and identification of potentially pathogenic gram-positive bacteria which may cause bloodstream infection (BSI). BC-GP is performed directly on blood culture bottles identified as positive by a continuousmonitoring blood culture system and which contain gram-positive bacteria. BC-GP detects and identifies the following bacterial genera and species: Staphylococcus spp., Staphylococcus aureus, Staphylococcus epidermidis, Staphylococcus lugdunensis, Enterococcus faecalis, Enterococcus faecium, Streptococcus spp., Streptococcus pneumoniae, Streptococcus pyogenes, Streptococcus agalactiae, Streptococcus anginosus group, and Listeria spp. In addition. BC-GP detects the mecA resistance marker, inferring mecA-mediated methicillin resistance, and the vanA and vanB resistance markers, inferring vanA/vanB-mediated vancomycin resistance. In mixed growth, BC-GP does not specifically attribute van-mediated vancomycin resistance to either E. faecalis or E. faecium, or mecAmediated methicillin resistance to either S. aureus or S. epidermidis. BC-GP is indicated for use in conjunction with other clinical and laboratory findings to aid in the diagnosis of bacterial bloodstream infections; however, is not to be used to monitor these infections. Sub-culturing of positive blood cultures is necessary to recover organisms for susceptibility testing, identification of organisms not detected by BC-GP, differentiation of mixed growth, association of antimicrobial resistance marker genes to a specific organism, or for epidemiological typing.

The Verigene® Gram-Positive Blood Culture Nucleic Acid Test (BC-GP) is a molecular assay which relies on detection of specific nucleic acid targets in a microarray format. For each of the bacterial nucleic acid sequences detected by the BC-GP test. Capture and Mediator olizonucleotides are utilized for gold nanoparticle probe-based endpoint detection. The Canture oligonucleotides bind to a specific portion of the nucleic acid target and are themselves bound onto a substrate in the microarray. The Mediator oligonucleotides bind to a different portion of the same nucleic acid target and allow binding of a gold nanoparticle probe to a portion complementary to a gold nanoparticle probe. Specific silver enhancement of the bound gold nanoparticle probes at the capture sites results in gold-silver aggregates that scatter light with high efficiency. The BC-GP test is performed on the Verigene System, a "sample-to-result", fully automated, bench-top molecular diagnostics workstation. The Verigene System consists of two components: the Verigene Reader and the Verigene Processor SP. The BC-GP test utilizes single-use disposable test consumables and a self-contained Verigene Test Cartridge for each sample tested. For the BC-GP test, the Verigene System allows automated nucleic acid extraction from grampositive bacteria-containing blood culture specimens and target detection of bacteria-specific DNA. The Reader is the Verigene System's user interface, which serves as the central control unit for all aspects of test processing and results generation. The Reader's graphical user interface guides the user through test processing and test results using a barcode scanner. The user inserts the Test Cartridge into the Verigene Processor SP, which executes the test procedure, automating the steps of ( ) Sample Preparation - Cell lysis and magnetic bead-bacterial DNA isolation from blood culture samples and (2) Hybridization - Detection and identification of bacterialspecific DNA in a microarray format by using gold nanoparticle probe-based technology. After test processing is complete, to obtain the test results the user removes the Test Cartridge from the Processor SP, removes the reagent pack from the substrate holder, and inserts the substrate holder into the Reader for analysis. Light scatter from the capture spots is imaged by the Reader and intensities from the microarray spots are used to make decisions regarding the presence (Detected) or absence (Not Detected) of a bacterial nucleic acid sequence/analyte.

The Verigene® Gram Positive Blood Culture Nucleic Acid Test (BC-GP) performed using the sample-to-result Verigene System is a qualitative, multiplexed in vitro diagnostic test for the simultaneous detection and identification of potentially pathogenic gram-positive bacteria which may cause bloodstream infection (BSI). BC-GP is performed directly on positive blood culture using BACTEC™ Plus Aerobic/F and BacT/ALERT FA FAN® Aerobic blood culture bottles, which contain gram positive bacteria. BC-GP is indicated for use in conjunction with other clinical and laboratory findings, such as culture, to aid in the diagnosis of bacterial bloodstream infections; however, it is not used to monitor bloodstream infections. BC-GP detects and identifies the following bacterial genera and species: Staphylococcus spp. Staphylococcus aureus Staphylococcus epidermidis Staphylococcus lugdunensis Streptococcus spp. Streptococcus pneumoniae Streptococcus pyogenes Streptococcus agalactiae Streptococcus anginosus group Enterococcus faecalis Enterococcus faecium Listeria spp. In addition, BC-GP detects the mecA resistance marker, inferring mecA-mediated methicillin resistance, and the vanA and vanB resistance markers, inferring vanA/vanB-mediated vancomycin resistance. In mixed growth, BC-GP does not specifically attribute van-mediated vancomycin resistance to either E. faecium, or mecA-mediated methicillin resistance to either S. aureus or S. epidermidis. BC-GP is indicated for use in conjunction with other clinical and laboratory findings to aid in the diagnosis of bacterial bloodstream infections; however, is not to be used to monitor these infections. Sub-culturing of positive blood cultures is necessary to recover organisms for susceptibility testing. identification of organisms not detected by BC-GP, differentiation of mixed growth, association of antimicrobial resistance marker genes to a specific organism, or for epidemiological typing.

The Verigene® Gram Positive Blood Culture Nucleic Acid Test (BC-GP) is a molecular assav which relies on detection of specific nucleic acid targets in a microarray format. For each of the bacterial nucleic acid sequences detected by the BC-GP test, Capture and Mediator oligonucleotides are utilized for gold nanoparticle probe-based endpoint detection. The Capture oligonucleotides bind to a specific portion of the nucleic acid target and are themselves bound onto a substrate in the microarray. The Mediator oligonucleotides bind to a different portion of the same nucleic acid target and allow binding of a gold nanoparticle probe to a portion complementary to a gold nanoparticle probe. Specific silver enhancement of the bound gold nanoparticle probes at the capture sites results in gold-silver aggregates that scatter light with high efficiency. The BC-GP test is performed on the Verigene® System, a 'sample-to-result', fully automated, bench-top molecular diagnostics workstation. The Verigene System consists of two components: the Verigene Reader and the Verigene Processor SP. The BC-GP test utilizes single-use disposable test consumables and a self-contained Verigene Test Cartridge for each sample tested. For the BC-GP test, the Verigene System allows automated nucleic acid extraction from Gram-positive bacteria-containing blood culture specimens and target detection of bacteria-specific DNA. The Reader is the Verigene System's user interface, which serves as the central control unit for all aspects of test processing and results generation. The Reader's graphical user interface guides the user through test processing and test results using a barcode scanner. The user inserts the Test Cartridge into the Verigene Processor SP, which executes the test procedure. automating the steps of (1) Sample Preparation - Cell lysis and magnetic bead-based bacterial DNA isolation from blood culture samples and (2) Verigene Hybridization Test - Detection and identification of bacterial-specific DNA in a microarray format by using gold nanoparticle probe-based technology. After test processing is complete, to obtain the test results the user removes the Test Cartridge from the Processor SP, removes the reagent pack from the substrate holder, and inserts the substrate holder into the Reader for analysis. Light scatter from the capture spots is imaged by the Reader and intensities from the microarray spots are used to make decisions regarding the presence (Detected) or absence (Not Detected) of a bacterial nucleic acid sequence/analyte.

The Verigene® Staphylococcus Blood Culture (BC-S) Nucleic Acid Test performed using the sample-to-result Verigene System is a qualitative, multiplexed in vitro diagnostic test for the simultaneous detection and identification of potentially pathogenic gram-positive bacterial species Staphylococcus aureus ("SA") and Staphylococcus epidermidis ("SE") which may cause bloodstream infection (BSI). In addition, the BC-S test detects the mecA resistance marker inferring mecA-mediated methicillin/oxacillin resistance. In mixed growth, the BC-S Test does not specifically attribute mecA-mediated methicillin/oxacillin resistance to either SA or SE. The BC-S test is performed directly on positive blood culture using BACTEC™ Plus Aerobic/F and BacT/ALERT FA FAN® Aerobic blood culture bottles, which contain gram-positive cocci in clusters (GPCCL) observed on Gram stain. Subculturing of positive blood cultures is necessary to recover organisms for susceptibility testing, differentiation of mixed growth, association of the mecA gene to an organism, or for epidemiological typing. The BC-S test is indicated for use in conjunction with other clinical and laboratory findings, such as culture, to aid in the diagnosis of bacterial bloodstream infections; however, it is not used to monitor bloodstream infections.

The Verigene Staphylococcus Blood Culture Nucleic Acid Test (BC-S) is a molecular assay which relies on detection of specific nucleic acid targets in a microarray format. For each of the bacterial nucleic acid sequences detected by the BC-S test, Capture and Mediator oligonucleotides are utilized for gold nanoparticle probe-based endpoint detection. The Capture oligonucleotides bind to a specific portion of the nucleic acid target and are themselves bound onto a substrate in the microarray. The Mediator oligonucleotides bind to a different portion of the same nucleic acid target and allow binding of a gold nanoparticle probe to a portion complementary to a gold nanoparticle probe. Specific silver enhancement of the bound gold nanoparticle probes at the capture sites results in gold-silver aggregates that scatter light with high efficiency. The BC-S test is performed on the Verigene System, a 'sample-to-result', fully automated, bench-top molecular diagnostics workstation. The Verigene System consists of two components: the Verigene Reader and the Verigene Processor SP. The BC-S test utilizes single-use disposable test consumables and a self-contained Verigene Test Cartridge for each sample tested. For the BC-S test, the Verigene System allows automated nucleic acid extraction from gram-positive bacteria-containing blood culture specimens and target detection of bacteria-specific DNA. The Reader is the Verigene System's user interface, which serves as the central control unit for all aspects of test processing and results generation. The Reader's graphical user interface guides the user through test processing and test results using a barcode scanner. The user inserts the Test Cartridge into the Verigene Processor SP, which executes the test procedure, automating the steps of ( ) Sample Preparation - Cell lysis and magnetic bead-based bacterial DNA isolation from blood culture samples and (2) Verigene Hybridization Test - Detection and identification of bacterial-specific DNA in a microarray format by using gold nanoparticle probe-based technology. After test processing is complete, to obtain the test results the user removes the Test Cartridge from the Processor SP, removes the reagent pack from the substrate holder, and inserts the substrate holder into the Reader for analysis. Light scatter from the capture spots is imaged by the Reader and intensities from the microarray spots are used to make decisions regarding the presence (Detected) or absence (Not Detected) of a bacterial nucleic acid sequence/analyte.

The Verigene® Respiratory Virus Plus Nucleic Acid Test (RV+) on the Verigene® System is a qualitative nucleic acid multiplex test intended to simultaneously detect and identify multiple respiratory virus nucleic acids in nasopharyngeal (NP) swab specimens from individuals with signs and symptoms of respiratory tract infection. The following virus types and subtypes are identified using the RV+: Influenza A, Influenza A subtype H1, Influenza A subtype H3, 2009 H1N1, Influenza B, Respiratory Syncytial Virus (RSV) subtype A, and RSV subtype B. The test is not intended to detect Influenza C virus. Detecting and identifying specific viral nucleic acids from individuals exhibiting signs and symptoms of respiratory infection aids in the diagnosis of respiratory viral infection, if used in conjunction with other clinical and laboratory findings. Negative results for Influenza A, Influenza B, or RSV do not preclude influenza virus or RSV infection and should not be used as the sole basis for diagnosis, treatment, or patient management decisions. Conversely, positive results do not rule-out bacterial infection or co-infection with other viruses. The agent detected may not be the definite cause of disease. The use of additional laboratory testing and clinical presentation must be considered in order to obtain the final diagnosis of respiratory viral infection. Performance characteristics for Influenza A Virus were established when Influenza A/H3, A/H1, and 2009 H1N1 were the predominant Influenza A viruses circulating. These characteristics may vary when other Influenza A viruses are emerging. If infection with a novel Influenza A virus is suspected based on current clinical and epidemiological screening criteria recommended by public health authorities, specimens should be collected with appropriate infection control precautions used specifically for novel virulent influenza viruses and sent to state or local health department for testing. Viral culture should not be attempted in these cases unless a BSL 3+ facility is available to receive and culture specimens.

The entire RV+ test is performed on the Verigene® System, which is a bench-top molecular diagnostics workstation that consists of two instruments, the Verigene Processor SP and the Verigene Reader. The Verigene Processor SP performs the assay steps on each sample by using a robotic pipettor to transfer and mix reagents within and between separate testing modules designed for nucleic acid extraction, target amplification, and the Verigene Hybridization Test. The Verigene Hybridization Test module is the same as in the original Verigene System with added modules for nucleic acid extraction and RT-PCR target amplification. Key functions of the Verigene Processor SP include: 1) Reading of the barcode identification label on inserted Test Consumables to maintain positive identification of patient samples throughout processing. 2) Facilitation of nucleic acid extraction, multiplex RT-PCR target amplification, and the Verigene Hybridization Test. 3) Real-time communication of test processing status to the Reader. The Verigene Reader is the same instrument as in the FDA-cleared RVNATSP. It is a free-standing instrument with a touch screen control panel and a wand-based barcode scanner. It utilizes a graphical user interface to guide the user through the process of ordering tests and reporting results. There are no serviceable parts and no user calibration is required. Interaction with the touch screen is minimized through barcode use. This instrument also serves as the reader of the Test Cartridges using advanced optics. The key functions of the Verigene Reader include: 1) Entry and tracking of specimen identification numbers via manual keyboard input or via barcode-reader wand. 2) Test selection for each specimen. 3) Automated transfer of specimen processing instructions on Test Cartridge-specific basis to linked Processor SP unit(s). A single Reader unit can control up to 32 Processor units. 4) Automated imaging and analysis of Test Cartridges. 5) Results display. 6) Results report generation. RV+ consumables within each single-use disposable test kit include: (i) Tip Holder Assembly; (ii) Extraction Tray; (iii) Amplification Tray; and (iv) RV+ Test Cartridge. The kit components are inserted into the corresponding module of the Verigene Processor SP prior to each test, and the sample is added to the Extraction Tray. Patient information is entered into the Reader to initiate the test procedure. 1) Tip Holder Assembly - The robotic pipettor picks up pipettes from the Tip Holder Assembly. The pipettes are used for mixing and transferring reagents within the test procedure. 2) Extraction Tray – Nucleic acids are extracted from the sample by using magnetic bead-based methods within the Extraction Tray. Each Tray contains reagents for a single extraction procedure. A robotic pipette transfers reagents to designated wells within the Extraction Tray to affect the steps of lysis, capture of nucleic acids onto the magnetic beads, washing, and eluting the isolated nucleic acids from the magnetic beads. 3) Amplification Tray – The isolated nucleic acids are amplified by using multiplex RT-PCR within the Amplification Tray. Each Tray contains reagents for a single multiplex RT-PCR procedure. A robotic pipette transfers the reagents to a specific well within the Amplification Tray. A set thermal profile is then initiated to perform all of the amplification related steps including UDG-based decontamination, reverse transcription, and multiplex PCR in a single tube. Upon completion, an aliquot of the amplified sample is mixed with hybridization buffer containing the virus specific mediator probes. The sample is then transferred to the Test Cartridge. 4) RV+ Test Cartridge for Verigene Hybridization Test – The virus-specific and subtype-specific amplicons are detected and identified within a Test Cartridge by using specific nucleic acid probes in conjunction with gold nanoparticle probe-based detection technology. Each Test Cartridge is a self-contained, laboratory consumable that consists of two parts. The upper housing of each cartridge is called the "reagent pack" and contains reservoirs filled with the detection reagents. When in place with the 'substrate holder', the reagent pack creates an air-tight hybridization chamber surrounding the region of the substrate containing a target-specific capture array. As each step of the test is completed, old reagents are moved out of the hybridization chamber and new reagents are added from the reagent pack via microfluidic channels and pumps. Once the test is complete, the Test Cartridge is removed from the Verigene Processor SP unit and the reagent pack is snapped off and discarded. The remaining slide is now ready for imaging and analysis in the Verigene Reader. 5) End-point detection on the Verigene Reader: The test slide is inserted into the Verigene Reader wherein it is illuminated along its side. The gold-silver aggregates at the test sites scatter the light, which is in turn captured by a photosensor. The relative intensity arising from each arrayed test site is tabulated. Net signals, defined as the absolute signal intensities with background signals subtracted, are compared with thresholds determined by negative controls within the slide in order to arrive at a decision regarding the presence or absence of target. These results are linked to the test and patient information entered at the beginning of each test session to provide a comprehensive results file.

The Verigene® Respiratory Virus Nucleic Acid Test on the Verigene SP System (RVNATsp) is a qualitative multiplex in vitro diagnostic test for the detection and identification of Influenza A Virus, Influenza B Virus, and Respiratory Syncytial Virus (RSV) nucleic acids purified from nasopharyngeal swab specimens obtained from patients symptomatic for viral upper respiratory infection. The test is intended to be used on the Verigene SP System as an aid in the differential diagnosis of Influenza A, Influenza B, and RSV infections. The test is not intended to detect Influenza C virus. Negative results do not preclude influenza virus or RSV infection and should not be used as the sole basis for treatment or other management decisions. It is recommended that negative test results be confirmed by culture. Performance characteristics for Influenza A Virus were established when Influenza A/H3 and A/H1 were the predominant Influenza A viruses in circulation. As Influenza A viruses emerge, performance characteristics may vary. If infection with a novel Influenza A virus is suspected based on current clinical and epidemiological screening criteria recommended by public health authorities, specimens should be collected with appropriate infection control precautions for novel virulent Influenza viruses and sent to state or local health department for testing. Viral culture should not be attempted in these cases unless a BSL 3+ facility is available to receive and culture specimens.

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