QEP · Nucleic Acid Detection System For Non-Viral Microorganism(S) Causing Sexually Transmitted Infections
Microbiology · 21 CFR 866.3393 · Class 2
Overview
| Product Code | QEP |
|---|---|
| Device Name | Nucleic Acid Detection System For Non-Viral Microorganism(S) Causing Sexually Transmitted Infections |
| Regulation | 21 CFR 866.3393 |
| Device Class | Class 2 |
| Review Panel | Microbiology |
Identification
A device to detect nucleic acids from non-viral microorganism(s) causing sexually transmitted infections and associated resistance marker(s) is an in vitro diagnostic device intended for the detection and identification of nucleic acids from non-viral microorganism(s) and their associated resistance markers in clinical specimens collected from patients suspected of sexually transmitted infections. The device is intended to aid in the diagnosis of non-viral sexually transmitted infections in conjunction with other clinical and laboratory data. These devices do not provide confirmation of antibiotic susceptibility since mechanisms of resistance may exist that are not detected by the device.
Classification Rationale
Class II (special controls). The special controls for this device are:
Special Controls
A device to detect nucleic acids from non-viral microorganism(s) causing sexually transmitted infections and associated resistance marker(s) must comply with the following special controls: (1) The intended use for the 21 CFR 809.10 labeling must include a detailed description of targets the device detects, the results provided to the user, the clinical indications appropriate for test use, and the specific population(s) for which the device is intended. (2) Any sample collection device used must be FDA-cleared, -approved, or -classified as 510(k) exempt (standalone or as part of a test system) for the collection of specimen types claimed by this device: alternatively, the sample collection device must be cleared in a premarket submission as a part of this device. (3) The 21 CFR 809.10(b) labeling must include: (i) A detailed device description, including reagents, instruments, ancillary materials, all control elements, and a detailed explanation of the methodology, including all pre-analytical methods for processing of specimens; (ii) Detailed discussion of the performance characteristics of the device for all claimed specimen types based on analytical studies, including, but not limited to. Limit of Detection, inclusivity, cross-reactivity, interfering substances, competitive inhibition, carryover/cross contamination, specimen stability, with-in lab precision, and reproducibility, as appropriate; (iii) Detailed descriptions of the test procedure, the interpretation of test results for clinical specimens, and acceptance criteria for any quality control testing. (iv) Limiting statements indicating that: (A)a negative test result does not preclude the possibility of infection; (B) the test results should be interpreted in conjunction with other clinical and laboratory data available to the clinician; (C) reliable results are dependent on adequate specimen collection, transport, storage, and processing. Failure to observe procedures in any one of these steps can lead to incorrect results; and (D)if appropriate (e.g., recommended by CDC, by current well-accepted clinical guidelines, or by published peer reviewed research), that the clinical performance is inferior in a specific clinical subpopulation or for a specific claimed specimen type. (v) If the device is intended to detect antimicrobial resistance markers, limiting statements, as appropriate, indicating that: (A)negative results for claimed resistance markers do not indicate susceptibility of detected microorganisms, as resistance markers not measured by the assay or other potential mechanisms of antibiotic resistance may be present; (B) detection of resistance markers cannot be definitively linked to specific microorganisms and the source of a detected resistance marker may be an organism not detected by the assay, including colonizing flora; (C) detection of antibiotic resistance markers may not correlate with phenotypic gene expression; and (D) therapeutic failure or success cannot be determined based on the assay results, since nucleic acid may persist following appropriate antimicrobial therapy. (4) Design verification and validation must include: (i) Detailed device description documentation, including, but not limited to, methodology from obtaining sample to result, design of primer/probe sequences, rationale for target sequence selection, and computational path from collected raw data to reported result (e.g., how collected raw signals are converted into a reported result). (ii) Detailed documentation of analytical studies including but not limited to, Limit of Detection, inclusivity, cross-reactivity, microbial interference, interfering substances, competitive inhibition, carryover/cross contamination, specimen stability, with-in lab precision, and reproducibility, as appropriate. (iii) Detailed documentation and performance results from a clinical study that includes prospective (sequential) samples for each claimed specimen type and, when determined to be appropriate by FDA, additional characterized clinical samples. The study must be performed on a study population consistent with the intended use population and compare the device performance to results obtained from FDA accepted comparator methods. Documentation from the clinical studies must include the clinical study protocol (including a predefined statistical analysis plan) study report, testing results, and results of all statistical analyses. (iv) A detailed description of the impact of any software, including, but not limited to, software applications and hardware-based devices that incorporate software, on the device's functions.
*Classification.* Class II (special controls). The special controls for this device are:(1) The intended use for the labeling required under § 809.10 of this chapter must include a detailed description of targets the device detects, the results provided to the user, the clinical indications appropriate for test use, and the specific population(s) for which the device is intended. (2) Any sample collection device used must be FDA-cleared, -approved, or -classified as 510(k) exempt (standalone or as part of a test system) for the collection of specimen types claimed by this device; alternatively, the sample collection device must be cleared in a premarket submission as a part of this device. (3) The labeling required under § 809.10(b) of this chapter must include: (i) A detailed device description, including reagents, instruments, ancillary materials, all control elements, and a detailed explanation of the methodology, including all pre-analytical methods for processing of specimens; (ii) Detailed discussion of the performance characteristics of the device for all claimed specimen types based on analytical studies, including Limit of Detection, inclusivity, cross-reactivity, interfering substances, competitive inhibition, carryover/cross contamination, specimen stability, within lab precision, and reproducibility, as appropriate; (iii) Detailed descriptions of the test procedure, the interpretation of test results for clinical specimens, and acceptance criteria for any quality control testing; (iv) Limiting statements indicating that: (A) A negative test result does not preclude the possibility of infection; (B) The test results should be interpreted in conjunction with other clinical and laboratory data available to the clinician; (C) Reliable results are dependent on adequate specimen collection, transport, storage, and processing. Failure to observe proper procedures in any one of these steps can lead to incorrect results; and (D) If appropriate ( *e.g.,* recommended by the Centers for Disease Control and Prevention, by current well-accepted clinical guidelines, or by published peer reviewed research), that the clinical performance is inferior in a specific clinical subpopulation or for a specific claimed specimen type; and(v) If the device is intended to detect antimicrobial resistance markers, limiting statements, as appropriate, indicating that: (A) Negative results for claimed resistance markers do not indicate susceptibility of detected microorganisms, as resistance markers not measured by the assay or other potential mechanisms of antibiotic resistance may be present; (B) Detection of resistance markers cannot be definitively linked to specific microorganisms and the source of a detected resistance marker may be an organism not detected by the assay, including colonizing flora; (C) Detection of antibiotic resistance markers may not correlate with phenotypic gene expression; and (D) Therapeutic failure or success cannot be determined based on the assay results, since nucleic acid may persist following appropriate antimicrobial therapy. (4) Design verification and validation must include: (i) Detailed device description documentation, including methodology from obtaining sample to result, design of primer/probe sequences, rationale for target sequence selection, and computational path from collected raw data to reported result ( *e.g.,* how collected raw signals are converted into a reported result).(ii) Detailed documentation of analytical studies, including, Limit of Detection, inclusivity, cross-reactivity, microbial interference, interfering substances, competitive inhibition, carryover/cross contamination, specimen stability, within lab precision, and reproducibility, as appropriate. (iii) Detailed documentation and performance results from a clinical study that includes prospective (sequential) samples for each claimed specimen type and, when determined to be appropriate by FDA, additional characterized clinical samples. The study must be performed on a study population consistent with the intended use population and compare the device performance to results obtained from FDA accepted comparator methods. Documentation from the clinical studies must include the clinical study protocol (including a predefined statistical analysis plan) study report, testing results, and results of all statistical analyses. (iv) A detailed description of the impact of any software, including software applications and hardware-based devices that incorporate software, on the device's functions.
Recent Cleared Devices (20 of 21)
Showing 20 most recent of 21 cleared devices.
| Record | Device Name | Applicant | Decision Date | Decision |
|---|---|---|---|---|
| K251501 | Visby Medical Men's Sexual Health Test | Visby Medical, Inc. | Oct 1, 2025 | SESE |
| K243343 | BD CTGCTV2 | Bd Integrated Diagnostic Solutions/Becton, | Apr 22, 2025 | SESE |
| K240217 | cobas® liat CT/NG nucleic acid test | Roche Molecular Systems, Inc. | Jan 17, 2025 | SESE |
| K240197 | cobas® liat CT/NG/MG nucleic acid test | Roche Molecular Systems, Inc. | Jan 16, 2025 | SESE |
| K230267 | NeuMoDx CT/NG Assay 2.0 | Neumodx Molecular, Inc. | Dec 22, 2023 | SESE |
| K220407 | Visby Medical Sexual Health Test | Visby Medical | Mar 7, 2023 | SESE |
| K222379 | Alinity m STI Assay | Abbott Molecular, Inc. | Mar 3, 2023 | SESE |
| K220321 | Aptima Combo 2 Assay (250 test kit) Panther, Aptima Combo 2 Assay (250 test kit) Tigris, Aptima Trichomonas Vaginalis Assay (250 test kit) Panther, Aptima Trichomonas Vaginalis Assay (250 test kit) Tigris | Hologic, Inc. | Jun 3, 2022 | SESE |
| K210585 | BD CTGCTV2 | Becton, Dickinson and Company | May 10, 2022 | SESE |
| K202977 | Alinity m STI Assay | Abbott Molecular, Inc. | Apr 29, 2022 | SESE |
| K193081 | Rheonix STI TriPlex Assay, Rheonix EncompassMDx Workstation (instrument and software), Rheonix Urine Specimen Collection Kit | Rheonix, Inc. | Dec 17, 2021 | SESE |
| K200748 | Visby Medical Sexual Health | Visby Medical | Aug 26, 2021 | SESE |
| K202408 | cobas CTNG for use on cobas 6800/8800 systems | Roche Molecular Systems, Inc. | Jan 21, 2021 | SESE |
| K200866 | Aptima Combo 2 Assay (Panther System), Aptima Combo 2 Assay (Tigris) System) | Hologic, Inc. | May 17, 2020 | SESE |
| K200533 | binx io CT/NG Assay and binx io CT/NG System | Binx Health, Inc. | Apr 27, 2020 | SESE |
| K200436 | Aptima Combo 2 Assay (Panther) - 250 test kit, Aptima Combo 2 Assay (Tigris) - 250 test kit, Aptima Trichomonas Vaginalis (Panther) - 250 test kit, Aptima Trichomonas Vaginalis (Tigris) - 250 test kit | Hologic, Inc. | Mar 23, 2020 | SESE |
| K191352 | binx health io CT/NG Assay | Binx Health, Inc. | Aug 8, 2019 | SESE |
| K190515 | Aptima Combo 2 Assay (Panther System) | Hologic, Inc. | May 23, 2019 | SESE |
| K190441 | Xpert CT/NG, GeneXpert Dx System, GeneXpert Infinity-48s and GeneXpert Infinity-80 Systems, GeneXpert Infinity-48 System, Xpert Vaginal/Endocervical Specimen Collection, Xpert Urine Specimen Collection Kit, Xpert Swab Specimen Collection Kit | Cepheid | May 23, 2019 | SESE |
| K190433 | cobas TV/MG for use on cobas 6800/8800 systems, cobas TV/MG Positive Control Kit, cobas Buffer Negative Control Kit | Roche Molecular Systems, Inc. | May 22, 2019 | SESE |
Top Applicants
- Hologic, Inc. — 5 clearances
- Roche Molecular Systems, Inc. — 4 clearances
- Visby Medical — 2 clearances
- Binx Health, Inc. — 2 clearances
- Abbott Molecular, Inc. — 2 clearances
