D3 FASTPOINT L-DFA PARAINFLUENZA VIRUS/ADENOVIRUS IDENTIFICATION KIT

{0} 1 # 510(k) SUBSTANTIAL EQUIVALENCE DETERMINATION DECISION SUMMARY A. 510(k) Number: K093415 B. Purpose for Submission: A new 510(k) application for the Diagnostic Hybrids, Inc. device, D³ FastPoint L-DFA Parainfluenza Virus/Adenovirus Identification Kit, which is intended for the qualitative identification of adenovirus and to screen for the presence of parainfluenza virus types 1, 2, and 3 in nasal and nasopharyngeal swabs and aspirates/washes specimens from patients with signs and symptoms of respiratory infection by direct detection of immunofluorescence using monoclonal antibodies (MAbs). C. Measurand: Respiratory viral antigens (Adenovirus, Parainfluenza virus types 1, 2 and 3) D. Type of Test: Direct Fluorescence Antibody (DFA) test using direct specimens E. Applicant: Diagnostic Hybrids Incorporated F. Proprietary and Established Names: D³ FastPoint L-DFA Parainfluenza Virus/Adenovirus Identification Kit G. Regulatory Information: 1. Regulation section: 866.3400 2. Classification: Class I 3. Product codes: GQS, GNY {1} 4. Panel: Microbiology (83) H. Intended Use: 1. Intended use(s): The Diagnostic Hybrids, Inc. device, D³ FastPoint L-DFA Parainfluenza Virus/Adenovirus Identification Kit is intended for the qualitative identification of adenovirus and to screen for the presence of parainfluenza virus types 1, 2, and 3 in nasal and nasopharyngeal swabs and aspirates/washes specimens from patients with signs and symptoms of respiratory infection by direct detection of immunofluorescence using monoclonal antibodies (MAbs). It is recommended that specimens found to be negative for parainfluenza virus and adenovirus after examination of the direct specimen result be confirmed by cell culture. Negative results do not preclude parainfluenza virus and adenovirus infection and should not be used as the sole basis for diagnosis, treatment or other management decisions. 2. Indication(s) for use: Same as Intended Use 3. Special conditions for use statement(s): For prescription use only. 4. Special instrument requirements: Fluorescence microscope with the appropriate filter combination for FITC (excitation peak = 490 nm, emission peak = 520 nm) and for R-PE; magnification 200-400X. I. Device Description: The D³ FastPoint L-DFA Parainfluenza Virus/Adenovirus Identification Kit uses a blend (called a “L-DFA Reagent”) of viral antigen-specific murine monoclonal antibodies that are directly labeled with either R-PE (parainfluenza virus) or fluorescein isothiocyanate (FITC) (adenovirus) for the rapid identification of parainfluenza virus and adenovirus in nasal and nasopharyngeal swabs and aspirates/washes from patients with signs and symptoms of respiratory infection. Kit Components: {2} 1. D³ FastPoint L-DFA Parainfluenza Virus/Adenovirus Reagent, 4.0-mL. One dropper bottle containing a mixture of PE-labeled murine monoclonal antibodies directed against parainfluenza virus types 1, 2, or 3 antigens and FITC-labeled murine monoclonal antibodies directed against adenovirus antigens. The buffered, stabilized, aqueous solution contains Evans Blue and propidium iodide as counter-stains and 0.1% sodium azide as preservative. 2. 40X PBS Concentrate, 25-mL. One bottle of 40X PBS concentrate containing 4% sodium azide (0.1% sodium azide after dilution to 1X using de-mineralized water). 3. Re-suspension Buffer, 6.0-mL. One bottle of a buffered glycerol solution and 0.1% sodium azide. 4. D³ FastPoint L-DFA Parainfluenza Virus/Adenovirus Antigen Control Slides, 5-slides. Five individually packaged control slides containing 2 wells with cell culture derived positive and negative control cells. Each positive well contains cells infected with either parainfluenza virus type 3 or adenovirus. The negative wells contain non-infected cells. Each slide is intended to be stained only one time. 5. D³ FastPoint L-DFA Specimen Slides and Coverslips, 50-slides with coverslips. Fifty pack of 3-well specimen slides. An overview of the procedure is as follows: The cells to be tested are derived from respiratory specimens from patients with signs and symptoms of respiratory infection. The cells are permeabilized and stained concurrently in a liquid suspension format with the L-DFA Reagent. After incubating at 35°C to 37°C for 5 minutes, the stained cell suspensions are rinsed with PBS. The rinsed cells are pelleted by centrifugation and then re-suspended with the resuspension buffer and loaded onto a specimen slide well. The cells are examined using a fluorescence microscope. Cells infected with parainfluenza virus types 1, 2 and 3 will exhibit golden yellow fluorescence due to the PE. Cells infected with adenovirus will exhibit apple-green fluorescence due to the FITC. Non-infected cells will exhibit red fluorescence due to the Evans Blue counter-stain. Nuclei of intact cells will exhibit orange-red fluorescence due to the propidium iodide. Materials Provided: 1. D³ FastPoint L-DFA Parainfluenza Virus/Adenovirus Reagent 2. Re-suspension Buffer 3. D³ FastPoint L-DFA Parainfluenza Virus/Adenovirus Antigen Control Slides 4. 40X PBS Concentrate 5. D³ FastPoint L-DFA Specimen Slides and Coverslips Materials Required But Not Provided: 1. Fluorescence microscope with the correct filter combination for FITC (excitation peak = 490 nm, emission peak = 520nm) and for R-PE; magnification 200 to 400X. 2. Fine-tip, disposable transfer pipettes. {3} 3. Cover slips (22 x 50mm) for Antigen Control Slides. 4. Adjustable pipettes (20 to 200 and 200 to 1000-μL). 5. Pipette tips (20 to 200 and 200 to 1000-μL) 6. 200-mL wash bottle. 7. 1.7-mL centrifuge vials. 8. 15-mL conical centrifuge tube. 9. Sodium hypochlorite solution (1:10 final dilution of household bleach). 10. Humidified chamber (e.g., covered Petri dish with a damp paper towel placed in the bottom) or humidified incubator. 11. Incubator, 35° to 37°C (CO₂ or non-CO₂, depending on the cell culture format used). 12. Centrifuge with free-swinging bucket rotor. 13. De-mineralized water for dilution of 40X PBS Concentrate. 14. Stat-Spin Centrifuge (or bench top centrifuge capable of 2-minutes at 2000xg). ## J. Substantial Equivalence Information: 1. Predicate device name(s): Diagnostic Hybrids, Inc. D³ Ultra DFA Respiratory Virus Screening & ID Kit Diagnostic Hybrids, Inc. D³ Duet DFA RSV/Respiratory Virus Screening Kit 2. Predicate k number(s): (k061101), (k081928) 3. Comparison with predicates: The intended use of the D³ FastPoint L-DFA Parainfluenza Virus/Adenovirus Identification Kit is similar to the predicate devices (D³ Ultra DFA Respiratory Virus Screening & ID Kit, and D³ Duet DFA RSV/Respiratory Virus Screening Kit. Characteristics of the D³ FastPoint L-DFA Parainfluenza Virus/Adenovirus Identification Kit are compared to those of the predicate devices, in the Table below: | Technological Characteristics Comparison of Devices | | | | --- | --- | --- | | D³ FastPoint L-DFA Parainfluenza Virus/Adenovirus Identification Kit (Subject) | D³ Ultra DFA Respiratory Virus Screening & ID Kit (Predicate) | D³ Duet DFA RSV/Respiratory Virus Screening Kit (Predicate) | | Target Viruses | | | | Adenovirus, HPIV-1,2,3 | Flu A, Flu B, RSV, Adenovirus, HPIV-1,2,3 | Flu A, Flu B, RSV, Adenovirus, HPIV-1,2,3 | | Monoclonal antibodies (MAbs) | | | | 3 MAbs to Adenovirus and 6 MAbs to HPIV-1,2,3) | 15 MAbs to7 different respiratory viruses | 15 MAbs to7 different respiratory viruses | {4} | | (Flu A, Flu B, RSV, Adenovirus, HPIV-1,2,3) | (Flu A, Flu B, RSV, Adenovirus, HPIV-1,2,3) | | --- | --- | --- | | Labeling method | | | | Direct labeling using R-Phycoerythrin (R-PE) to label the MAbs to HPIV-1,2,3 using fluorescein isothiocyanate (FITC) to label Adenovirus MAbs with fluorescein | Direct labeling using fluorescein isothiocyanate (FITC) to label Flu A, Flu B, RSV, Adenovirus, HPIV 1,2,3 MAbs with fluorescein | Direct labeling using R-Phycoerythrin (R-PE) to label the MAbs to RSV using fluorescein isothiocyanate (FITC) to label Flu A, Flu B, Adenovirus, and HPIV-1,2,3 MAbs with fluorescein | | R-Phycoerythrin-labeled MAbs | | | | HPIV-1,2,3 | None | RSV | | Fluorescein-labeled MAbs | | | | Adenovirus | Flu A, Flu B, RSV, Adenovirus and HPIV 1,2,3 | Flu A, Flu B, Adenovirus, and HPIV-1,2,3 | | Cell Fixative | | | | Sapogenin | Acetone | Acetone | | Cell Counter-stain | | | | Propidium Iodide and Evans Blue | Evans Blue | Evans Blue | # K. Standard/Guidance Document Referenced (if applicable): Guidance on Informed Consent for In Vitro Diagnostic Device Studies Leftover Human Specimens that are Not Individually Identifiable (April 2006) Statistical Guidance on Reporting Results from Studies Evaluating Diagnostic Tests; Guidance for Industry and FDA Reviewers (March 2007) - Format for Traditional and Abbreviated 510(k)s - Guidance for Industry and FDA Staff - Draft Guidance for Industry and FDA Staff: Establishing the Performance Characteristics of In Vitro Diagnostic Devices for the Detection or Detection and Differentiation of Influenza Viruses (Feb 2008) # L. Test Principle: The $\mathrm{D}^3$ FastPoint L-DFA Parainfluenza Virus/Adenovirus Identification Kit uses a blend (called a "L-DFA Reagent") of viral antigen-specific murine monoclonal antibodies that are directly labeled with either R-PE (parainfluenza virus) or fluorescein (adenovirus) for the rapid identification of parainfluenza virus and adenovirus in nasal and nasopharyngeal swabs and aspirates/washes from patients with signs and symptoms of respiratory infection. The cells to be tested are derived from respiratory specimens from patients with signs and symptoms of respiratory infection. The cells are permeabilized and stained concurrently in a liquid suspension format with the L-DFA Reagent. After incubating at $35^{\circ}\mathrm{C}$ to $37^{\circ}\mathrm{C}$ for 5 minutes, the stained cell suspensions are rinsed with PBS. The rinsed cells are pelleted by centrifugation and then re-suspended with the re-suspension buffer and loaded onto a {5} specimen slide well. The cells are examined using a fluorescence microscope. Cells infected with parainfluenza virus types 1, 2 and 3 will exhibit golden yellow fluorescence due to the PE. Cells infected with adenovirus will exhibit apple-green fluorescence due to the FITC. Non-infected cells will exhibit red fluorescence due to the Evans Blue counterstain. Nuclei of intact cells will exhibit orange-red fluorescence due to the propidium iodide. It is recommended that results for specimens found to contain no fluorescent cells after examination of the direct specimen result be confirmed by cell culture. ## M. Performance Characteristics (if/when applicable): ### 1. Analytical performance: #### a. Precision/Reproducibility: Assay precision, intra-assay variability and inter assay variability were assessed with a reproducibility panel of proficiency-level antigen control slides. Each of the reproducibility panel consisted of 5 randomized panel members. The HPIV/Adenovirus panel consisted of the following: a. Low level Para 1 (C-35 strain) infected cells. b. Low level Adenovirus (ATCC type 1) infected cells. c. Low level Para 1 (C-35 strain) infected cells mixed with mid level Adenovirus (ATCC type 1) infected cells. d. Low Adenovirus (ATCC type 1) infected cells mixed with mid level Para 1 (C-35 strain) infected cells. e. Mid level non-infected (negative) cells. The low level is estimated to contain between 4 to 10% infected cells in the sample. The mid level is estimated to contain between 20 to 25% infected cells in the sample. Each sample contains 2.5 x 10⁵ to 3.5 x 10⁵ total cells. Each panel was tested daily in two separate runs for 5-days by four different laboratories (40 total runs). The following results were recorded: a. Presence or absence of golden-yellow fluorescence. b. Percent of cells exhibiting golden-yellow fluorescence. c. Presence or absence of apple-green fluorescence. d. Percent of cells exhibiting apple-green fluorescence. Note: "Processing of specimen", although a source of variability, was done according to each laboratory's established practices. The product insert for this device instructs the laboratory to process a specimen according to Clinical Microbiology Handbook (H.D. Isenberg, 2004, publ. by ASM; sections 10.7.1-10.7.10). As such, testing reproducibility of "processing of specimen" is beyond the scope of this reproducibility study. This study accessed reproducibility of the 6 {6} test alone, i.e., "chemistry of assay" (DFA staining) and "interpretation of result". "Interpretation of result" is considered to be the largest source for variability for this test. Interpretation of test is subjective, according to potential variability in an individual technician's competence, experience, and/or diligence in microscopic evaluations of stained cells. A total of 280 data points were included in the reproducibility study data analysis (1 panel X 7 members/run X 2 runs/day X 5 days X 4 sites = 280). For the $\mathrm{D}^3$ FastPoint L-DFA HPIV/Adenovirus Reagent, the combined data from the four Study Sites demonstrated reproducible detection of HPIV-1 by the R-PE labeled MAbs and reproducible detection of Adenovirus by the FITC-labeled MAbs. The presence of HPIV-1 infected cells was reported in $100\%$ (120/120) of the wells in which the infected cells were expected. The presence of Adenovirus infected cells was reported in $100\%$ (120/120) of the wells in which the infected cells were expected. The absence of infected cells was reported in $100\%$ (40/40) of the wells in which infected cells were not present. The total percent agreement for the $\mathrm{D}^3$ FastPoint L-DFA HPIV/Adenovirus Reagent was $100\%$ (280/280): HPIV/Adenovirus $\mathbf{D}^3$ FastPoint L-DFA Reagent | | Panel Member | Negative | HPIV-1 Low Level | Adenovirus Low Level | Mixed Infection | | Mixed Infection | | Total % Agreement | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | | | | | HPIV-1 Mid Level | Adenovirus Low Level | HPIV-1 Low Level | Adenovirus Mid Level | | | | Concentration | No infected cells | 4 to 10% infected cells | 4 to 10% infected cells | 20 to 30% infected cells | 4 to 10% infected cells | 4 to 10% infected cells | 20 to 30% infected cells | | | Site 1 | Agreement with Expected result | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 70/70 (100%) | | Site 2 | Agreement with Expected result | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 70/70 (100%) | | Site 3 | Agreement with Expected result | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 70/70 (100%) | | Site 4 | Agreement with Expected result | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 10/10 (100%) | 70/70 (100%) | | | Total Agreement with Expected result | 40/40 (100%) | 40/40 (100%) | 40/40 (100%) | 40/40 (100%) | 40/40 (100%) | 40/40 (100%) | 40/40 (100%) | 280/280 (100%) | | | 95% CI | 91.2 – 100% | 91.2 – 100% | 91.2 – 100% | 91.2 – 100% | 91.2 – 100% | 91.2 – 100% | 91.2 – 100% | 98.7 – 100% | {7} b. Linearity/assay reportable range: Not applicable. c. Traceability, Stability, Expected values (controls, calibrators, or methods): ## Development and Characterization of Reagents ## Development and Characterization of MAbs Development and characterization of each MAb includes immunogen preparation, immunization, hybridoma preparation, clone selection, MAb purification, determination of relative binding affinities, Western blot testing and isotype identification. All of the monoclonal antibodies (MAbs) included in the D³ FastPoint L-DFA HPIV/Adenovirus Identification Kit have also been used in one the following DHI devices: 1. D³ Ultra DFA Respiratory Virus Screening & ID Kit that was cleared for marketing via section 510(k) k061101 on November 20, 2006. 2. D³ Duet DFA RSV/Respiratory Virus Screening Kit that was cleared for marketing via section 510(k) k081928 on December 23, 2008. ## Performance Evaluation of PE-labeled MAbs ## Reactivity of PE-labeled MAbs with Acetone-Fixed Infected Model Cells (Model Cells are A549 cell cultures infected with known isolates of parainfluenza virus types 1, 2 and 3 or adenovirus at a high (0.1) MOI. These cultures are incubated for 20 to 22 hours at 35°C to 37°C, and then processed by scraping the monolayers and resuspending the cells in a viral transport medium.) An antibody may exhibit high affinity for its target antigen until labeled with a reporter moiety such as PE due to blocking or modification of the antigen-binding site. Each of the six parainfluenza virus (2 for each parainfluenza virus types 1, 2 and 3) MAbs were labeled with PE. The individual PE-labeled MAbs were used to stain acetone-fixed parainfluenza virus types 1, 2, and 3 model cells (respectively) in order to verify that each of the MAbs remains reactive with its target after labeling with PE. The same model cells were stained concurrently with FITC-labeled MAbs for comparison. This comparison of the reactivity is summarized in the following table: {8} 9 | PE-labeled MAb versus FITC-labeled MAb Reactivity Comparison in Acetone-fixed Cells | | | | | --- | --- | --- | --- | | D^{3} FastPoint L-DFA HPIV/Adenovirus Reagent Kit MAb # | Target Virus | R-PE | FITC | | 1D8E10 | parainfluenza 1 | Reactive | Reactive | | 9F61C9 | parainfluenza 1 | Reactive | Reactive | | 2E4D7 | parainfluenza 2 | Reactive | Reactive | | 5E4E11 | parainfluenza 2 | Reactive | Reactive | | 1F6C8 | parainfluenza 3 | Reactive | Reactive | | 4G5(1)E2H9 | parainfluenza 3 | Reactive | Reactive | ## Reactivity of PE-labeled MAbs with Permeabilized Infected Model Cells (Model Cells are A549 cell cultures infected with known isolates of parainfluenza virus types 1, 2 and 3 or adenovirus at a high (0.1) MOI. These cultures are incubated for 20 to 22 hours at 35°C to 37°C, and then processed by scraping the monolayers and resuspending the cells in a viral transport medium.) Studies were conducted to demonstrate that the PE-labeled MAbs would stain infected cells in liquid suspension that have been permeabilized. The individual PE-labeled MAbs were used to stain parainfluenza virus types 1, 2, and 3 model cells (respectively) that had been permeabilized in order to verify that each of the PE-labeled MAbs remains reactive with its target. The same cells were stained with FITC-labeled MAbs. This comparison of the reactivity is summarized in the following table: | PE-labeled MAb versus FITC-labeled MAb Reactivity Comparison in Permeabilized Cells | | | | | --- | --- | --- | --- | | D^{3} FastPoint L-DFA HPIV/Adenovirus Kit MAb # | Target Virus | R-PE | FITC | | 1D8E10 | parainfluenza 1 | Reactive | Reactive | | 9F61C9 | parainfluenza 1 | Reactive | Reactive | | 2E4D7 | parainfluenza 2 | Reactive | Reactive | | 5E4E11 | parainfluenza 2 | Reactive | Reactive | | 1F6C8 | parainfluenza 3 | Reactive | Reactive | | 4G5(1)E2H9 | parainfluenza 3 | Reactive | Reactive | ## Concentration of PE-labeled MAbs Final blended solutions of the 6 parainfluenza virus MAbs were formulated to yield optimal fluorescence intensity and lowest background on their respectively infected cells, permeabilized and stained in suspension. ## Performance Evaluation of FITC-labeled MAbs Reactivity of FITC-labeled MAbs with Acetone-Fixed Infected Model Cells (Model Cells are A549 cell cultures infected with known isolates of parainfluenza virus types 1, 2 and 3 or adenovirus at a high (0.1) MOI. These cultures are incubated for 20 to 22 hours at 35°C to 37°C, and then processed by scraping the monolayers and resuspending the cells in a viral transport medium.) {9} The 3 adenovirus FITC-labeled MAbs used in the D³ FastPoint L-DFA Parainfluenza Virus/Adenovirus Identification Kit have all previously been FDA cleared for use with acetone-fixed cells. No additional testing was performed. ## Reactivity of FITC-labeled MAbs with Permeablized Infected Model Cells (Model Cells are A549 cell cultures infected with known isolates of parainfluenza virus types 1, 2 and 3 or adenovirus at a high (0.1) MOI. These cultures are incubated for 20 to 22 hours at 35°C to 37°C, and then processed by scraping the monolayers and resuspending the cells in a viral transport medium.) Studies were conducted to demonstrate that the FITC-labeled MAbs would stain infected cells in solution that have been permeabilized. The individual FITC-labeled MAbs were used to stain adenovirus model cells that had been permeabilized in order to verify that each of the FITC-labeled MAbs remains reactive with its target. All FITC-labeled MAbs reacted with the appropriate permeabilized model cells as expected, and similar to acetone-fixed cells. ## Concentration of FITC-labeled MAbs Final blended solutions of the 3 adenovirus MAbs were formulated to yield optimal fluorescence intensity and lowest background on their respectively infected cells, permeabilized and stained in suspension. ## Cell Permeablization and Counterstaining ## Selection of Permeablization Reagent The D³ FastPoint L-DFA Parainfluenza Virus/Adenovirus Identification Kit uses Sapogenin to permeablize the cell membrane instead of acetone to allow the MAbs to react with their respective antigens. Permeablization involves treatment of cells with a mild surfactant. This treatment will dissolve portions of the cell membranes and allow larger dye molecules and antibodies access to the cell's interior. This allows the cells to maintain their three dimensional structure while being stained with labeled antibodies and counter-stain. By doing this, cells can remain in liquid suspension. Studies were conducted to compare performance using acetone with that using another permeablizing reagent, Sapogenin. Sapogenins are the aglycones, or non-saccharide portions of the family of natural products known as saponins. The amphipathic nature of saponins gives them activity as surfactants that can be used to enhance penetration of macromolecules such as proteins through cell membranes. Using influenza A virus, influenza B virus and respiratory syncytial virus model cells, acetone and Sapogenin were tested at various concentrations. Acetone was tested at concentrations from 20% to 100%. Sapogenin was used at 0.1% based on what has been published in the literature. Data generated from the study indicated that at all acetone concentrations Sapogenin had greater numbers of infected cells in the liquid 10 {10} format. Based on these studies, Sapogenin was chosen as the Permeablization reagent in the D³ FastPoint L-DFA Parainfluenza Virus/Adenovirus Reagent. ## Determination of Sapogenin Concentration Experiments were conducted to optimize the concentration of Sapogenin in the D³ FastPoint L-DFA Parainfluenza Virus/Adenovirus Identification Kit. Non-infected model cells were treated with different concentrations of Sapogenin and counterstain for 5-minutes. The cells were then counted, and the values compared. Data generated from the study indicated that there was no difference in numbers of cells when Sapogenin concentrations at 0.1% to 0.025% were used. When 0.2% Sapogenin was used, reduced numbers of cells were noted, which was an indication that Sapogenin at that concentration may cause cell disruption. The 0.1% level was chosen to be used in the D³ FastPoint L-DFA Parainfluenza Virus/Adenovirus Reagent to better ensure adequate Permeablization of clinical nasal pharyngeal cells. ## Propidium Iodide Counter-stain To assist the end user in the use of the D³ FastPoint L-DFA HPIV/Adenovirus kit, improvement to the counter-staining of cells was developed. Propidium Iodide was added to the D³ FastPoint L-DFA HPIV/Adenovirus kit. The stained cell's nuclei fluoresce red. This improves the ability to assess specimen quality compared to standard acetone fixation, Evans Blue stained DSFA specimens. Subjective studies were conducted to determine the optimal concentration of Propidium Iodide. Higher concentrations of Propidium Iodide (16-μg/mL or higher) began interfering with the ability to see low level fluorescence generated by either the PE- or FITC-stained cells. Lower levels of Propidium Iodide (4-μg/mL or lower) made it difficult to see the stained nuclei. 8-μg/mL was the optimal concentration to allow easy identification of cells with no quenching of PE or FITC fluorescence. A low level of Evans Blue (25-μg/mL compared to 250-μg/mL in each of the predicate respiratory devices) is also included to help reduce background of non-specific antibody staining sometimes seen in clinical specimens. ## Reagent Interference Studies of MAbs Studies were conducted to demonstrate that the final blend of PE- and FITC-labeled MAbs in each D³ FastPoint L-DFA HPIV/Adenovirus Reagent did not affect the ability to detect low level positive infected cells that are stained by one fluor when they are in the same sample, with a high level of positive infected cells which are stained by the other fluor in the same well. The following cell preparations were permeabilized and stained with the appropriate reagent. For the HPIV/Adenovirus Reagent: {11} a. Low level (~25 or lower infected cells) parainfluenza virus type model cells were spiked into non-infected cells. b. Low level parainfluenza viruses model cells were spiked into high level $(4+)$ adenovirus model cells. c. Low level (~25 or lower infected cells) adenovirus model cells were spiked into non-infected cells. d. Low level adenovirus model cells were spiked into high level $(4+)$ parainfluenza virus model cells. The following table summarizes the study data for the three DFA Reagents: | Staining Interference of High Level Infected Model Cells | | | | --- | --- | --- | | Test Condition | Infected Cell Counts of Low Level Model Cells | Average Infected Cell Counts of Low Level Model Cells | | Low HPIV-1 model cells in non-infected cells | 7, 4, 7 | 6.0 | | Low HPIV-1 model cells in High Adenovirus model cells | 7, 3, 5 | 5.0 | | | | | | Low HPIV-2 model cells in non-infected cells | 3, 3, 7 | 4.4 | | Low HPIV-2 model cells in High Adenovirus model cells | 8, 4, 4 | 5.3 | | | | | | Low HPIV-3 model cells in non-infected cells | 3, 7, 5 | 5.0 | | Low HPIV-3 model cells in High Adenovirus model cells | 3, 5, 6 | 4.6 | | | | | | Low Adenovirus model cells in non-infected cells | 13, 15, 9 | 12.3 | | Low Adenovirus model cells in High HPIV-1 model cells | 7, 9, 8 | 8.0 | | Low Adenovirus model cells in High HPIV-2 model cells | 17, 13, 12 | 14.0 | | Low Adenovirus model cells in High HPIV-3 model cells | 9, 18, 23 | 16.6 | For each combination of low level infected cells spiked into high level of infected cells, there was not a significant difference in detection compared to the low level positive cells spiked into non-infected cells (control). # Binding Competition Studies of MAbs The three $\mathrm{D}^3$ FastPoint L-DFA HPIV/Adenovirus Reagent contains 2 parainfluenza virus type 1 MAbs, 2 parainfluenza virus type 2 MAbs, 2 parainfluenza virus type 3 MAbs and 3 adenovirus MAbs. The purpose of combining either two or three MAbs specific per virus is to ensure that all strains will be detected. Studies were conducted to determine if the individual MAbs compete with one another for the same binding sites since originally, the clones were selected for their individual and highest level of staining intensity of the respective virus antigens. Model cells of adenovirus parainfluenza virus types 1, 2, and 3 were permeabilized. Cells were stained with each unlabeled clone of the appropriate virus. The cells were then stained with the PE- or FITC-labeled MAbs for each pair. Labeled MAbs were used individually, each at their standard concentrations used in the assay. {12} Results of the study indicated that there was no evidence of self or cross epitope blocking for all the pairs of MAbs. ## Stability Studies ### Shelf life for the complete kit Kits were tested at time intervals during storage according to the study plan. Characteristics monitored were performance, as well as pH, color and clarity. Among the acceptance criteria was fluorescence (as opposed to no fluorescence) observed in processed, infected model cells at a high level of infection (2+ to 4+) for each of the D³ FastPoint L-DFA HPIV/Adenovirus Reagent at 1:16 dilution. This dilution was what was used for the D³ Ultra Reagents. Stability studies have been conducted in two phases: (1) using kits produced during the development phase according to draft written procedures, and (2) using kits produced according to established procedures by manufacturing staff (both phases are on-going). To establish the final shelf life of the device, real-time testing (under labeled storage conditions of 2°C to 8°C) is also being conducted. As of September 2009, stability has been demonstrated to 10 months. Additional real-time stability studies are currently being conducted to establish a 20°C to 25°C storage shelf-life claim for all L-DFA Reagents. As of September 2009, stability has also been demonstrated to 10 months for the 20°C to 25°C storage shelf-life claim. ### Shelf life for the D³ FastPoint L-DFA Respiratory Virus Identification Kit antigen control slides The D³ FastPoint L-DFA HPIV/Adenovirus Identification Kit Antigen Control Slides are prepared by combining infected cells (parainfluenza virus and adenovirus in one well). Non-infected cells are spotted onto an additional well for a negative control for each reagent. Stability studies are currently being conducted for the D³ FastPoint L-DFA HPIV/Adenovirus Identification Kit Antigen Control Slides; however, since they are prepared using the same procedure and same infected cell cultures as the control slides in the D³ Ultra Kit, a shelf life of 18 months is anticipated. Stability studies have been conducted in two phases: (1) using slides produced during the development phase according to draft written procedures, and (2) using slides produced according to established procedures by manufacturing staff (both phases are on-going). To establish shelf life of the device, real-time testing (under labeled storage conditions of 2°C to 8°C) is also being conducted. As of September 2009, stability has been demonstrated to 10 months. Additional real-time stability studies are currently being conducted to establish a 20°C to 25°C storage shelf-life claim for all L-DFA Reagents. As of September 2009, stability has also been demonstrated to 10 months for the 20°C to 25°C storage shelf-life claim. 13 {13} # d. Analytical Sensitivity (Detection limit): Analytical Limit of Detections of the $\mathrm{D}^3$ FastPoint L-DFA HPIV/Adenovirus Kit were addressed using dilution series of infected model cells. Model cells for adenovirus (ATCC type 1) and parainfluenza virus types 1, 2, and 3 (ATCC strains C-35, Greer, and C243 respectively) were diluted with non-infected cells to produce a suspension equivalent to 1,000 infected cells per milliliter. This level theoretically yields approximately 25 infected cells per $25 - \mu \mathrm{L}$ of suspension. This suspension was then serially diluted to a theoretical level of less than 1 cell per milliliter. (NOTE: This level was the target to begin with a low positive level. Actual starting levels vary, however, and are within 1 dilution of the 25 infected cell target level). $25 - \mu \mathrm{L}$ aliquots from each dilution level were spotted onto 10 replicate microscope slides, and then stained according to the instructions for use described in this product insert. Each cell spot was examined at $200\mathrm{x}$ magnification. Results were reported as numbers of positive replicates for each set of 10. Analytical detection limits for each of the 4 analytes were defined as the lowest dilutions at which at least 9 out of 10 replicates were detected. Results are summarized in the table below: | Limit of Detections of the D3FastPoint L-DFA Parainfluenza Virus/Adenovirus Identification Kit | | | | | --- | --- | --- | --- | | Virus Strain | Infected cells/mL | Number of replicates with positive cells | LOD determination | | Adenovirus (ATCC type 1) | 1000 | 10/10 | 100 infected cells/mL | | | 200 | 10/10 | | | | 100 | 9/10 | | | | 50 | 5/10 | | | | 25 | 1/10 | | | | 12.5 | 0/10 | | | | 6 | 0/10 | | | | 3 | 0/10 | | | | 1.5 | 0/10 | | | | 0.8 | 0/10 | | | HPIV-1 (ATCC strain C-35) | 500 | 10/10 | 100 infected cells/mL | | | 100 | 10/10 | | | | 50 | 6/10 | | | | 25 | 2/10 | | | | 12.5 | 1/10 | | | | 6 | 0/10 | | | | 3 | 0/10 | | | | 1.5 | 0/10 | | | | 0.8 | 0/10 | | | | 0.4 | 0/10 | | | HPIV-2 (ATCC strain Greer) | 500 | 10/10 | 25 infected cells/mL | | | 100 | 10/10 | | | | 50 | 10/10 | | | | 25 | 9/10 | | | | 12.5 | 6/10 | | | | 6 | 5/10 | | | | 3 | 3/10 | | | | 1.5 | 1/10 | | | | 0.8 | 0/10 | | {14} 15 | | 0.4 | 0/10 | | | --- | --- | --- | --- | | HPIV-3 (ATCC strain C243) | 1000 | 10/10 | 50 infected cells/mL | | | 200 | 10/10 | | | | 100 | 10/10 | | | | 50 | 9/10 | | | | 25 | 6/10 | | | | 12.5 | 2/10 | | | | 6 | 0/10 | | | | 3 | 0/10 | | | | 1.5 | 0/10 | | | | 0.8 | 0/10 | | e. Analytical Reactivity (Inclusivity): Analytical reactivity (inclusivity) of the D³ FastPoint L-DFA HPIV/Adenovirus Reagent was evaluated using 3 HPIV virus and 10 Adenovirus strains. Low concentration infected cell suspensions (approximately 4% cells infected, 25-50 infected cells) were prepared for each viral strain. The suspensions were stained with the HPIV/Adenovirus D³ FastPoint L-DFA Reagent. The following table summarizes the data: | Analytical Reactivity (inclusivity) of the D³ FastPoint L-DFA HPIV/Adenovirus Reagent on various parainfluenza virus and adenovirus strains | | | | --- | --- | --- | | HPIV and Adenovirus Strains | Infected Cell Concentration (as multiples of the respective established LoD concentration) | D³ FastPoint L-DFA HPIV/Adenovirus Kit Results | | Parainfluenza 1 C-35 | 10x LoD | 9 Golden-yellow fluorescent cells | | Parainfluenza 2 Greer | 10x LoD | 11 Golden-yellow fluorescent cells | | Parainfluenza 3 C-243 | 10x LoD | 22 Golden-yellow fluorescent cells | | | | | | Adenovirus 1 VR-1 | 10x LoD | 26 Apple-green fluorescent cells | | Adenovirus 3 VR-3 | 10x LoD | 17 Apple-green fluorescent cells | | Adenovirus 5 VR-5 | 10x LoD | 15 Apple-green fluorescent cells | | Adenovirus 6 VR-6 | 10x LoD | 22 Apple-green fluorescent cells | | Adenovirus 7 VR-7 | 10x LoD | 16 Apple-green fluorescent cells | | Adenovirus 8 VR-1366 | 10x LoD | 29 Apple-green fluorescent cells | | Adenovirus 10 VR-1087 | 10x LoD | 34 Apple-green fluorescent cells | | Adenovirus VR-14 | 10x LoD | 37 Apple-green fluorescent cells | | Adenovirus Dewitt ATCC Strain | 10x LoD | 15 Apple-green fluorescent cells | | Adenovirus 31 VR-1109 | 10x LoD | 42 Apple-green fluorescent cells | f. Analytical Specificity: D³ FastPoint L-DFA HPIV/Adenovirus Identification Kit was tested for cross-reactivity against a variety of microorganisms. Stringent conditions for cross-reactivity testing were achieved by using both the 1.5 X concentration of MAbs and relatively high titers of microorganisms. No cross-reactivity was observed for 59 virus strains. Twenty-two (22) bacterial strains, one yeast, and one Chlamydia sp. were also evaluated for cross-reactivity, including {15} Staphylococcus aureus, a protein-A-producing bacterium. Except for Staphylococcus aureus, which was cross reactive with the D³ FastPoint L-DFA HPIV/Adenovirus Identification Kit, all other microorganisms tested negative. Staining of S. aureus appeared as small points of fluorescence. The Protein A produced by the bacterium, Staphylococcus aureus, may bind the Fc portion of some fluorescein-labeled monoclonal antibodies. Such binding can be distinguished from viral antigen binding on the basis of morphology, i.e., S. aureus-bound fluorescence appears as small (~1-micron diameter), bright dots. Results from testing direct respiratory specimens with bacterial contamination must be interpreted with caution. The following language was added to the "Limitations of Procedure" section of the product insert to address this issue: "Light background staining may occur with specimens contaminated with Staphylococcus aureus strains containing large amounts of protein A. Protein A will bind to the Fc portions of conjugated antibodies. Such binding can be distinguished from viral antigen binding on the basis of morphology, for example, S. aureus-bound fluorescence appears as small (~1 micron diameter), bright dots. Therefore, results from testing direct respiratory specimens with bacterial contamination must be interpreted with caution." - Fifty-nine (59) virus strains were tested for cross reactivity. Depending on the particular virus, 1.4 x 10⁴ to 1.4 x 10⁵ TCID₅₀ viruses were inoculated into multi-well plate cultures and incubated for 24 to 72 hours to yield a 1+ to 4+ cytopathic effect. For each virus, a confirmation stain was done with the appropriate MAb to ensure the desired titer was achieved. These cells were then prepared as Model Cells (scraped and resuspended in UTM). Each cell suspension of infected Model Cells was processed according to the D³ FastPoint L-DFA HPIV/Adenovirus Identification Kit protocol, using 2X MAb and was examined at 200X magnification. No cross reactivity was observed for the viruses listed below: | Virus Strains Tested for Cross Reactivity with the D³ FastPoint L-DFA HPIV/Adenovirus Identification Kit | | | | | --- | --- | --- | --- | | Organism | Strain or Type | D³ FastPoint L-DFA HPIV/Adenovirus Reagent Results | Inoculum (TCID₅₀) | | Adenovirus | Type 1 | Apple-Green Fluor. | 1.4 x 10⁴ | | | Type 3 | Apple-Green Fluor. | 1.4 x 10⁴ | | | Type 5 | Apple-Green Fluor. | 1.4 x 10⁴ | | | Type 7 | Apple-Green Fluor. | 1.4 x 10⁴ | | | Type 10 | Apple-Green Fluor. | 1.4 x 10⁴ | | | Type 16 | Apple-Green Fluor. | 1.4 x 10⁴ | | | Type 17 | Apple-Green Fluor. | 1.4 x 10⁴ | {16} | Virus Strains Tested for Cross Reactivity with the D3FastPoint L-DFA HPIV/Adenovirus Identification Kit | | | | | --- | --- | --- | --- | | Organism | Strain or Type | D1FastPoint L-DFA HPIV/Adenovirus Reagent Results | Inoculum (TCID50) | | Metapneumovirus (hMPV) | Subtype A1 | Negative | 1.4 x 104 | | | Subtype A2 | Negative | 1.4 x 104 | | | Subtype B1 | Negative | 1.4 x 104 | | | Subtype B2 | Negative | 1.4 x 104 | | Influenza A | Aichi (H3N2) | Negative | 1.4 x 104 | | | Mal (H1N1) | Negative | 1.4 x 104 | | | Hong Kong (H3N2) | Negative | 1.4 x 104 | | | Denver (H1N1) | Negative | 1.4 x 104 | | | Port Chalmers (H3N2) | Negative | 1.4 x 104 | | | Victoria (H3N2) | Negative | 1.4 x 104 | | | New Jersey (HSWN1) | Negative | 1.4 x 104 | | | WS (H1N1) | Negative | 1.4 x 104 | | | PR (H1N1) | Negative | 1.4 x 104 | | | Wisconsin (H3N2) | Negative | 1.4 x 104 | | | A/NWS/33 (H1N1) | Negative | 1.4 x 104 | | | A Mexico/4108/2009 (H1N1) | Negative | 1.4 x 104 | | | A California/07/2009 (H1N1) | Negative | 1.4 x 104 | | Influenza B | Hong Kong | Negative | 1.4 x 104 | | | Maryland | Negative | 1.4 x 104 | | | Mass | Negative | 1.4 x 104 | | | GL | Negative | 1.4 x 104 | | | Taiwan | Negative | 1.4 x 104 | | | B/Lee/40 | Negative | 1.4 x 104 | | | Russia | Negative | 1.4 x 104 | | RSV | Long | Negative | 1.4 x 104 | | | Wash | Negative | 1.4 x 104 | | | 9320 | Negative | 1.4 x 104 | | Parainfluenza 1 | C-35 | Golden-Yellow Fluor. | 1.4 x 104 | | Parainfluenza 2 | Greer | Golden-Yellow Fluor. | 1.4 x 104 | | Parainfluenza 3 | C-243 | Golden-Yellow Fluor. | 1.4 x 104 | | Parainfluenza 4 | M-25 | Negative | 1.4 x 105 | | Parainfluenza 4b | CH-19503 | Negative | 1.4 x 105 | | HSV-1 | 1(f) | Negative | 1.4 x 105 | | | MacIntyre | Negative | 1.4 x 105 | | HSV-2 | Clinical Isolate CWOH-0011 | Negative | 1.4 x 105 | | | Strain G | Negative | 1.4 x 105 | | CMV | Towne | Negative | 1.4 x 105 | | | AD169 | Negative | 1.4 x 105 | | Varicella-zoster | AV92-3 | Negative | 1.4 x 105 | | Echovirus | 4 | Negative | 1.4 x 105 | | | 6 | Negative | 1.4 x 105 | | | 7 | Negative | 1.4 x 105 | | | 22 | Negative | 1.4 x 105 | | Coxsackievirus | A9 | Negative | 1.4 x 105 | {17} 18 | Virus Strains Tested for Cross Reactivity with the D³ FastPoint L-DFA HPIV/Adenovirus Identification Kit | | | | | --- | --- | --- | --- | | Organism | Strain or Type | D³ FastPoint L-DFA HPIV/Adenovirus Reagent Results | Inoculum (TCID₅₀) | | | B1 | Negative | 1.4 x 10⁵ | | | B3 | Negative | 1.4 x 10⁵ | | | B4 | Negative | 1.4 x 10⁵ | | Coronavirus | 229E | Negative | 1.4 x 10⁵ | | | OC43 | Negative | 1.4 x 10⁵ | | Rhinovirus | 209 Picornavirus | Negative | 1.4 x 10⁵ | | Enterovirus 70 | VR-836 | Negative | 1.4 x 10⁵ | | Enterovirus 71 | VR-1432 | Negative | 1.4 x 10⁵ | - Twenty four (24) microorganisms, including 22 bacterial, 1 yeast, and 1 Chlamydia sp. were tested for cross-reactivity. Bacteria were cultured, processed as suspensions, then spiked into non-infected Model Cells suspensions at levels (as CFUs, colony-forming units) ranging from 1.6 x 10⁹ to 3.5 x 10¹⁰ CFUs depending on the bacterium. These suspensions of Model Cells with bacteria were then processed according to the D³ FastPoint L-DFA HPIV/Adenovirus Identification Kit protocol, using 2X MAb reagents. Except for Staphylococcus aureus, which was cross reactive with the D³ FastPoint L-DFA HPIV/Adenovirus Identification Kit, all other microorganisms tested negative. Reactivity with Staphylococcus aureus is more than likely due to binding the protein A produced by Staphylococcus aureus. Microorganisms tested are listed in the table below: | Microorganisms Tested for Cross Reactivity with D³ FastPoint L-DFA HPIV/Adenovirus Identification Kit | | | | --- | --- | --- | | Organism | D³ FastPoint L-DFA HPIV/Adenovirus Kit Results | CFU tested | | Bacteria | | | | Acholeplasma laidlawii | Negative | Control Slide | | Acinetobacter calcoaceticus | Negative | 3.6 x 10⁹ | | Bordetella bronchiseptica | Negative | 1.1 x 10¹⁰ | | Bordetella pertussis | Negative | 4.3 x 10⁹ | | Chlamydia trachomatis (Apache-2) | Negative | LGV-II/Control Slide | | Corynebacterium diphtheriae | Negative | 5.7 x 10⁷ | | Escherichia coli | Negative | 7.5 x 10⁸ | | Gardnerella vaginalis | Negative | Control Slide | | Haemophilis influenzae type A | Negative | 4.1 x 10⁹ | | Klebsiella pneumoniae | Negative | 1.2 x 10⁹ | | Moraxella cartarrhalis | Negative | 1.2 x 10¹⁰ | | Mycoplasma hominis | Negative | 3.5 x 10¹⁰ | | Mycoplasma orale | Negative | 6.6 x 10⁹ | | Mycoplasma pneumoniae | Negative | 7.9 x 10⁹ | | Mycoplasma salivarium | Negative | 7.7 x 10⁸ | | Proteus mirabilis | Negative | 3.6 x 10⁹ | {18} | Pseudomonas aeruginosa | Negative | 1.0 x 108 | | --- | --- | --- | | Salmonella enteritidis | Negative | 8.7 x 109 | | Salmonella typhimurium | Negative | 7.5 x 109 | | Staphylococcus aureus* | Positive | 6.3 x 109 | | Streptococcus agalactiae | Negative | 5.5 x 108 | | Streptococcus pneumoniae | Negative | 6.7 x 109 | | Streptococcus pyogenes | Negative | 6.9 x 109 | | Yeast | | | | Candida glabrata | Negative | 1.6 x 106 | * Reactivity with Staphylococcus aureus is more than likely due to binding the protein A produced by Staphylococcus aureus. g. Assay cut-off: Not applicable. h. Interfering Substances: Not applicable. 2. Comparison studies: a. Method comparison with predicate device: Not applicable. b. Matrix Description and Comparison: Not applicable. 3. Clinical studies: a. Prospective Clinical Studies Testing Direct Respiratory Specimens Performance of the $\mathrm{D}^3$ FastPoint L-DFA HPIV/Adenovirus Identification Kit testing direct respiratory specimens were established during prospective studies at 4 geographically diverse U.S. clinical laboratories during the 2009 respiratory virus season (January 2009 – March 2009). All specimens used in the studies meeting the inclusion and exclusion criteria represented excess, remnants of respiratory specimens that were prospectively collected from symptomatic individuals suspected of respiratory infection, and were submitted for routine care or analysis by each site, and that otherwise would have been discarded. Individual specimens were delinked from all patient identifiers and given a study sample code. All clinical sites were granted waivers of informed consent by their IRBs for this study. Performance of the $\mathrm{D}^3$ FastPoint L-DFA HPIV/Adenovirus Identification Kit detecting parainfluenza virus and adenovirus from direct specimens was assessed {19} and compared to DSFA testing using FDA cleared comparator DSFA devices (D³ Ultra DFA Respiratory Virus Screening & ID Kit or D³ Duet DFA RSV/Respiratory Virus Screening Kit), followed by viral culture confirmation of all negative specimens (as determined by the FDA cleared DSFA comparator devices), using FDA cleared DFA reagents. “True” parainfluenza virus or adenovirus positive was defined as any sample that either tested positive by the comparator DSFA device or viral culture. “True” parainfluenza virus or adenovirus negative was defined as any sample that tested negative by both the comparator DSFA test and viral culture. Study Site 1 evaluated a total of 323 fresh respiratory specimens submitted, January 2009 through March 2009, to the laboratory for respiratory virus testing. Slides were prepared from Phosphate Buffered Saline (PBS)-washed cells from the fresh specimens and processed according to the prescribed protocol. The slides were stained in accordance with the procedure in the product insert. The following table shows the age and gender distribution for individuals studied at site 1: | Site 1 – Age and Gender Distribution | | | | --- | --- | --- | | Sex | F | M | | Total | 150 | 173 | | | | | | Age | | | | 0 – 1 month | 13 | 7 | | >1 month to 2 years | 100 | 131 | | >2 years to 12 years | 35 | 35 | | >12 years to 21 years | 2 | 0 | | 22 years to 30 years | 0 | 0 | | 31 years to 40 years | 0 | 0 | | 41 years to 50 years | 0 | 0 | | 51 years to 60 years | 0 | 0 | | 61 years to 70 years | 0 | 0 | | 71 years to 80 years | 0 | 0 | | 81 years and above | 0 | 0 | | Age Not Reported | 0 | 0 | | Total | 150 | 173 | Of the 323 fresh respiratory specimens tested, all were nasal wash/nasopharyngeal aspirate specimens. Of the 323 fresh nasal wash/nasopharyngeal aspirate specimens tested, 2 nasal wash/nasopharyngeal aspirate specimens were excluded from the performance analysis due to insufficient sample volume for the investigational device testing. Seventy-five (75) specimens for adenovirus and 79 specimens for HPIV were excluded from the respective performance analysis due to insufficient sample volume for the comparator methods, resulting in a total of 246 fresh nasal wash/nasopharyngeal aspirate specimens for adenovirus and 242 fresh nasal wash/nasopharyngeal aspirate specimens for HPIV to be included in the respective performance analysis. The tables below summarized the study results of the claimed specimen type at study site 1: 20 {20} 21 | Adenovirus | | | | | --- | --- | --- | --- | | Fresh nasal/nasopharyngeal wash/aspirate | Comparator DSFA (negatives followed by culture with DFA) | | | | DHI DSFA | Positive | Negative | Total | | Positive | 8 | 0 | 8 | | Negative | 0 | 238 | 238 | | Total | 8 | 238 | 246 | | | | | 95% CI | | Sensitivity | 8/8 | 100.0% | 63.1-100% | | Specificity | 238/238 | 100.0% | 98.5-100% | | HPIV | | | | | --- | --- | --- | --- | | Fresh nasal/nasopharyngeal wash/aspirate | Comparator DSFA (negatives followed by culture with DFA) | | | | DHI DSFA | Positive | Negative | Total | | Positive | 6 | 4 | 10 | | Negative | 0 | 232 | 232 | | Total | 6 | 236 | 242 | | | | | 95% CI | | Sensitivity | 6/6 | 100.0% | 54.1-100% | | Specificity | 232/236 | 98.3% | 95.7-99.5% | Study Site 2 evaluated a total of 105 fresh respiratory specimens submitted, February 2009 through March 2009, to the laboratory for respiratory virus testing. Slides were prepared from Phosphate Buffered Saline (PBS)-washed cells from the fresh specimens and processed according to the prescribed protocol. The slides were stained in accordance with the procedure in the product insert. The following table shows the age and gender distribution for individuals studied at site 2: | Site 2 – Age and Gender Distribution | | | | --- | --- | --- | | Sex | F | M | | Total | 48 | 57 | | | | | | Age | | | | 0 – 1 month | 2 | 4 | | >1 month to 2 years | 15 | 17 | | >2 years to 12 years | 6 | 5 | | >12 years to 21 years | 4 | 6 | | 22 years to 30 years | 2 | 2 | | 31 years to 40 years | 4 | 6 | | 41 years to 50 years | 1 | 4 | | 51 years to 60 years | 6 | 5 | | 61 years to 70 years | 3 | 6 | | 71 years to 80 years | 3 | 2 | {21} Of the 105 fresh respiratory specimens tested, 86 were nasal wash/nasopharyngeal aspirate specimens. Due to insufficient sample numbers to establish performance of the $\mathrm{D}^3$ FastPoint L-DFA HPIV/Adenovirus Identification Kit, 19 other types of respiratory specimens were removed from performance analysis. None of the nasal wash/nasopharyngeal aspirate samples for Adenovirus and HPIV were excluded from the respective performance analysis due to insufficient sample volume for the comparator methods, resulting in a total of 86 fresh nasal wash/nasopharyngeal aspirate specimens for Adenovirus and HPIV to be included in the respective performance analysis. The tables below summarized the study results of the claimed specimen type at study site 2: | Adenovirus | | | | | --- | --- | --- | --- | | Fresh nasal/nasopharyngeal wash/aspirate | Comparator DSFA (negatives followed by culture with DFA) | | | | DHI DSFA | Positive | Negative | Total | | Positive | 0 | 0 | 0 | | Negative | 0 | 86 | 86 | | Total | 0 | 86 | 86 | | | | | 95% CI | | Sensitivity | 0/0 | NA | NA | | Specificity | 86/86 | 100.00% | 95.8-100% | | HPIV | | | | | --- | --- | --- | --- | | Fresh nasal/nasopharyngeal wash/aspirate | Comparator DSFA (negatives followed by culture with DFA) | | | | DHI DSFA | Positive | Negative | Total | | Positive | 1 | 0 | 1 | | Negative | 0 | 85 | 85 | | Total | 1 | 85 | 86 | | | | | 95% CI | | Sensitivity | 1/1 | 100.0% | NA | | Specificity | 85/85 | 100.0% | 95.8-100% | Study Site 3 evaluated a total of 443 fresh respiratory specimens submitted, February 2009 through March 2009, to the laboratory for respiratory virus testing. Slides were prepared from Phosphate Buffered Saline (PBS)-washed cells from the fresh specimens and processed according to the prescribed protocol. The slides were stained in accordance with the procedure in the product insert. The following table shows the age and gender distribution for individuals studied at site 3: {22} Of the 443 fresh respiratory specimens tested, 301 were nasal wash/nasopharyngeal aspirate specimens, and 140 were nasal/nasopharyngeal swab specimens. One (1) nasal wash/nasopharyngeal aspirate specimen was excluded from the performance analysis due to the fact that the sample was tested by the investigational device greater than 48 hours post sample collection. Due to insufficient sample numbers to establish performance of the $\mathrm{D}^3$ FastPoint L-DFA HPIV/Adenovirus Identification Kit, 2 other types of respiratory specimens were further removed from performance analysis. None of the remaining nasal wash/nasopharyngeal aspirate samples for Adenovirus and HPIV were excluded from the respective performance analysis due to insufficient sample volume for the comparator methods, resulting in a total of 300 fresh nasal wash/nasopharyngeal aspirate specimens for Adenovirus and HPIV to be included in the respective performance analysis. None of the nasal/nasopharyngeal swab specimens for Adenovirus and HPIV were excluded from the respective performance analysis due to insufficient sample volume for the comparator methods, resulting in a total of 140 nasal/nasopharyngeal swab specimens for Adenovirus and HPIV to be included in the respective performance analysis. The tables below summarized the study results of the claimed specimen types at study site 3: | Adenovirus | | | | | --- | --- | --- | --- | | Fresh nasal/nasopharyngeal wash/aspirate | Predicate DSFA (negatives followed by culture with DFA) | | | | DHI DSFA | Positive | Negative | Total | | Positive | 4 | 0 | 4 | | Negative | 1 | 295 | 296 | | Total | 5 | 295 | 300 | | | | | 95% CI | | Sensitivity | 4/5 | 80.0% | 28.4-99.5% | | Specificity | 295/295 | 100.0% | 98.8-100% | {23} | HPIV | | | | | --- | --- | --- | --- | | Fresh nasal/nasopharyngeal wash/aspirate | Predicate DSFA (negatives followed by culture with DFA) | | | | DHI DSFA | Positive | Negative | Total | | Positive | 16 | 0 | 16 | | Negative | 2 | 282 | 284 | | Total | 18 | 282 | 300 | | | | | 95% CI | | Sensitivity | 16/18 | 88.9% | 65.3-98.6% | | Specificity | 282/282 | 100.0% | 98.7-100% | | Adenovirus | | | | | --- | --- | --- | --- | | Fresh nasal/nasopharyngeal swab | Predicate DSFA (negatives followed by culture with DFA) | | | | DHI DSFA | Positive | Negative | Total | | Positive | 0 | 0 | 0 | | Negative | 0 | 140 | 140 | | Total | 0 | 140 | 140 | | | | | 95% CI | | Sensitivity | 0/0 | NA | NA | | Specificity | 140/140 | 100.0% | 97.4-100% | | HPIV | | | | | --- | --- | --- | --- | | Fresh nasal/nasopharyngeal swab | Predicate DSFA (negatives followed by culture with DFA) | | | | DHI DSFA | Positive | Negative | Total | | Positive | 7 | 0 | 7 | | Negative | 0 | 133 | 133 | | Total | 7 | 133 | 140 | | | | | 95% CI | | Sensitivity | 7/7 | 100.0% | 59.0-100% | | Specificity | 133/133 | 100.0% | 97.3-100% | Study Site 4 evaluated a total of 648 fresh respiratory specimens submitted, February 2009 through March 2009, to the laboratory for respiratory virus testing. Slides were prepared from Phosphate Buffered Saline (PBS)-washed cells from the fresh specimens and processed according to the prescribed protocol. The slides were stained in accordance with the procedure in the product insert. The following table shows the age and gender distribution for individuals studied at site 4: {24} Of the 648 fresh respiratory specimens tested, all were nasal/nasopharyngeal swab specimens. Three (3) nasal/nasopharyngeal swab specimens were excluded from the performance analysis due to insufficient sample volume for both the investigational device and the comparator DSFA device testing (0.46%). One (1) additional nasal/nasopharyngeal swab specimen was excluded from the performance analysis due to insufficient sample volume for the investigational device testing (0.15%). One (1) nasal/nasopharyngeal swab specimen was also excluded from the performance analysis due to un-interpretable result generated by the investigational device because of high background. One hundred and two (102) samples for adenovirus and 101 samples for HPIV were excluded from the respective performance analysis due to insufficient sample volume for the comparator methods, resulting in a total of 541 fresh nasal wash/nasopharyngeal aspirate specimens for adenovirus and 542 fresh nasal wash/nasopharyngeal aspirate specimens for HPIV to be included in the respective performance analysis. The tables below summarized the study results of the claimed specimen type at study site 4: | Adenovirus | | | | | --- | --- | --- | --- | | Fresh nasal/nasopharyngeal swab | Predicate DSFA (negatives followed by culture with DFA) | | | | DHI DSFA | Positive | Negative | Total | | Positive | 1 | 0 | 1 | | Negative | 0 | 540 | 540 | | Total | 1 | 540 | 541 | | | | | 95% CI | | Sensitivity | 1/1 | 100.0% | NA | | Specificity | 540/540 | 100.0% | 99.3-100% | {25} | HPIV | | | | | --- | --- | --- | --- | | Fresh nasal/nasopharyngeal swab | Predicate DSFA (negatives followed by culture with DFA) | | | | DHI DSFA | Positive | Negative | Total | | Positive | 6 | 0 | 6 | | Negative | 1 | 535 | 536 | | Total | 7 | 535 | 542 | | | | | 95% CI | | Sensitivity | 6/7 | 85.7% | 42.1-99.6% | | Specificity | 535/535 | 100.0% | 99.3-100% | The following tables summarized study results from all clinical sites combined, stratified by the claimed specimen types: | Adenovirus | | | | | --- | --- | --- | --- | | Fresh nasal/nasopharyngeal wash/aspirate | Predicate DSFA (negatives followed by culture with DFA) | | | | DHI DSFA | Positive | Negative | Total | | Positive | 12 | 0 | 12 | | Negative | 1 | 619 | 620 | | Total | 13 | 619 | 632 | | | | | 95% CI | | Sensitivity | 12/13 | 92.3% | 64.0-99.8% | | Specificity | 619/619 | 100.0% | 99.4-100% | | HPIV | | | | | --- | --- | --- | --- | | Fresh nasal/nasopharyngeal wash/aspirate | Predicate DSFA (negatives followed by culture with DFA) | | | | DHI DSFA | Positive | Negative | Total | | Positive | 23 | 4 | 27 | | Negative | 2 | 599 | 601 | | Total | 25 | 603 | 628 | | | | | 95% CI | | Sensitivity | 23/25 | 92.0% | 74.0-99.0% | | Specificity | 599/603 | 99.3% | 98.3-99.8% | {26} | Adenovirus | | | | | --- | --- | --- | --- | | Fresh nasal/nasopharyngeal swab | Predicate DSFA (negatives followed by culture with DFA) | | | | DHI DSFA | Positive | Negative | Total | | Positive | 1 | 0 | 1 | | Negative | 0 | 680 | 680 | | Total | 1 | 680 | 681 | | | | | 95% CI | | Sensitivity | 1/1 | 100.0% | NA | | Specificity | 680/680 | 100.0% | 99.5-100% | | HPIV | | | | | --- | --- | --- | --- | | Fresh nasal/nasopharyngeal swab | Predicate DSFA (negatives followed by culture with DFA) | | | | DHI DSFA | Positive | Negative | Total | | Positive | 13 | 0 | 13 | | Negative | 1 | 668 | 669 | | Total | 14 | 668 | 682 | | | | | 95% CI | | Sensitivity | 13/14 | 92.9% | 66.1-99.8% | | Specificity | 668/668 | 100.0% | 99.4-100% | c. Retrospective Clinical studies Not applicable. d. Other clinical supportive data (when a. and b. are not applicable): Not applicable. 4. Clinical cut-off: Not applicable. 5. Expected values/Reference range: In the $\mathrm{D}^3$ FastPoint L-DFA HPIV/Adenovirus Identification Kit multicenter prospective clinical study testing direct respiratory specimens, a total of 1519 eligible respiratory specimens were tested using the $\mathrm{D}^3$ FastPoint L-DFA HPIV/Adenovirus Identification Kit from four U.S. clinical laboratories across the United States during the 2009 respiratory virus season (January 2009 – March 2009). Prevalence for Adenovirus and HPIV as determined by the $\mathrm{D}^3$ FastPoint L-DFA HPIV/Adenovirus Identification Kit direct specimen testing varied from {27} varied from $0\%$ to $2.5\%$ by site and averaged $0.9\%$ for Adenovirus; and varied from $0.9\%$ to $5.2\%$ by site and averaged $2.6\%$ for HPIV. The number and percentage of positive cases determined by the $\mathrm{D}^3$ FastPoint L-DFA HPIV/Adenovirus Identification Kit direct specimen testing, calculated by age group, are presented in the following tables: All Sites Combined | Age | Total Specimens Evaluated | Adenovirus | HPIV | | --- | --- | --- | --- | | | | # positive (prevalence) | # positive (prevalence) | | 0 – 1 month | 55 | 0 | 1 (1.8%) | | > 1 month to 2 years | 577 | 11 (1.9%) | 29 (5.0%) | | > 2 years to 12 years | 391 | 1 (0.3%) | 6 (1.5%) | | > 12 years to 21 years | 173 | 0 | 2 (1.2%) | | 22 years to 30 years | 57 | 0 | 1 (1.8%) | | 31 years to 40 years | 71 | 0 | 0 | | 41 years to 50 years | 52 | 0 | 0 | | 51 years to 60 years | 46 | 0 | 0 | | 61 years to 70 years | 33 | 0 | 0 | | 71 years to 80 years | 16 | 0 | 0 | | 81 years and above | 7 | 0 | 1 (14.3%) | | Age Not Reported | 41 | 1 (2.4%) | 0 | | Total | 1519 | 13 (0.9%) | 40 (2.6%) | | *There were 2- adenovirus + RSV, 2- influenza A + hMPV, 1-RSV + adenovirus and 1-RSV + parainfluenza virus co-infections detected | | | | # N. Proposed Labeling: The labeling is sufficient and it satisfies the requirements of 21 CFR Part 809.10. # O. Conclusion: The submitted information in this premarket notification is complete and supports a substantial equivalence decision.