cobas liat SARS-CoV-2, Influenza A/B & RSV nucleic acid test

{0} FDA U.S. FOOD &amp; DRUG ADMINISTRATION # 510(k) SUBSTANTIAL EQUIVALENCE DETERMINATION DECISION SUMMARY ASSAY AND INSTRUMENT ## I Background Information: A 510(k) Number K243406 B Applicant Roche Molecular Systems, Inc. C Proprietary and Established Names cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test D Regulatory Information | Product Code(s) | Classification | Regulation Section | Panel | | --- | --- | --- | --- | | QOF | Class II | 21 CFR 866.3981 - Device To Detect And Identify Nucleic Acid Targets In Respiratory Specimens From Microbial Agents That Cause The SARS-CoV-2 Respiratory Infection And Other Microbial Agents When In A Multi-Target Test | MI - Microbiology | ## II Submission/Device Overview: ### A Purpose for Submission: The purpose of this submission is to show that the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test is substantially equivalent to Hologic Panther Fusion SARS-CoV-2/Flu A/B/RSV Assay (K241240). ### B Measurand: Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), influenza A, influenza B, and respiratory syncytial virus RNA. The assay targets both the ORF1 a/b non-structural region and membrane protein gene that are unique to SARS-CoV-2, a well-conserved region of the matrix Food and Drug Administration 10903 New Hampshire Avenue Silver Spring, MD 20993-0002 www.fda.gov {1} gene of influenza A, the nonstructural protein 1 (NS1) gene of influenza B and the matrix gene of RSV. ## C Type of Test: This assay is a multiplex nucleic acid assay for the qualitative detection and differentiation of SARS-CoV-2, influenza A, influenza B and RSV RNA through nucleic acid extraction, amplification, and detection using real-time RT-PCR. All steps of the assay are automated within the cobas liat system, after scanning the specimen ID barcode, scanning the assay tube barcode, and the manual addition of sample into the assay tube. ## III Intended Use/Indications for Use: ### A Intended Use(s): See Indications for Use below. ### B Indication(s) for Use: The cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test is an automated rapid multiplex real-time reverse transcription polymerase chain reaction (RT-PCR) test intended for the simultaneous qualitative detection and differentiation of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), influenza A virus, influenza B virus and respiratory syncytial virus (RSV) nucleic acids in anterior nasal (nasal) and nasopharyngeal swab specimens from individuals exhibiting signs and symptoms of respiratory tract infection. Clinical signs and symptoms of respiratory viral infection due to SARS-CoV-2, influenza and RSV can be similar. This test is intended to aid in the differential diagnosis of SARS-CoV-2, influenza A, influenza B, and RSV infections in humans and is not intended to detect influenza C virus infections. Nucleic acids from the viral organisms identified by this test are generally detectable in nasopharyngeal and nasal swab specimens during the acute phase of infection. The detection and identification of specific viral nucleic acids from individuals exhibiting signs and symptoms of respiratory tract infection are indicative of the presence of the identified virus, and aid in diagnosis if used in conjunction with other clinical and epidemiological information, and laboratory findings. The results of this test should not be used as the sole basis for diagnosis, treatment, or other patient management decisions. Positive results do not rule out coinfection with other organisms. The organism(s) detected by the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test may not be the definite cause of disease. Negative results do not preclude SARS-CoV-2, influenza A virus, influenza B virus, or RSV infections. ### C Special Conditions for Use Statement(s): Rx - For Prescription Use Only For in vitro diagnostic use ### D Special Instrument Requirements: For use with the cobas liat system, only K243406 - Page 2 of 27 {2} K243406 - Page 3 of 27 ## IV Device/System Characteristics: ### A Device Description: cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test uses real-time reverse transcriptase polymerase chain reaction (RT-PCR) technology to detect and differentiate between SARS-CoV-2, influenza A, influenza B and RSV viruses from nasopharyngeal and nasal swabs in approximately 20 minutes. The assay targets both the ORF1 a/b non-structural region and membrane protein gene that are unique to SARS-CoV-2, a well-conserved region of the matrix gene of influenza A, the nonstructural protein 1 (NS1) gene of influenza B and the matrix gene of RSV. An Internal Control (IC) is included to control for adequate processing of the target viruses through all steps of the assay process and to monitor the presence of inhibitors in the RT-PCR processes. The test is performed on the cobas liat analyzer which automates and integrates sample purification, nucleic acid amplification, and detection of the target sequence in biological samples using real-time PCR assays. ### B Principle of Operation: The cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test uses nasopharyngeal and nasal swabs collected in universal transport media (UTM), universal viral transport (UVT) and is compatible with other viral transport media (VTM) such as M4RT, M4, M5, M6 and 0.9% saline. The cobas liat system software includes step-by-step on-screen instructions that guide the user through the process of starting a run on the instrument. First, the operator scans the barcode on cobas liat SARS-CoV-2, Influenza A/B &amp; RSV assay tube to identify the test; then, the sample barcode is scanned to link the sample ID with the assay run. Next, the operator transfers ~200 μL of the sample into the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV assay tube using the provided transfer pipette. The operator scans the assay tube barcode again before inserting the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV assay tube into the cobas liat analyzer. Once the assay tube is inserted into the cobas liat analyzer, the analyzer automatically performs all NAAT processes and displays interpreted results in approximately 20 minutes. A report of the interpreted results can be viewed in the View Results window on the LCD touch screen integrated with the cobas liat analyzer. The report can be also printed directly through a USB connected printer. ### C Instrument Description Information: 1. Instrument Name: cobas liat analyzer with cobas liat system software version 3.4 or higher. 2. Specimen Identification: Specimen identification is either entered manually or via barcode. 3. Specimen Sampling and Handling: Nasopharyngeal swab (NPS) or nasal swab (NS) specimens collected in 3 mL viral transport media or 0.9% physiological saline. {3} K243406 - Page 4 of 27 4. Calibration: The analyzer performs self-diagnostics during startup (initialization) and utilizes an advanced error diagnostics system to monitor the analyzer's performance during an assay. Under normal operation, the analyzer alerts the operator if a malfunction or error is detected. The analyzer requires no adjustment or calibration from the operator. 5. Quality Control: The cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test contains an Internal Control (IC) comprised of a buffer, antimicrobial agent, and a non-target RNA construct containing primer- and probe-specific regions that serves as a full-process control. The IC is used to monitor the entire automated test process, including sample preparation (nucleic acid extraction), amplification, and detection steps and is included in each assay tube of the candidate test. External positive and negative controls are included with cobas liat SARS-CoV-2, Influenza A/B &amp; RSV Control Kit and are packaged and sold separately from the assay kit. The positive control (PC) contains a buffer, antimicrobial agent, and non-infectious armored RNA sequences of all target analytes. The PC is needed for a lot validation procedure. The PC will be invalid if the PC run does not detect target analytes and/or IC signal are outside of allowable ranges. The negative control (NC) contains only a buffer and antimicrobial agent. The NC is needed for a lot validation procedure (i.e., before using a new lot of the candidate test). The NC will be invalid if the NC run detects target analytes. The external controls were validated in the analytical, clinical, and flex studies. V Substantial Equivalence Information: A Predicate Device Name(s): Panther Fusion SARS-CoV-2/Flu A/B/RSV Assay B Predicate 510(k) Number(s): K241240 C Comparison with Predicate(s): | Device & Predicate Device: | K243406 | K241240 | | --- | --- | --- | | Device Trade Name | cobas liat SARS-CoV-2, Influenza A/B & RSV nucleic acid test | Panther Fusion SARS-CoV-2/Flu A/B/RSV Assay | | Regulation Name | Same | 21 CFR 866.3981 | | Product Code | Same | QOF | | Prescription Use Only | Same | Yes | {4} | **Intended Use** | The cobas liat SARS-CoV-2, Influenza A/B & RSV nucleic acid test is an automated rapid multiplex real-time reverse transcription polymerase chain reaction (RT-PCR) test intended for the simultaneous qualitative detection and differentiation of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), influenza A virus, influenza B virus and respiratory syncytial virus (RSV) nucleic acids in anterior nasal (nasal) and nasopharyngeal swab specimens from individuals exhibiting signs and symptoms of respiratory tract infection. Clinical signs and symptoms of respiratory viral infection due to SARS-CoV-2, influenza and RSV can be similar. This test is intended to aid in the differential diagnosis of SARS-CoV-2, influenza A, influenza B, and RSV infections in humans and is not intended to detect influenza C virus infections. Nucleic acids from the viral organisms identified by this test are generally detectable in nasopharyngeal and nasal swab specimens during the acute phase of infection. The detection and identification of specific viral nucleic acids from individuals exhibiting signs and symptoms of respiratory tract infection are indicative of the presence of the identified virus, and aid in diagnosis if used in conjunction with other clinical and epidemiological information, and laboratory findings. | The Panther Fusion SARS-CoV-2/Flu A/B/RSV assay is a fully automated multiplexed real-time polymerase chain reaction (RT-PCR) in vitro diagnostic test intended for the qualitative detection and differentiation of severe acute respiratory syndrome coronavirus 2 (SARS- CoV-2), influenza A virus (Flu A), influenza B virus (Flu B), and respiratory syncytial virus (RSV). Nucleic acids are isolated and purified from nasopharyngeal (NP) swab specimens and anterior nasal (AN) swab specimens obtained from individuals exhibiting signs and symptoms of a respiratory tract infection. Clinical signs and symptoms of respiratory viral infection due to SARS-CoV-2, influenza, and RSV can be similar. This assay is intended to aid in the differential diagnosis of SARS-CoV-2, Flu A, Flu B, and RSV infections in humans and is not intended to detect influenza C virus infections. Nucleic acids from the viral organisms identified by this test are generally detectable in NP and AN swab specimens during the acute phase of infection. The detection and identification of specific viral nucleic acids from individuals exhibiting signs and symptoms of respiratory tract infection are indicative of the presence of the identified virus and aids in diagnosis if used in conjunction with other clinical and epidemiological information, and | | --- | --- | --- | K243406 - Page 5 of 27 {5} | | The results of this test should not be used as the sole basis for diagnosis, treatment, or other patient management decisions. Positive results do not rule out coinfection with other organisms. The organism(s) detected by the cobas liat SARS-CoV-2, Influenza A/B & RSV nucleic acid test may not be the definite cause of disease. Negative results do not preclude SARS-CoV-2, influenza A virus, influenza B virus, or RSV infections. | laboratory findings. The results of this test should not be used as the sole basis for diagnosis, treatment, or other patient management decisions. Positive results do not rule out coinfection with other organisms. The organism(s) detected by the Panther Fusion SARS-CoV-2/Flu A/B/RSV assay may not be the definite cause of disease. Negative results do not preclude SARS-CoV-2, influenza A virus, influenza B virus, or RSV infections. This assay is designed for use on the Panther Fusion System. The Hologic RespDirect Collection Kit is cleared for NP swab specimens only for testing with the Panther Fusion SARSCoV-2/Flu A/B/RSV assay. | | --- | --- | --- | | Sample Type | Same | Nasopharyngeal and anterior nasal swabs | | Analyte | Same | SARS-CoV-2, Flu A, Flu B, RSV RNA | | Ancillary Collection Kits | • Copan FLOQSwab with UTM • BD UVT with flocked swab • Sterile flocked swabs with a synthetic tip with other viral transport media (VTM) –M4RT, M4, M5 and M6 • 0.9% Saline | • RespDirect Swab, intended for collection of NPS specimens with UTM/VTM or eSTM • Enhanced Direct Load Tube (eDLT), containing enhanced specimen transport media (eSTM). | | Time to result | About 15 minutes | ~ 2.5 hours | | Amplification Technology | Same | Real-time PCR | | Detection Chemistry | Same | Assay using different reporter dyes for target and control | | Controls Used | Same | Sample processing control (IC), Positive and negative control | | Instrumentation | cobas liat system | Panther Fusion System | K243406 - Page 6 of 27 {6} VI Standards/Guidance Documents Referenced: Class II Special Controls as per 21 CFR 866.3981. VII Performance Characteristics: A Analytical Performance: Analytical studies including reproducibility, inclusivity (reactivity), cross-reactivity, microbial interference, and competitive inhibition utilized simulated nasopharyngeal matrix (S-UTM) to prepare the contrived specimens for testing. Equivalency between using natural and simulated clinical matrices was demonstrated in the Matrix Equivalency Study described in section VII.B.2 below. Analytical studies including reproducibility, microbial interference, interfering substances, competitive inhibition, sample stability, kit stability, limit of detection (LoD), matrix equivalency, and media equivalency utilized co-formulated (multi-spiked) samples for testing. A study was conducted to demonstrated that the LoD of each strain individually was equivalent to the co-spiked LoD. 1. Precision/Reproducibility: A reproducibility study was conducted assessing the total variability of the cobas liat SARS-CoV-2, Influenza A/B and RSV nucleic acid assay across operators, study sites, testing days, cobas liat analyzers, and cobas liat assay tube lots. The cobas liat SARS-CoV-2, Influenza A/B &amp; RSV assay was evaluated at three CLIA waived sites. Two (2) operators at each of the three sites tested a 3-member reproducibility panel in triplicate on five different days across 3 reagent lots, for a total of ~810 tests (3 sites × 3 lots/site × 5 day/lot × 2 operators/day × 3 panel members/operator × 3 replicates/panel member), ~270 tests/panel member. Each site utilized a minimum of three liat analyzers. The reproducibility panel contained a true negative, a low positive and a moderate positive member co-formulated with SARS-CoV-2, influenza A, influenza B and RSV. The reproducibility panel samples were prepared by spiking SARS-CoV-2 (USA-WA1/2020, inactivated), influenza A virus (Darwin/6/2021), influenza B virus (Austria/1359417/2021) and RSV (9320) of known titer into negative simulated nasopharyngeal matrix (S-UTM). The moderate positive and low positive concentrations used for each of the strains corresponded to 5x LoD and 2x LoD, respectively. The true negative sample was comprised of S-UTM. As shown in Table 1, the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test demonstrated 100% agreement for each target analyte with the moderate positive panel members. For low positive panel members, the assay yielded 100% agreement for SARS-CoV-2 and RSV, and 99.6% agreement for influenza A and influenza B. All negative panel members also yielded 100% agreement with the expected results. This performance is acceptable and demonstrates acceptable assay reproducibility. K243406 - Page 7 of 27 {7} Table 1. Reproducibility Study- Qualitative Results | Target | Panel Conc. | % Agreement with Expected Results/ (n Agreement/N Tested) (95% CI) | | | | | --- | --- | --- | --- | --- | --- | | | | Site 1 | Site 2 | Site 3 | Overall | | Negative | 0 | 100% (86/86) (95.7-100) | 100% (89/89) (95.9-100) | 100% (90/90) (95.9-100) | 100% (265/265) (98.6-100) | | SARS-CoV-2b | Low Positive (2x LoD) | 100% (90/90) (95.9-100) | 100% (90/90) (95.9-100) | 100% (90/90) (95.9-100) | 100% (270-270) (98.6-100) | | | Mod. Positive (5x LoD) | 100% (88/88) (95.9-100) | 100% (89/89) (95.9-100) | 100% (90/90) (95.9-100) | 100% (267/267) (98.6-100) | | Influenza A | Low positive (2x LoD) | 100% (90/90) (95.9-100) | 100% (90/90) (95.9-100) | 98.9% (88/89)a (93.9-99.8) | 99.6% (268/269) (97.9-99.9) | | | Mod. Positive (5x LoD) | 100% (88/88) (95.9-100) | 100% (89/89) (95.9-100) | 100% (90/90) (95.9-100) | 100% (267/267) (98.6-100) | | Influenza B | Low positive (2x LoD) | 100% (90/90) (95.9-100) | 98.9% (89/90) (94.0-99.8) | 100% (89/89)a (95.9-100) | 99.6% (268/269) (97.9-99.9) | | | Mod. Positive (5x LoD) | 100% (88/88) (95.9-100) | 100% (89/89) (95.9-100) | 100% (90/90) (95.9-100) | 100% (267/267) (98.6-100) | | RSV | Low positive (2x LoD) | 100% (90/90) (95.9-100) | 100% (90/90) (95.9-100) | 100% (90/90) (95.9-100) | 100% (270-270) (98.6-100) | | | Mod. Positive (5x LoD) | 100% (88/88) (95.9-100) | 100% (89/89) (95.9-100) | 100% (90/90) (95.9-100) | 100% (267/267) (98.6-100) | Mod = moderate, Conc= Concentration Note: Results are shown only for the intended targets. Panel members were all co-spiked with all targets, so results are presented three times a One valid test obtained an invalid results for the specified target. b Inactivated virus The total Ct variability, as measured by the standard deviation, was less than or equal to 1.18 across all target viruses and concentrations. These results, shown in Table 2, indicate that the reproducibility of the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test is acceptable. Table 2. Reproducibility Study- Ct Analysis Results | Viral Target | Panel Member Conc. | n/Na | Mean Ct | Between Sites | | Between Sites | | Between Days | | Between Operators | | Within-Run (Residual) | | Total | | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | | | | SD | CV% | SD | CV% | SD | CV% | SD | CV% | SD | CV% | SD | CV% | | SARS-CoV-2b | 2x LoD | 270/270 | 33.8 | 0.00 | 0.0 | 0.38 | 1.1 | 0.17 | 0.5 | 0.36 | 1.1 | 1.03 | 3.0 | 1.16 | 3.4 | | SARS-CoV-2b | 5x LoD | 267/267 | 32.4 | 0.13 | 0.4 | 0.54 | 1.7 | 0.27 | 0.8 | 0.00 | 0.0 | 1.00 | 3.1 | 1.18 | 3.6 | K243406 - Page 8 of 27 {8} | Viral Target | Panel Member Conc. | n/Na | Mean Ct | Between Sites | | Between Lots | | Between Days | | Between Operators | | Within-Run (Residual) | | Total | | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | | | | SD | CV% | SD | CV% | SD | CV% | SD | CV% | SD | CV% | SD | CV% | | Influenza A | 2x LoD | 268/269 | 34.8 | 0.11 | 0.3 | 0.08 | 0.2 | 0.13 | 0.4 | 0.00 | 0.0 | 0.62 | 1.8 | 0.65 | 1.9 | | Influenza A | 5x LoD | 267/267 | 33.8 | 0.00 | 0.0 | 0.05 | 0.2 | 0.00 | 0.0 | 0.11 | 0.3 | 0.39 | 1.2 | 0.41 | 1.2 | | Influenza B | 2x LoD | 268/269 | 33.8 | 0.04 | 0.1 | 0.29 | 0.9 | 0.00 | 0.0 | 0.13 | 0.4 | 0.66 | 2.0 | 0.73 | 2.2 | | Influenza B | 5x LoD | 267/267 | 32.8 | 0.05 | 0.2 | 0.47 | 1.4 | 0.12 | 0.4 | 0.00 | 0.0 | 0.52 | 1.6 | 0.71 | 2.2 | | RSV | 2x LoD | 270/270 | 34.3 | 0.00 | 0.0 | 0.19 | 0.5 | 0.07 | 0.2 | 0.00 | 0.0 | 0.82 | 2.4 | 0.81 | 2.5 | | RSV | 5x LoD | 267/267 | 33.0 | 0.06 | 0.2 | 0.17 | 0.5 | 0.00 | 0.0 | 0.14 | 0.4 | 0.69 | 2.1 | 0.73 | 2.2 | Ct = cycle threshold; LoD = Limit of Detection; SARS-CoV-2 = Severe acute respiratory syndrome coronavirus-2; RSV= Respiratory syncytial virus; SD = standard deviation; CV% = percent coefficient of variation. ${}^{a}n$ is the number of positive tests,which contribute Ct values to the analysis. $\mathrm{N}$ is the total number of valid tests for the panel member. b Inactivated virus 2. Linearity: Not applicable. 3. Analytical Specificity/Interference: Analytical Reactivity (Inclusivity) a. In silico The inclusivity of the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV assay was evaluated using in silico analysis of the forward primers, reverse primers, and probes for the SARS-CoV-2 target in relation to sequences available in the NCBI and GISAID gene databases. For both SARS-CoV-2 gene targets taken together, in silico analysis on January 15, 2025 (&gt;7.94M sequences in NCBI and &gt;15.04M sequences in GISAID) indicates that the majority of sequence variants are predicted to be detected, with only $&lt;0.04\%$ of sequences in NCBI and $&lt;0.05\%$ of sequences in GISAID, with any mismatch in primer/probe binding sites for both targets. In silico analysis also indicates that the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV assay's SARS-CoV-2 test detects all emerging new variant strains. No sequences in the NCBI database, and three unique sequences in GISAID $(0.00002\%)$ had mismatches that were predicted to affect detection and performance of the test. Due to the low percentage representation in the databases of mismatches and potential for sequencing errors, the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV assay is expected to have high inclusivity for the SAR-CoV-2 target. b. Wet-Testing The inclusivity study evaluates the ability of the test to detect SARS-CoV-2, influenza A influenza B, and RSV isolates/variants. The reactivity/inclusivity was evaluated with ten (10) SARS-CoV-2, 28 influenza A (15 H1N1, ten (10) H3N2, one (1) H5N1, one (1) H5N2 and one (1) H7N9), ten (10) influenza B (fine (5) Victoria and five (5) Yamagata), K243406 - Page 9 of 27 {9} and five (5) RSV isolates/variants. Viral suspensions were prepared at $\sim 3\mathrm{x}$ LoD for each strain individually in S-UTM and tested in triplicate to evaluate inclusivity. If $&lt; 100\%$ hit rate was observed, the concentration was doubled until $3/3$ replicates were detected. # SARS-CoV-2 The detected concentrations for the SARS-CoV-2 variants tested with the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test are shown in Table 3. All ten (10) lineages were detected at concentration $0.105\mathrm{TCID}_{50} / \mathrm{mL}$ , which is $\sim 3\mathrm{x}$ LoD for the SARS-CoV-2 USA-WA1/2020 strain. Table 3. SARS-CoV-2 Inclusivity Strains Tested and Concentration Detected. | Lineage/Subtype | Isolate/Varianta,b | TCID50/mL | Relative LoD | Replicates Detected/Tested | | --- | --- | --- | --- | --- | | Alpha | Hong Kong/VM20001061/2020 | 0.105 | 3x | 3/3 | | Beta, B.1.595_2020 (was B.1.2) | NY-Wadsworth-33126-01/2020 | 0.105 | 3x | 3/3 | | Delta, B.1.617.2 | USA/MD-HP05285/2021 | 0.105 | 3x | 3/3 | | Epsilon, B.1.427 | USA/CA/VRLC009/2021 | 0.105 | 3x | 3/3 | | Gamma, P.1 | Japan/TY7-503/2021 | 0.105 | 3x | 3/3 | | Iota, B.1.526_2021 | USA/NY-Wadsworth-21025952-01/2021 | 0.105 | 3x | 3/3 | | Kappa, B.1.617.1 | USA/CA-Stanford-15_S02/2021 | 0.105 | 3x | 3/3 | | Omicron, B.1.1.529, CH.1.1 | USA/MD-HP41275/2022 | 0.105 | 3x | 3/3 | | Omicron, B.1.1.529, XBB.1.5 | USA/MD-HP40900/2022 | 0.105 | 3x | 3/3 | | Zeta, P2_2021 | USA/NY-Wadsworth-21006055-01/2021 | 0.105 | 3x | 3/3 | a All strains tested were inactivated virus. b These strains are in addition to the SARS-CoV-2 USA-WA1/2020 and inactivated SARS-CoV-2/ 20/146, v3, 11/2021 used in the analytical sensitivity study. # Influenza A Ten (10) influenza A H1N1 and 10 influenza A H3N2 strains were detected near the $0.885\mathrm{TCID}_{50} / \mathrm{mL}$ concentration, which is the $\sim 3\mathrm{x}$ LoD concentration that was established for the influenza A/Darwin/6/2021 strain. Some of the strains, A/Christ Church/16/2020, A/Swine/Iowa/15/30, A/Sydney/5/2021, and A/Darwin/9/2021 required testing at 1.77 $\mathrm{TCID}_{50} / \mathrm{mL}$ ( $\sim 6\mathrm{x}$ LoD) and one strain A/Victoria/2570/2019 required testing at 3.54 $\mathrm{TCID}_{50} / \mathrm{mL}$ ( $\sim 12\mathrm{x}$ LoD) to pass acceptance criteria. Additionally, the avian influenza H7N9 strain A/northern shoveler/Mississippi/11OS145/2011 was detected at 3.54 $\mathrm{CEID}_{50} / \mathrm{mL}$ ( $\sim 12\mathrm{x}$ LoD). The influenza A isolates/variants tested in the study and the lowest concentrations detected are listed in Table 4. K243406 - Page 10 of 27 {10} Table 4. Influenza A Inclusivity Strains Tested and Concentration Detected. | Lineage/ Subtype | Isolate/Varianta | Test Concentration (TCID50/mL)d | Relative LoD | Replicates Detected/ Tested | | --- | --- | --- | --- | --- | | H1N1 | A/Brisbane/59/07 | 0.885 | 3x | 3/3 | | | A/Christ Church/16/2020 | 1.77 EID50/mL | 6x | 3/3 | | | A/Denver/01/57 | 0.885 | 3x | 3/3 | | | A/England/221740513/2022b | 75 copies/mLc | 1x | 3/3 | | | A/England/224020815/2022b | 91.5 copies/mLc | 1x | 3/3 | | | A/Fort Monmouth/01/47 | 0.885 | 3x | 3/3 | | | A/Malaya/302/54 | 0.885 | 3x | 3/3 | | | A/New Caledonia/20/99 | 0.885 | 3x | 3/3 | | | A/Swine/Iowa/15/30 | 1.77 CEID50/mL | 6x | 3/3 | | | A/Sydney/5/2021e | 1.77 | 6x | 3/3 | | | A/Victoria/2570/2019 | 3.54 EID50/mL | 12x | 3/3 | | | A/WS/33 | 0.885 | 3x | 3/3 | | | A/Brisbane/14/2023 | 75 copies/mLc | 1x | 3/3 | | | A/Townsville/1A/2023 | 75 copies/mLc | 1x | 3/3 | | | A/Townsville/2A/2023 | 75 copies/mLc | 1x | 3/3 | | H3N2 | A/Aichi/2/68 | 0.885 CEID50/mL | 3x | 3/3 | | | A/Brisbane/10/07 | 0.885 | 3x | 3/3 | | | A/Cambodia/E0826360/2020 | 0.885 | 3x | 3/3 | | | A/Darwin/9/2021 | 1.77 | 6x | 3/3 | | | A/Hong Kong/8/68 | 0.885 | 3x | 3/3 | | | A/H3/Perth/16/09 | 0.885 | 3x | 3/3 | | | A/Tasmania/503/2020 | 0.885 EID50/mL | 3x | 3/3 | | | A/Victoria/3/75 | 0.885 CEID50/mL | 3x | 3/3 | | | A/Wisconsin/67/2005 | 0.885 | 3x | 3/3 | | | A/Singapore/INFIMH-16-0019/2016 | 0.885 | 3x | 3/3 | | H5N1 | A/mallard/Wisconsin/2576/2009 | 0.885 CEID50/mL | 3x | 3/3 | | H5N2 | A/ruddy turnstone/New Jersey/828212/2001 | 0.885 CEID50/mL | 3x | 3/3 | | H7N9 | A/northern shoveler/Mississippi/11OS145/2011 | 3.54 CEID50/mL | 12x | 3/3 | a These strains are in addition to the influenza A Darwin/6/2021 and Brisbane/02/2018 strains used in the analytical sensitivity study. b A/England/221740513/2022 GISAID ID is EPI_ISL_14387941 and for A/England/224020815/2022 GISAID ID is EPI_ISL_15803829. The concentrations tested are near the 1x LoD value (69 copies/mL) determined by digital PCR for the influenza A/Darwin/6/2021 strain. ${}^{d}$ Concentrations are shown in ${\mathrm{{TCID}}}_{50}/\mathrm{{mL}}$ unless otherwise indicated. e Inactivated virus. K243406 - Page 11 of 27 {11} # Influenza B Five (5) influenza B Victoria lineage and five influenza B Yamagata lineage strains were detected at the 2.937 $\mathrm{TCID}_{50} / \mathrm{mL}$ concentration, which is the $\sim 3\mathrm{x}$ LoD concentration that was established for the influenza B/Austria/1359417/2021 strain. The influenza B isolates/variants tested in the study and the lowest concentrations detected are listed in Table 5. Table 5: Results of Testing Influenza B Isolate/Variants | Lineage/ Subtype | Isolate/Varianta | Test Concentration (TCID50/mL)b | Relative LoD | Replicates Detected/ Tested | | --- | --- | --- | --- | --- | | Victoria | B/Brisbane/60/2008 | 2.937 | 3x | 3/3 | | Victoria | B/Colorado/06/2017 | 2.937 | 3x | 3/3 | | Victoria | B/Malaysia/2506/04 | 2.937 | 3x | 3/3 | | Victoria | B/Michigan/09/2011 | 2.937 EID50/mL | 3x | 3/3 | | Victoria | B/Washington/02/2019 | 2.937 | 3x | 3/3 | | Yamagata | B/Florida/04/06 | 2.937 | 3x | 3/3 | | Yamagata | B/Massachusetts/2/2012 | 2.937 | 3x | 3/3 | | Yamagata | B/Texas/6/2011 | 2.937 | 3x | 3/3 | | Yamagata | B/Texas/81/2016 | 2.937 EID50/mL | 3x | 3/3 | | Yamagata | B/Wisconsin/1/2010 | 2.937 | 3x | 3/3 | a These strains are in addition to the influenza B Austria/1359417/2021 and Phuket/3073/2013 strains used in the analytical sensitivity study. b Concentrations are shown in $\mathrm{TCID}_{50} / \mathrm{mL}$ unless otherwise indicated. # RSV Five (5) RSV strains, two subtype A and three subtype B, were detected at the 0.807 $\mathrm{TCID}_{50} / \mathrm{mL}$ ( $\sim 3\mathrm{x}$ LoD) that was established for the RSV 9320 strain. The RSV isolates/variants tested in the study and the lowest concentrations detected are listed in Table 6. Table 6: Results of Testing RSV Isolate/Variants | Lineage/ Subtype | Isolate/Varianta | Test Concentration (TCID50/mL) | Relative LoD | Replicates Detected/ Tested | | --- | --- | --- | --- | --- | | RSV-A | RSV-A 2006 isolate | 0.807 | 3x | 3/3 | | RSV-A | RSV-A2 | 0.807 | 3x | 3/3 | | RSV-B | RSV-B Ch93(18)-18 | 0.807 | 3x | 3/3 | | RSV-B | RSV-B Wash/18537/62 | 0.807 | 3x | 3/3 | | RSV-B | RSV-B WV/14617/85 | 0.807 | 3x | 3/3 | a These strains are in addition to the RSV 9320 (Subtype B) and Long (Subtype A) strains used in the analytical sensitivity study. This study demonstrates that the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test is able to detect multiple strains/variants for all four (4) virus targets. K243406 - Page 12 of 27 {12} # Cross-Reactivity/ Microbial Interference Cross-reactivity and microbial interference of the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test was evaluated by testing forty-five (45) strains of bacteria, fungi, and viruses for cross-reactivity and interference as well as nasal wash containing normal respiratory flora. The effect of non-target microorganisms on the performance of the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test was tested by introducing nontarget microorganisms into S-UTM spiked with and without co-formulated SARS-CoV-2 (USA-WA1/2020, inactivated), influenza A (Darwin/6/2021), influenza B (Austria/1359417/2021) and RSV (9320) viruses at $\sim 3\mathrm{x}$ LoD. Three (3) replicates in target positive background and three (3) replicates in target negative background were tested for each non-target microorganism. Five (5) replicates of interference control and five (5) replicates of specificity control were tested for the study, and all generated the expected results. Of the 45 total microorganisms tested, 42 were tested at concentrations of at least $1.0\mathrm{e} + 6$ units/mL (bacteria and fungi) or at least $1.0\mathrm{e} + 5$ units/mL (viruses), and the remaining three organisms (SARS Coronavirus, Urbani, Human Rhinovirus Type 1A, and Human Parainfluenza Virus Type 4A) were tested at the highest concentration possible. Clinical specimens containing Human Coronavirus HKU1 and Pneumocystis jirovecii were also tested. As summarized in Table 7, no cross-reactivity or microbial interference was observed at the concentrations tested, and no invalid results were obtained. Table 7. Cross-reactivity and Microbial Interference Results for Non-Target Microorganisms | Microorganism | Concentration (unit/mL) | Negative Sample (Specificity Test) | | | | Positive Sample (Interference Test) | | | | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | | Target Result: n Detected/N Tested | | | | Target Result: n Detected/N Tested | | | | | | | SARS-CoV-2 | Influenza A | Influenza B | RSV | SARS-CoV-2 | Influenza A | Influenza B | RSV | | Adenovirus Type 1c | 1.00E+05 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Cytomegalovirus | 1.00E+05 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Epstein-Barr virusc | 1.00E+05 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Human Coronavirus OC43 | 1.00E+05 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Human Coronavirus 229E | 1.00E+05 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | | 8.00E+04 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Human Rhinovirus Type 1Aa,c | 7.05E+04 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | | 7.05E+03 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Measles | 1.00E+05 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Human Enterovirus 68 | 1.00E+05 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Human Parainfluenza Virus Type 2 | 1.00E+05 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Human Parainfluenza Virus Type 3 | 1.00E+05 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Human Coronavirus HKU1 | NAb | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | SARS Coronavirus, Urbaniac | 2.85E+04 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Human Coronavirus NL63c | 1.00E+05 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | | 1.78E+04 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | MERS-Coronavirus | 1.00E+05 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | | 2.09E+04 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | K243406 - Page 13 of 27 {13} K243406 - Page 14 of 27 | Microorganism | Concentration (unit/mL) | Negative Sample (Specificity Test) | | | | Positive Sample (Interference Test) | | | | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | | Target Result: n Detected/N Tested | | | | Target Result: n Detected/N Tested | | | | | | | SARS-CoV-2 | Influenza A | Influenza B | RSV | SARS-CoV-2 | Influenza A | Influenza B | RSV | | Adenovirus Type 7 | 1.00E+05 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Human | 5.85E+04 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Parainfluenza Virus Type 4A^{a,c} | 5.85E+03 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Human | 1.00E+05 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Parainfluenza Virus Type 1^{c} | 1.00E+05 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Human | 1.00E+05 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Metapneumovirus 27 | 1.00E+05 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Mumps | 1.00E+05 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Human Rhinovirus B | 1.00E+05 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Nasal Wash | NA | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Bordetella pertussis | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Corynebacterium flavescens | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Escherichia coli | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Haemophilus Influenzae | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Lactobacillus crispatus | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Legionella pneumophila | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Moraxella catarrhalis | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Mycoplasma pneumoniae | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Neisseria elongate | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Neisseria meningitidis | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Pseudomonas aeruginosa | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Staphylococcus aureus | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Staphylococcus epidermidis | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Streptococcus pneumoniae | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Streptococcus pyogenes | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Streptococcus salivarius | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Chlamydophila pneumoniae | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Fusobacterium necrophorum subsp. Necrophorum | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Neisseria flava | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | {14} K243406 - Page 15 of 27 | Microorganism | Concentration (unit/mL) | Negative Sample (Specificity Test) | | | | Positive Sample (Interference Test) | | | | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | | Target Result: n Detected/N Tested | | | | Target Result: n Detected/N Tested | | | | | | | SARS-CoV-2 | Influenza A | Influenza B | RSV | SARS-CoV-2 | Influenza A | Influenza B | RSV | | Bordetella parapertussis | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Mycobacterium tuberculosis | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Mycoplasm gentiliumc | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Candida albicans | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Aspergillus flavus var. flavus | 1.00E+06 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | | 2.90E+05 | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | | Pneumocystis jirovecii | NAb | 0/3 | 0/3 | 0/3 | 0/3 | 3/3 | 3/3 | 3/3 | 3/3 | a Tested at highest concentration possible per stock concentration. b Positive clinical specimen was used and the concentration was unknown. c Inactivated virus. ## Interfering Substances Three (3) endogenous substances and nine (9) exogenous substances that may be present in nasopharyngeal and nasal swab clinical specimens were tested with the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test to assess potential interference with the assay. Five replicates of each of the substances were tested individually in the presence and absence of a representative strain for each of SARS-CoV-2 (USA-WA1/2020, inactivated), influenza A (Darwin/6/2021), influenza B (Austria/1359417/2021) and RSV (9320) viruses. The viral stocks were co-formulated in S-UTM matrix to approximately three times (~3x) the limit of detection (LoD) of the test. As summarized in Table 8, none of the substances at the concentrations tested caused false positive or invalid results in the absence of target organism, except for FluMist, which is expected to be positive for influenza A and influenza B. Furthermore, none of the substances at the concentrations tested caused false negative or invalid results in the presence of target organism, except for one invalid result obtained with Cepacol. The one invalid replicate was retested and obtained positive results for all targets, indicating that the invalid result was not attributable to interference. Potentially interfering substances that may be present in clinical respiratory specimens did not interfere with the performance of the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test at the concentrations tested. Table 8. Summary of Interfering Substances Testing Results | Substance | Concentration Tested | SARS-CoV-2, Influenza A, Influenza B, RSV Absent | SARS-CoV-2, Influenza A, Influenza B, RSV Present | | --- | --- | --- | --- | | | | Valid Negative Results/ Total # of Valid Results | Valid Positive Results/ Total # of Valid Results | | Human Cells (PBMC) | 1.00E+06 cell/mL | 5/5 | 5/5 | | Mucin | 5 mg/mL | 5/5 | 5/5 | {15} | Substance | Concentration Tested | SARS-CoV-2, Influenza A, Influenza B, RSV Absent | SARS-CoV-2, Influenza A, Influenza B, RSV Present | | --- | --- | --- | --- | | | | Valid Negative Results/ Total # of Valid Results | Valid Positive Results/ Total # of Valid Results | | Human Whole Blood | 5% v/v | 5/5 | 5/5 | | NNSC (Target Negative No Substance Control) | N/A | 5/5 | 0/5 | | PNSC (Target Positive No Substance Control) | N/A | 0/5 | 5/5 | | Nasal spray - Afrin / Anefrin | 15% (v/v) | 5/5 | 5/5 | | Nasal corticosteroids - Flonase | 5% (v/v) | 5/5 | 5/5 | | Nasal gel - Zicam | 5% (v/v) | 5/5 | 5/5 | | Throat lozenges, oral anesthetic and analgesic - Cepacol | 5 mg/mL | 5/5 | 5/5a | | Antibiotic, nasal ointment - Bactroban mupirocin ointment | 5 mg/mL | 5/5 | 5/5 | | Antiviral drug - Relenza | 5 mg/mL | 5/5 | 5/5 | | Antiviral drug - Tamiflu | 7.5 mg/mL | 5/5 | 5/5 | | Antimicrobial, systemic - Tobramycin | 4 ug/mL | 5/5 | 5/5 | | Intranasal Vaccine - FluMist | 6.25% (v/v) | 5/5b | 5/5 | a One invalid result was obtained, and was detected for all targets upon repeat. b FluMist is expected to give positive (detected) results for influenza A and influenza B targets. 5/5 represents SARS-CoV-2 and RSV targets. ## Competitive Inhibition Low concentrations of targets were mixed with a high concentration of the other target and tested with the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test to assess competitive inhibition between influenza A, influenza B, RSV and SARS-CoV-2. The low level concentrations of each target were at approximately 3x LoD, while the high level concentrations were &gt;1.0E+05 TCID₅₀/mL (Table 9). Co-formulated sample panels with a total of four (4) different combinations of influenza A, influenza B, RSV and SARS-CoV-2 at low and high concentration levels were prepared and tested. Five (5) replicates per co-formulated sample panel were tested. K243406 - Page 16 of 27 {16} Table 9. Viral Strains and Concentrations tested for Competitive Inhibition | Assay Target | Strain | 3x LoD (TCID_{50}/mL) | High Concentration (TCID_{50}/mL) | | --- | --- | --- | --- | | SARS-CoV-2 | USA-WA1/2020 (inactivated) | 0.105 | 1.14E+05 | | Influenza A | A/Darwin/6/2021 | 0.885 | 1.48E+06 | | Influenza B | B/Austria/1359417/2021 | 2.937 | 9.79E+06 | | RSV | RSV 9320 | 0.807 | 1.35E+06 | All runs generated five (5) out of five (5) detected results for the SARS-CoV-2, influenza A, influenza B and RSV targets under the conditions tested. No competitive inhibition was observed at the concentrations tested. The detection results for four (4) co-formulated sample panels tested with the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test are summarized in Table 10. Table 10. Competitive Inhibition Results Summary | Panel # | Target Level | | | | n Detected/ N Tested (% Positive) | | | | | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | SARS CoV-2 | Influenza A | Influenza B | RSV | SARS-CoV-2 | Influenza A | Influenza B | RSV | | 1 | High | 3x LoD | 3x LoD | 3x LoD | 5/5 (100%) | 5/5 (100%) | 5/5 (100%) | 5/5 (100%) | | 2 | 3x LoD | High | 3x LoD | 3x LoD | 5/5 (100%) | 5/5 (100%) | 5/5 (100%) | 5/5 (100%) | | 3 | 3x LoD | 3x LoD | High | 3x LoD | 5/5 (100%) | 5/5 (100%) | 5/5 (100%) | 5/5 (100%) | | 4 | 3x LoD | 3x LoD | 3x LoD | High | 5/5 (100%) | 5/5 (100%) | 5/5 (100%) | 5/5 (100%) | 4. Assay Reportable Range: Not applicable; this is a qualitative assay. 5. Traceability, Stability, Expected Values (Controls, Calibrators, or Methods): a. Controls The assay contains an Internal Control (IC) added to each test specimen and external positive and negative controls. For more information, see Section IV.C.5. Quality Control, above. b. Sample Stability Stability studies have been performed to support the following claims: - Primary NPS or NS specimens collected in transport media (UTM, UVT, M4, M4RT, M5, and M6) may be stored up to 4 hours at room temperature (15-30°C), K243406 - Page 17 of 27 {17} up to 72 hours refrigerated (2-8°C), or frozen at ≤-70°C if not tested within 72 hours of collection. - Primary NPS or NS specimens collected in 0.9% physiological saline may be stored up to 4 hours at room temperature (15-30°C) or up to 72 hours refrigerated (2-8°C). - Specimens transferred into the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test assay tube may be stored up to 4 hours at room temperature (15-30°C). 6. Detection Limit: Limit of detection (LoD) studies determine the lowest detectable concentration of SARS-CoV-2, influenza A, influenza B, and RSV at which equal to or greater than 95% of all replicates test positive. Two strains for each target (SARS-CoV-2, influenza A, influenza B, and RSV) were evaluated. To determine the LoD for each target, co-spiked panels were formulated using cultured viral material or inactivated virus diluted in pooled negative nasopharyngeal swab matrix. Twenty-one replicates per lot of assay tubes per dilution were tested for five or six 2-fold dilutions using three lots of assay tubes. The strains evaluated, as well as their corresponding LoD values are shown in Table 11. Table 11. LoD determination for SARS-CoV-2, influenza A, influenza B, and RSV strains | Virus | Strain | Concentration at LoD | n Detected/ N Tested (Mean Ct) | | --- | --- | --- | --- | | SARS-CoV-2* | USA-WA1/2020 | 0.0350 TCID_{50}/mL | 20/21 (35.5) | | SARS-CoV-2* | SARS-CoV-2/20/146, v3, 11/2021 | 65.1 IU/mL | 21/21 (34.9) | | Influenza A | Darwin/6/2021 (H3N2) | 0.295 TCID_{50}/mL | 21/21 (35.0) | | Influenza A | Brisbane/02/2018 (H1N1pdm09) | 0.00325 TCID_{50}/mL | 21/21 (36.4) | | Influenza B | B/Austria/1359417/2021 | 0.979 TCID_{50}/mL | 20/21 (34.6) | | Influenza B | Phuket/3073/2013 | 0.183 TCID_{50}/mL | 21/21 (34.1) | | RSV | 9320 (Subtype B) | 0.269 TCID_{50}/mL | 21/21 (34.9) | | RSV | Long (Subtype A) | 0.0240 TCID_{50}/mL | 21/21 (33.8) | * Inactivated virus A separate study was performed to demonstrate that the LoD of each strain individually was equivalent to the co-spiked LoD. 7. Assay Cut-Off: A target result call is determined separately for each target channel (i.e., SARS-CoV-2, influenza A, influenza B, RSV) and the internal control (IC) channel based on the combination of curve call, Ct, and other validity features. The cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test Ct cutoffs are described in Table 12. K243406 - Page 18 of 27 {18} Table 12. cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test Ct Cut-offs for Positive/Negative Results Determination | Target | Positive | Negative | | --- | --- | --- | | SARS-CoV-2 | ≤ 45 | > 45 | | Influenza A | ≤ 45 | > 45 | | Influenza B | ≤ 45 | > 45 | | RSV | ≤ 45 | > 45 | | IC | ≤ 34.5 | > 34.5* | * IC values that are greater than 34.5 render the sample with an invalid result if target is not detected. # 8. Accuracy (Instrument): Not applicable # 9. Carry-Over: A carry-over study for the cobas Influenza A/B &amp; RSV test for the liat system was conducted and reviewed previously. Please refer to K153544 for details. # B Comparison Studies: # 1. Method Comparison with Predicate Device: Not Applicable # 2. Matrix Comparison: The equivalence of samples prepared in natural nasopharyngeal swab (NPS), nasal swab (NS), and simulated nasopharyngeal swab (S-UTM) matrices was verified by using a co-formulated panel consisting of a representative strain of cultured influenza A, influenza B, RSV, and inactivated SARS-CoV-2 (Table 13). Two co-formulated levels of $5\mathrm{x}$ LoD and $2\mathrm{x}$ LoD as well as one target negative level were prepared in S-UTM and each clinical swab matrices in UTM. Ten (10) replicates at $5\mathrm{x}$ LoD, 30 at $2\mathrm{x}$ LoD, and ten (10) target negative replicates were tested in S-UTM, natural clinical NPS, and natural clinical NS matrices. Table 13. Viral Stains and Concentrations Tested | Strain Name | 5x LoD concentration (TCID50/mL) | 2x LoD concentration (TCID50/mL) | | --- | --- | --- | | A/Darwin/6/2021 | 1.475 | 0.590 | | B/Austria/1359417/2021 | 4.895 | 1.958 | | RSV 9320 | 1.345 | 0.538 | | USA-WA1/2020 (inactivated) | 0.175 | 0.070 | As summarized in Table 14, all positive contrived samples tested positive for all targets at both testing levels except for one replicate in S-UTM at $2\mathrm{x}$ LoD for RSV. All target negative replicates tested negative for all targets. Therefore, equivalency has been demonstrated between natural clinical NPS, NS and S-UTM matrices for the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test. K243406 - Page 19 of 27 {19} Table 14. Summary of Matrix Equivalency Study Results | Matrix | Concentration | n Detected/ N Tested, % Positive (Mean Ct) | | | | | --- | --- | --- | --- | --- | --- | | | | Influenza A | Influenza B | RSV | SARS-CoV-2 | | NPS UTM | 2x LoD | 30/30, 100% (34.80) | 30/30, 100% (33.88) | 30/30, 100% (34.03) | 30/30, 100% (33.51) | | | 5x LoD | 10/10, 100% (33.33) | 10/10, 100% (32.77) | 10/10, 100% (32.75) | 10/10, 100% (31.88) | | | Negative | 0/10, 0% (N/A) | 0/10, 0% (N/A) | 0/10, 0% (N/A) | 0/10, 0% (N/A) | | NS UTM | 2x LoD | 30/30, 100% (34.74) | 30/30, 100% (34.12) | 30/30, 100% (34.24) | 30/30, 100% (34.01) | | | 5x LoD | 10/10, 100% (33.23) | 10/10, 100% (32.66) | 10/10, 100% (32.94) | 10/10, 100% (32.07) | | | Negative | 0/10, 0% (N/A) | 0/10, 0% (N/A) | 0/10, 0% (N/A) | 0/10, 0% (N/A) | | S-UTM | 2x LoD | 30/30, 100% (34.95) | 30/30, 100% (34.17) | 29/30, 96.7% (34.48) | 30/30, 100% (34.11) | | | 5x LoD | 10/10, 100% (33.63) | 10/10, 100% (33.04) | 10/10, 100% (32.99) | 10/10, 100% (32.75) | | | Negative | 0/10, 0% (N/A) | 0/10, 0% (N/A) | 0/10, 0% (N/A) | 0/10, 0% (N/A) | # 3. Collection Media Equivalency (UTM, M4RT and $0.9\%$ physiological saline) To compare the performance of the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test with different media, NPS specimens were used as the representative specimen type. NPS matrix pools collected in Universal Transport Media (UTM), Remel M4RT, and $0.9\%$ saline were spiked with a co-formulated virus panel consisting of representative strains of cultured influenza A, influenza B, RSV, and inactivated SARS-CoV-2 at levels of 5x LoD and 2x LoD (Table 13 above). A target negative level was also included for evaluation. Ten (10) replicates at 5x LoD, 30 replicates at 2x LoD, and ten (10) target-negative replicates were tested in each of the three (3) media types. As summarized in Table 15, all ten (10) replicates at $5\mathrm{x}$ LoD and all 30 replicates at $2\mathrm{x}$ LoD tested positive for each target in each collection media type. The ten (10) replicates of negative samples were negative for all targets as well in each media type. Therefore, equivalency has been demonstrated between UTM, M4RT and $0.9\%$ saline collection media types for the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test. Table 15. Summary of Media Equivalency Study Results | Matrix | Concentration | n Detected/ N Tested, % Positive (Mean Ct) | | | | | --- | --- | --- | --- | --- | --- | | | | Influenza A | Influenza B | RSV | SARS-CoV-2 | | UTM | 2x LoD | 30/30, 100% (34.80) | 30/30, 100% (33.88) | 30/30, 100% (34.03) | 30/30, 100% (33.51) | | | 5x LoD | 10/10, 100% (33.33) | 10/10, 100% (32.77) | 10/10, 100% (32.75) | 10/10, 100% (31.88) | K243406 - Page 20 of 27 {20} | Matrix | Concentration | n Detected/ N Tested, % Positive (Mean Ct) | | | | | --- | --- | --- | --- | --- | --- | | | | Influenza A | Influenza B | RSV | SARS-CoV-2 | | | Negative | 0/10, (0%) (N/A) | 0/10, 0% (N/A) | 0/10, 0% (N/A) | 0/10, 0% (N/A) | | M4RT | 2x LoD | 30/30, 100% (34.94) | 30/30, 100% (34.51) | 30/30, 100% (34.44) | 30/30, 100% (34.48) | | | 5x LoD | 10/10, 100% (33.56) | 10/10, 100% (33.57) | 10/10, 100% (33.20) | 10/10, 100% (33.17) | | | Negative | 0/10, 0% (N/A) | 0/10, 0% (N/A) | 0/10, 0% (N/A) | 0/10, 0% (N/A) | | 0.9% saline | 2x LoD | 30/30, 100% (34.83) | 30/30, 100% (34.30) | 30/30, 100% (34.23) | 30/30, 100% (34.03) | | | 5x LoD | 10/10, 100% (33.37) | 10/10, 100% (32.70) | 10/10, 100% (32.74) | 10/10, 100% (31.81) | | | Negative | 0/10, 0% (N/A) | 0/10, 0% (N/A) | 0/10, 0% (N/A) | 0/10, 0% (N/A) | ## C Clinical Studies: ### 1. Clinical Sensitivity: #### a. Prospective Study The clinical performance of the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test for the detection of SARS-CoV-2, influenza A, influenza B and RSV was evaluated using subject matched paired clinical nasopharyngeal swab (NPS) and anterior nasal swab (NS) specimens prospectively collected from individuals with signs and symptoms of respiratory viral infection. NS specimens were either collected by a healthcare provider or self-collected under the supervision of a healthcare provider. Testing of clinical samples was performed with the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test at 14 point-of-care healthcare facilities (e.g., emergency rooms, outpatient clinics, and physician offices) by untrained operators. The comparator method for all four target results from the candidate device was an acceptable FDA-cleared molecular assay. Performance for NPS was assessed against comparator results from testing an aliquot of the same NPS specimen and performance for NS was established against comparator results from testing an aliquot of the same NS specimen. Subject matched paired NPS and NS samples were prospectively collected by 41 intended use operators from September 2023 to May 2024. In total, 1,730 prospectively collected paired NPS and NS specimens were collected for the evaluation of cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test. One subject was withdrawn due to not meeting the study eligibility criteria. Of the 1,729 prospective symptomatic subjects enrolled, 1,704 NPS specimens were evaluable in the SARS-CoV-2, influenza A, and influenza B analyses, 20 were non-evaluable due to missing candidate test results due to protocol deviations, and five (5) were non-evaluable due to specimen handling issues. 1,705 NPS specimens were evaluable in the RSV K243406 - Page 21 of 27 {21} analyses, 19 were non-evaluable due to missing candidate test results due to protocol deviations, and five (5) were non-evaluable due to specimen handling issues. Of the 1,729 prospective symptomatic subjects enrolled, 1,705 NS specimens were evaluable in the SARS-CoV-2 and influenza B analyses, 23 were non-evaluable due to missing or invalid candidate test results, and one (1) was non-evaluable to specimen handling issues. Two additional NS specimens obtained inconclusive comparator results for influenza A, leaving 1,703 NS specimens in the influenza A analysis. 1,706 NS specimens were evaluable in the RSV analyses, 22 were non-evaluable due to missing or invalid candidate test results, and one was non-evaluable because it was not tested due to specimen handling issues. Table 16 below provides a summary of the demographic information for subjects included in the performance analysis from the prospective clinical study. Table 16. Demographics of Subjects from Prospective Population that were Included in the Performance Analysis | Age Group (Years) | Overall N(%) (N=1729) | | --- | --- | | <1 | 33 (1.9%) | | 1 - <18 | 434 (25.1%) | | 18 - <30 | 381 (22.0%) | | 30 - <40 | 246 (14.2%) | | 40 - <50 | 200 (11.6%) | | 50 - <60 | 181 (10.5%) | | >=60 | 254 (14.7%) | A summary of the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test prospective clinical study performance is provided in Table 17. Positive Percent Agreement (PPA) for the NPS specimen tested on the candidate and comparator device and NS specimen tested on the candidate and comparator device was calculated as $100\% \times (\mathrm{a} / (\mathrm{a} + \mathrm{c}))$. True positive (a) indicates that both the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test and the comparator method had a positive result for the specific analyte, and false negative (c) indicates that the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test was negative while the comparator result was positive. Negative Percent Agreement (NPA) for the NPS specimen tested on the candidate and comparator device and NS specimen tested on the candidate and comparator device was calculated as $100\% \times (\mathrm{b} / (\mathrm{b} + \mathrm{d}))$. True negative (b) indicates that both the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test and the comparator method had negative results, and false positive (d) indicates that the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test was positive while the comparator result was negative. Specimens that obtained discordant results underwent additional testing with an FDA cleared SARS-CoV-2/influenza A/B/RSV molecular test, when sufficient sample volume remained. K243406 - Page 22 of 27 {22} Table 17. Clinical Performance of the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test in the Prospective Study | Analyte | Specimen Type | Total (N) | Positive Percent Agreement | | | Negative Percent Agreement | | | | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | | | a/ (a+c) | % | 95% CI | b/ (b+d) | % | 95% CI | | SARS-CoV-2 | NPS | 1704 | 207/2191 | 94.5 | 90.7-96.8 | 1450/14852 | 97.6 | 96.7-98.3 | | | NS | 1705 | 208/2153 | 96.7 | 93.2-98.4 | 1448/14904 | 97.2 | 96.2-97.9 | | Influenza A | NPS | 1704 | 54/54 | 100.0 | 93.4-100 | 1639/16505 | 99.3 | 98.8-99.6 | | | NS | 1703 | 53/53 | 100.0 | 93.2-100 | 1639/16506 | 99.3 | 98.8-99.6 | | Influenza B | NPS | 1704 | 22/22 | 100.0 | 85.1-100 | 1670/16827 | 99.3 | 98.8-99.6 | | | NS | 1705 | 24/24 | 100.0 | 86.2-100 | 1672/16818 | 99.5 | 99.0-99.7 | | RSV | NPS | 1705 | 70/70 | 100.0 | 94.8-100 | 1618/16359 | 99.0 | 98.3-99.3 | | | NS | 1706 | 79/8110 | 97.5 | 91.4-99.3 | 1606/162511 | 98.8 | 98.2-99.3 | N = Total number of paired samples, CI = Confidence Interval, NPS = Nasopharyngeal swab, NS = Anterior Nasal Swab Note: a = number of samples where both the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test and the comparator tests are positive; b = number of samples where the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test is positive and the comparator is negative; c = number of samples where the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test is negative and the comparator is positive; d = number of samples where both the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test and the comparator tests are negative. 1 Of 12 NPS specimens negative for SARS-CoV-2 on cobas liat and positive on the comparator, eight (8) were positive for SARS-CoV-2 and four (4) were negative by an FDA cleared SARS-CoV-2/influenza A/B/RSV molecular test. 2 Of 35 NPS specimens positive for SARS-CoV-2 on cobas liat and negative on the comparator, 12 were positive for SARS-CoV-2 and 23 were negative by an FDA cleared SARS-CoV-2/influenza A/B/RSV molecular test. 3 Of seven (7) NS specimens negative for SARS-CoV-2 on cobas liat and positive on the comparator, six (6) were positive for SARS-CoV-2 and one (1) was negative by an FDA cleared SARS-CoV-2/influenza A/B/RSV molecular test. 4 Of 42 NS specimens positive for SARS-CoV-2 on cobas liat and negative on the comparator, eight (8) were positive for SARS-CoV-2 and 34 were negative by an FDA cleared SARS-CoV-2/influenza A/B/RSV molecular test. 5 Of 11 NPS specimens positive for influenza A on cobas liat and negative on the comparator, two (2) were positive for influenza A and nine (9) were negative by an FDA cleared SARS-CoV-2/influenza A/B/RSV molecular test. 6 Of 11 NS specimens positive influenza A on cobas liat and negative on the comparator, one (1) was positive for influenza A and ten (10) were negative by an FDA cleared SARS-CoV-2/influenza A/B/RSV molecular test. 7 Of 12 NPS specimens positive influenza B on cobas liat and negative on the comparator, all 12 were negative by an FDA cleared SARS-CoV-2/influenza A/B/RSV molecular test. 8 Of nine (9) NS specimens positive for influenza B on cobas liat and negative on the comparator, all nine (9) were negative by an FDA cleared SARS-CoV-2/influenza A/B/RSV molecular test. 9 Of 17 NPS specimens positive for RSV on cobas liat and negative on the comparator, two (2) were positive for RSV and 15 were negative by an FDA cleared SARS-CoV-2/influenza A/B/RSV molecular test. 10 Of two (2) NS specimens negative on cobas liat and positive for RSV on the comparator, one (1) was positive for RSV and one (1) was negative by an FDA cleared SARS-CoV-2/influenza A/B/RSV molecular test. 11 Of 19 NS specimens positive for RSV on cobas liat and negative on the comparator, all 19 specimens were negative by an FDA cleared SARS-CoV-2/influenza A/B/RSV molecular test. Number of samples with positive results for more than one target observed in the prospective cohort as detected by the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test and comparator method are listed in Table 18. Table 18. Multiple Detection Combination by cobas liat SARS-CoV-2, Influenza A/B &amp; RSV in Prospective Study | Distinct Multiple Detection Combinations | | | Specimen Type | Total Multiple Detection on cobas liat | Target(s) detected by comparator method (number of samples) | | --- | --- | --- | --- | --- | --- | | Target 1 | Target 2 | Target 3 | | | | | Influenza A | Influenza B | RSV | NS | 1 | RSV(1) | K243406 - Page 23 of 27 {23} | Distinct Multiple Detection Combinations | | | Specimen Type | Total Multiple Detection on cobas liat | Target(s) detected by comparator method (number of samples) | | --- | --- | --- | --- | --- | --- | | Target 1 | Target 2 | Target 3 | | | | | Influenza A | Influenza B | | NS | 1 | Negative (1) | | Influenza A | Influenza B | | NPS | 4 | Influenza A (3), Negative (1) | | Influenza A | RSV | | NS | 1 | Influenza A (1) | | Influenza A | SARS-CoV-2 | | NS | 5 | Influenza A and SARS-CoV-2 (2), Influenza A (2), SARS-CoV-2 (1) | | Influenza A | SARS-CoV-2 | | NPS | 7 | Influenza A and SARS-CoV-2 (3), SARS-CoV2 (2), Negative (2) | | Influenza B | RSV | | NS | 3 | Influenza B and RSV (2), Negative (1) | | Influenza B | RSV | | NPS | 2 | Influenza B and RSV (1), Influenza B (1) | | Influenza B | SARS-CoV-2 | | NS | 3 | Influenza B and SARS-CoV-2 (1), Influenza B (2) | | RSV | SARS-CoV-2 | | NS | 6 | SARS-CoV-2 (1), RSV (2), Negative (3) | | RSV | SARS-CoV-2 | | NPS | 1 | RSV (1) | ## b. Retrospective Study Influenza B was of lower prevalence and was not encountered in sufficiently large numbers during the prospective clinical study to adequately demonstrate assay performance. To supplement the results of the prospective clinical study, retrospective frozen clinical NPS and NS specimens collected in Universal Viral Transport medium (UVT) or Universal Transport Medium (UTM) from individuals with signs and symptoms of respiratory viral infection were tested. Frozen archived (Category III) influenza B positive and negative NPS (n=223) and NS (n=206) specimens obtained between 2019 and 2023 were distributed to 6 sites and tested in the course of the daily workflow. One (1) NPS sample pre-characterized as positive for influenza B was non-evaluable due to missing/invalid results on the comparator method. The comparator method was an acceptable FDA-cleared molecular assay. Available demographic data regarding the individuals from the retrospective study are shown in Table 19. Table 19. Demographics of Subjects from Retrospective Population | Age Group (Years) | Overall N(%) (N=429) | | --- | --- | | <1 | 0 (0.00%) | | 1 - <18 | 129 (30.07%) | | 18 - <30 | 77 (17.95%) | | 30 - <40 | 79 (18.41%) | K243406 - Page 24 of 27 {24} | Age Group (Years) | Overall N(%) (N=429) | | --- | --- | | 40 - <50 | 28 (6.53%) | | 50 - <60 | 14 (3.26%) | | >=60 | 23 (5.36%) | | Not reported | 79 (18.41%) | A summary of the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test agreement for influenza B with the comparator method is provided in Table 20. Positive Percent Agreement (PPA) for the NPS specimen tested on the candidate and comparator device and NS specimen tested on the candidate and comparator device was calculated as $100\% \times (\mathrm{a} / (\mathrm{a} + \mathrm{c}))$. True positive (a) indicates that both the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test and the comparator method had a positive result for influenza B, and false negative (c) indicates that the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test was negative while the comparator result was positive for influenza B. Negative Percent Agreement (NPA) for the NPS specimen tested on the candidate and comparator device and NS specimen tested on the candidate and comparator device was calculated as $100\% \times (\mathrm{b} / (\mathrm{b} + \mathrm{d}))$. True negative (b) indicates that both the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test and the comparator method had negative influenza B results, and false positive (d) indicates that the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test was positive for influenza B while the comparator result was negative. Specimens that obtained discordant results underwent additional testing with an FDA cleared molecular test, when sufficient sample volume remained. Table 20. Agreement of cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test and Comparator test for influenza B in retrospective samples | Analyte | Specimen Type | Total (N) | Positive Percent Agreement | | | Negative Percent Agreement | | | | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | | | a/ (a+c) | % | 95% CI | b/ (b+d) | % | 95% CI | | Influenza B | NPS | 222 | 34/34 | 100.0 | 89.8-100 | 184/188^{1} | 97.9 | 94.7-99.2 | | | NS | 206 | 34/34 | 100.0 | 89.8-100 | 169/172^{2} | 98.3 | 95.0-99.4 | N = Total number of paired samples, CI = Confidence Interval, NPS = Nasopharyngeal swab, NS = Anterior Nasal Swab Note: a = number of samples where both the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test and the comparator tests are positive; b = number of samples where the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test is positive and the comparator is negative; c = number of samples where the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test is negative and the comparator is positive; d = number of samples where both the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test and the comparator tests are negative. 1 Of four (4) NPS specimens positive for influenza B on cobas liat and negative on the comparator, all four (4) were negative by an FDA cleared molecular test. 2 Of three (3) NS specimens positive for influenza B on cobas liat and negative on the comparator, one (1) was positive for influenza B and 2 were negative by an FDA cleared molecular test. 2. Clinical Specificity: See Section "Clinical Sensitivity" above 3. Other Clinical Supportive Data (When 1. and 2. Are Not Applicable): Not applicable K243406 - Page 25 of 27 {25} D Clinical Cut-Off: Not applicable. E Expected Values/Reference Range: The cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test prospective clinical study included a total of 1,729 prospectively collected NPS and NS specimens, of which 1,706 NS specimens and 1,705 NPS specimens were evaluable. The number and percentage of cases positive for SARS-CoV-2, influenza A, influenza B, and RSV, as determined by the cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test, are presented in Table 21, stratified by collection site. Table 21. cobas liat SARS-CoV-2, Influenza A/B &amp; RSV nucleic acid test – Expected Values by Specimen Collection Site for NPS and NS Specimens for the Prospective Study | Site | % Positivity (n Positive/N Total Samples) | | | | | | | | | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | SARS-CoV-2 | | Influenza A | | Influenza B | | RSV | | | | NPS | NS | NPS | NS | NPS | NS | NPS | NS | | Site 1 | 6.0% (4/67) | 7.5% (5/67) | 4.5% (3/67) | 4.5% (3/67) | 0.0% (0/67) | 0.0% (0/67) | 0.0% (0/67) | 0.0% (0/67) | | Site 2 | 12.2% (5/41) | 12.2% (5/41) | 2.4% (1/41) | 0.0% (0/41) | 2.4% (1/41) | 2.4% (1/41) | 4.9% (2/41) | 4.9% (2/41) | | Site 3 | 6.1% (2/33) | 3.0% (1/33) | 0.0% (0/33) | 0.0% (0/33) | 0.0% (0/33) | 0.0% (0/33) | 18.2% (6/33) | 18.2% (6/33) | | Site 4 | 0.0% (0/42) | 0.0% (0/42) | 7.1% (3/42) | 9.5% (4/42) | 0.0% (0/42) | 0.0% (0/42) | 19.0% (8/42) | 21.4% (9/42) | | Site 5 | 17.5% (54/308) | 21.5% (66/307) | 0.3% (1/308) | 0.0% (0/307) | 1.0% (3/308) | 0.7% (2/307) | 1.6% (5/308) | 2.9% (9/307) | | Site 6 | 20.0% (34/170) | 20.3% (35/172) | 10.0% (17/170) | 10.5% (18/172) | 0.0% (0/170) | 0.0% (0/172) | 5.8% (10/171) | 4.6% (8/173) | | Site 7 | 7.1% (13/184) | 8.1% (15/185) | 3.3% (6/184) | 3.8% (7/185) | 8.7% (16/184) | 8.1% (15/185) | 18.5% (34/184) | 21.6% (40/185) | | Site 8 | 3.0% (2/66) | 3.0% (2/66) | 1.5% (1/66) | 0.0% (0/66) | 1.5% (1/66) | 1.5% (1/66) | 1.5% (1/66) | 1.5% (1/66) | | Site 9 | 26.1% (42/161) | 26.1% (42/161) | 3.1% (5/161) | 3.1% (5/161) | 2.5% (4/161) | 2.5% (4/161) | 3.7% (6/161) | 3.7% (6/161) | | Site 10 | 17.3% (29/168) | 16.7% (28/168) | 0.6% (1/168) | 0.6% (1/168) | 0.0% (0/168) | 0.0% (0/168) | 1.2% (2/168) | 1.2% (2/168) | | Site 11 | 14.5% (29/200) | 12.9% (26/201) | 1.5% (3/200) | 1.0% (2/201) | 0.0% (0/200) | 0.0% (0/201) | 0.0% (0/200) | 1.0% (2/201) | | Site 12 | 3.9% (6/154) | 3.9% (6/152) | 11.0% (17/154) | 11.8% (18/152) | 1.9% (3/154) | 2.6% (4/152) | 6.5% (10/154) | 6.6% (10/152) | | Site 13 | 14.3% (8/56) | 12.5% (7/56) | 1.8% (1/56) | 0.0% (0/56) | 10.7% (6/56) | 10.7% (6/56) | 3.6% (2/56) | 3.6% (2/56) | | Site 14 | 25.9% (14/54) | 22.2% (12/54) | 11.1% (6/54) | 13.0% (7/54) | 0.0% (0/54) | 0.0% (0/54) | 1.9% (1/54) | 1.9% (1/54) | | All | 14.2% (242/1704) | 14.7% (250/1705) | 3.8% (65/1704) | 3.8% (65/1705) | 2.0% (34/1704) | 1.9% (33/1705) | 5.1% (87/1705) | 5.7% (98/1706) | K243406 - Page 26 of 27 {26} F Other Supportive Instrument Performance Characteristics Data: Not applicable VIII Proposed Labeling: The labeling supports the finding of substantial equivalence for this device. IX Conclusion: The submitted information in this premarket notification is complete and supports a substantial equivalence decision. K243406 - Page 27 of 27