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    K Number
    K242294
    Device Name
    DiaSys Procalcitonin FS; DiaSys TruCal Procalcitonin Calibrator Set; DiaSys TruLab Procalcitonin Bi-Level Controls
    Manufacturer
    DiaSys Diagnostic Systems GmbH
    Date Cleared
    2025-05-09

    (280 days)

    Product Code
    PTF
    Regulation Number
    866.3215
    Type
    Traditional
    Panel
    Microbiology
    Reference & Predicate Devices
    K162297,K071146
    Why did this record match?
    Reference Devices :

    K162297

    AI/MLSaMDIVD (In Vitro Diagnostic)TherapeuticDiagnosticis PCCP AuthorizedThirdpartyExpeditedreview
    Intended Use

    DiaSys Procalcitonin FS assay is a particle enhanced immunoturbidimetric test intended for the quantitative in vitro determination of procalcitonin (PCT) in human serum and lithium heparin plasma on automated Abbott ARCHITECT c8000 analyzer.

    Measurement of PCT in conjunction with other laboratory findings and clinical assessments aids in the risk assessment of critically ill patients on their first day of Intensive Care Unit (ICU) admission for progression to severe sepsis and septic shock.

    The TruCal Procalcitonin Calibrator Set is intended for in vitro use for calibration of the DiaSys Procalcitonin FS assay.

    TruLab Procalcitonin Bi-Level Controls are an assayed quality control material for monitoring the performance of quantitative in vitro determination of Procalcitonin (PCT) for the DiaSys Procalcitonin FS assay.

    For in vitro diagnostic use only.

    Device Description

    The DiaSys Procalcitonin FS assay is a particle enhanced turbidimetric immunoassay (PETIA) test for in vitro quantitative determination of procalcitonin (PCT) levels in human serum and lithium heparin plasma on automated photometric systems.

    The test utilizes anti-human PCT polyclonal antibodies (goat) covalently bound to polystyrene particles.

    PCT in the sample binds to the anti-PCT antibodies on the particles and causes agglutination. The degree of the turbidity caused by agglutination is optically measured at 660 nm by the automated photometric system and is proportional to the amount of PCT in the sample. DiaSys Procalcitonin FS Reagent specifies settings for an automated photometric analyzer, the Abbott ARCHITECT c8000.

    The DiaSys TruCal Procalcitonin Calibrator Set is provided in 6 levels, traceable to a commercial assay for use in the calibration of the DiaSys Procalcitonin FS assay.

    The DiaSys TruLab Procalcitonin Bi-Level Controls, Levels 1 (low) and 2 (high) are intended for use as quality control for the DiaSys Procalcitonin FS assay.

    DiaSys PCT Calibrators and Bi-Level Controls are ready-to-use, stable, aqueous solutions containing recombinant human full-length PCT and biological additives from bovine origin.

    AI/ML Overview

    Here's a breakdown of the acceptance criteria and study information for the DiaSys Procalcitonin FS assay, extracted and organized from the provided FDA 510(k) clearance letter:

    Acceptance Criteria and Reported Device Performance

    TestAcceptance CriteriaReported Device Performance
    Precision/Reproducibility
    Total Precision (Serum)CV ≤ 10% (0.2-1.0 ng/mL)
    CV ≤ 7% (1.0-3.0 ng/mL)
    CV ≤ 5% (3.0-20 ng/mL)Met:
    0.2-1.0 ng/mL: 5.64%
    1.0-3.0 ng/mL: 2.34%
    3.0-20 ng/mL: 1.93%
    Total Precision (Plasma)CV ≤ 10% (0.2-1.0 ng/mL)
    CV ≤ 7% (1.0-3.0 ng/mL)
    CV ≤ 5% (3.0-20 ng/mL)Met:
    0.2-1.0 ng/mL: 8.31%
    1.0-3.0 ng/mL: 3.24%
    3.0-20 ng/mL: 2.61%
    Within-run Precision (Serum)CV ≤ 10% (0.2 ng/mL range)
    CV ≤ 7% (1.0-3.0 ng/mL range)
    CV ≤ 5% (3.0-20 ng/mL range)Met (except for LoQ proximity):
    0.252 ng/mL: 16.62% (Determined acceptable given proximity to LoQ)
    0.555 ng/mL: 3.89%
    2.02 ng/mL: 2.78%
    9.68 ng/mL: 2.24%
    18.8 ng/mL: 2.16%
    Within-run Precision (Plasma)CV ≤ 10% (0.2 ng/mL range)
    CV ≤ 7% (1.0-3.0 ng/mL range)
    CV ≤ 5% (3.0-20 ng/mL range)Met:
    0.314 ng/mL: 8.00%
    0.475 ng/mL: 6.94%
    1.910 ng/mL: 2.93%
    9.851 ng/mL: 1.94%
    17.953 ng/mL: 1.96%
    Linearity/Assay Reportable RangeLinearity 5 ng/mL: ± 10%Met (Human serum and plasma evaluations)
    Detection LimitsLoB ≤ 0.2 ng/mL
    LoQ ≤ 0.5 ng/mLMet:
    Limit of Blank (LOB): 0.081 ng/mL
    Limit of Quantitation (LOQ): 0.23 ng/mL (with %CV ≤ 20%)
    InterferenceNo significant interference (shift in PCT concentration > ±15%)Met: (No significant interference observed for substances tested at specified concentrations, including Ascorbic acid, Bilirubin, Lipemia, HAMA, Rheumatoid factor, Hemolysis, and various drugs. N-Terminus interferes.)
    Stability (Reagent)
    Real-time Stability24 months stabilityConfirmed: 25 months stability from date of production.
    In-use Stability24 months stabilityConfirmed: At least 25 months stability after opening.
    Specimen StabilityWithin ± 15% of concentration at time zero
    Slope of regression line within ± 10%Met: for 24 hours at 20-25°C, 5 days at 2-8°C, and 14 days at -20°C (for both serum and plasma, and measurements >10% over specified durations).
    Freeze-Thaw Cycle (2 cycles)Within 15% of concentration at time zeroMet: for both serum and plasma samples after one and two freeze-thaw cycles.
    Hook Effect (Prozone)No hook/prozone effectConfirmed: No hook/prozone effect up to 1000 ng/mL.
    Method Comparison (Study 1, 2021)Slope: 0.85 – 1.15
    Intercept: ± 1.0 ng/mL
    Correlation coefficient R: ≥ 0.95
    n ≥ 100Met:
    N = 120
    Slope = 1.08
    Intercept = 0.105 ng/mL
    R = 0.991
    PCT Cutoff 0.5 ng/mL: NPA 93.9%, PPA 100%
    PCT Cutoff 2.0 ng/mL: NPA 93.3%, PPA 97.8%
    Method Comparison (Study 2, 2025)Slope: 0.85 – 1.15
    Intercept: ± 1.0 ng/mL
    Correlation coefficient R: ≥ 0.95
    n ≥ 100Met:
    N = 210
    Slope = 0.940
    Intercept = 0.017 ng/mL
    R = 0.965
    PCT Cutoff 0.5 ng/mL: NPA 98%, PPA 100%
    PCT Cutoff 2.0 ng/mL: NPA 100%, PPA 94%
    Matrix ComparisonSlope: 0.85 – 1.15
    Intercept: ± 1.0 ng/mL
    Correlation coefficient R ≥ 0.98
    n ≥ 20Met: (Human serum vs. lithium heparin plasma, for at least 20 native patient samples)

    Study Details:

    1. Sample Size used for the test set and the data provenance:

      • Precision/Reproducibility (Total Precision): 3 human serum samples, 3 human plasma samples.
      • Precision/Reproducibility (Within-run Precision): 5 human serum samples, 5 human plasma samples.
      • Linearity/Assay Reportable Range: Stock solutions assayed in quadruplicate.
      • Detection Limits (LOB, LOD, LOQ): Evaluated in human serum and plasma.
      • Interference: Human samples at approximate PCT concentrations of 0.5 and 2.0 ng/mL.
      • Specimen Stability: 15 human samples (serum and lithium heparin plasma).
      • Freeze-Thaw Cycle Stability: 15 human samples (serum and plasma).
      • Method Comparison (Study 1): 120 native patient samples.
      • Method Comparison (Study 2): 210 native patient samples.
      • Matrix Comparison: At least 20 native patient samples (serum and lithium heparin plasma).
      • Data Provenance: Not explicitly stated as retrospective or prospective, nor country of origin for patient/human samples. The nature of "native patient samples" generally implies retrospective analysis of collected clinical samples, but this is not definitively stated.

    2. Number of experts used to establish the ground truth for the test set and the qualifications of those experts:

      • Not applicable for this type of in vitro diagnostic device (analyte measurement). The "ground truth" for the test set samples is typically established by reference methods or established values/concentrations for controls/calibrators, rather than expert clinical consensus.

    3. Adjudication method (e.g., 2+1, 3+1, none) for the test set:

      • Not applicable. This is an assay for quantitative measurement of an analyte. "Adjudication" typically refers to the process of multiple readers/experts reviewing images or clinical cases.

    4. If a multi-reader multi-case (MRMC) comparative effectiveness study was done, If so, what was the effect size of how much human readers improve with AI vs without AI assistance:

      • No. This is an in vitro diagnostic assay, not an AI-assisted diagnostic imaging or clinical decision support system. The comparison studies are against a predicate device (another PCT assay), not human readers.

    5. If a standalone (i.e. algorithm only without human-in-the loop performance) was done:

      • Yes, the performance listed in the table effectively represents the standalone performance of the DiaSys Procalcitonin FS assay when run on the automated Abbott ARCHITECT c8000 analyzer, without human intervention in the result generation itself. The results are quantitative measurements of the Procalcitonin analyte.

    6. The type of ground truth used (expert consensus, pathology, outcomes data, etc.):

      • Analytical Performance: Ground truth is based on known concentrations of analytes in controls and calibrators, and comparative measurements against a legally marketed predicate device (VIDAS B.R.A.H.M.S. PCT ASSAY, K071146).
      • Clinical Efficacy/Impact: The device aids in risk assessment of critically ill patients for progression to severe sepsis and septic shock, "in conjunction with other laboratory findings and clinical assessments." This implies that the actual clinical "ground truth" (e.g., diagnosis of severe sepsis or septic shock, patient outcome) relies on a broader clinical picture, not solely on the PCT measurement. The study primarily focuses on analytical equivalence, not a direct measure of clinical outcomeprediction compared to a gold standard outcome.

    7. The sample size for the training set:

      • The document primarily describes validation and verification studies for the device's analytical performance and equivalence to a predicate. It does not mention a "training set" in the context of machine learning or AI algorithm development, as this device appears to be a traditional IVD assay.

    8. How the ground truth for the training set was established:

      • Not applicable, as there is no apparent "training set" in the machine learning sense. The device is a chemical reagent-based assay.
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