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510(k) Data Aggregation

    K Number
    K192328
    Device Name
    JR.MEDIK Latex Surgeon’s Gloves Powder Free
    Manufacturer
    JR Engineering & Medical Technologies (M) SDN.BHD.
    Date Cleared
    2020-03-10

    (196 days)

    Product Code
    KGO
    Regulation Number
    878.4460
    Type
    Abbreviated
    Panel
    General Hospital
    Reference & Predicate Devices
    K151114,K172942
    Predicate For
    K203483,K210969,K211478,K212596,K212848
    AI/MLSaMDIVD (In Vitro Diagnostic)TherapeuticDiagnosticis PCCP AuthorizedThirdpartyExpeditedreview
    Intended Use

    A latex surgeon's glove is a device made of natural rubber intended to be worn by operating room personnel to protect a surgical wound from contamination.

    Device Description

    The proposed device, JR Medic Latex Surgeon's Gloves Sterile Powder Free with protein content labeling claim of 50 µg/ dm² or less per glove of extractable protein is a sterile and disposable medical glove intended to be worn by operating room personnel to protect a surgical wound from contamination. The proposed device is made of natural rubber latex, as per standard ASTM D35 77 -09(2015), Standard Specification for Rubber Surgical Gloves. The classification is: Type I - gloves compounded primarily from natural rubber latex. The proposed device is Powder Free Latex Surgeon's Gloves, and variants of different sizes. All variants share the same color, creamy, white. The proposed device is sterilized using Gamma irradiation method to achieve the Sterility Assurance Level (SAL) of 10 and place in a sterility maintained package to ensure a shelf life of 3 years.

    AI/ML Overview

    The provided document describes the acceptance criteria and a study proving that JR MEDIC Latex Surgeon's Gloves Sterile Powder Free meet these criteria.

    Here's the breakdown of the information requested:

    1. A table of acceptance criteria and the reported device performance

    CriteriaAcceptance Criteria (Specification per ASTM D3577-09)Reported Device Performance (Average Value)Compliance
    Length (for all sizes)Min 265mm305mm - 306mmYes
    Width
    Size 676+/-6mm78mmYes
    Size 6 1/283+/-6mm85mmYes
    Size 789+/-6mm88mmYes
    Size 7 1/295+/-6mm97mmYes
    Size 8102+/-6mm103mmYes
    Size 8 1/2108+/-6mm110mmYes
    Size 9114+/-6mm116mmYes
    Thickness (for all sizes)
    Finger ThicknessMin 0.10mm0.21mmYes
    Palm ThicknessMin 0.10mm0.18mmYes
    Cuff ThicknessMin 0.10mm0.11mmYes
    Tensile Strength (Before aging)24Mpa minimum26.0MpaYes
    Tensile Strength (After aging Pinhole AQL)18Mpa minimum22.0MpaYes
    Ultimate Elongation (Before aging)750% minimum860%Yes
    Ultimate Elongation (After aging Pinhole AQL)560% minimum725%Yes
    Stress at 500% (before aging)5.5 MPa Max2.7 MpaYes
    Pinhole AQL (Before aging)Max 1.51.0Yes
    Pinhole AQL (After aging)Max 1.51.0Yes
    Powder content< 2 mg/Glove0.34 mg/GloveYes
    Protein Content< 50 µg/dm²43 µg/dm²Yes
    Biocompatibility - Irritation & SensitizationNon-irritant and Non-SensitizerNon-irritant and Non-SensitizerYes (Same)
    Biocompatibility - Cytotoxicity(Implied: Non-cytotoxic, as the predicate is)CytotoxicNo (Different - but accepted by FDA as part of substantial equivalence)
    Biocompatibility - Systemic Toxicity(Implied: No systemic toxicity)No systemic toxicity under the conditions of the testYes
    Pyrogen TestNon-pyrogenicNon-pyrogenicYes (Same)
    Sterility Assurance Level (SAL)10^-610^-6Yes

    2. Sample size used for the test set and the data provenance (e.g. country of origin of the data, retrospective or prospective)

    The document does not explicitly state the sample size for each specific test within the non-clinical performance data. It indicates "Average value of subject device" for each criterion, implying that multiple units were tested. The data provenance is from JR Engineering & Medical Technologies (M) SDN.BHD., which is located in Malaysia. The study is a non-clinical bench test study to verify that the device meets design specifications, and therefore, the terms retrospective or prospective don't directly apply in the same way they would for a clinical study with human subjects.

    3. Number of experts used to establish the ground truth for the test set and the qualifications of those experts (e.g. radiologist with 10 years of experience)

    This section is not applicable as the study is a non-clinical bench test for physical and chemical properties of gloves. "Experts" in this context would likely be laboratory technicians or engineers performing standardized tests, rather than medical experts establishing a ground truth for diagnostic purposes. The ground truth is established by the specifications in recognized standards like ASTM and ISO.

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

    This is not applicable as the tests are objective measurements against established standards, not subjective assessments requiring adjudication.

    5. 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

    This is not applicable. The device is a surgical glove, not an AI-assisted diagnostic tool.

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

    This is not applicable for a surgical glove.

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

    The ground truth used for the acceptance criteria is based on recognized international standards and specifications for medical devices, specifically:

    • ASTM D3577-09(15): Standard Specification for Rubber Surgical Gloves.
    • ASTM D 5151-06 (2015): Standard Test Method for Detection of Holes in Medical Gloves.
    • ASTM D6124-06 (2017): Standard Test Method for Residual Powder on Medical Gloves.
    • ASTM D5712-15: Standard Test Method for the Analysis of Aqueous Extractable Protein in Natural Rubber and Its Products Using the Modified Lowry Method.
    • ASTM D6499-18: Standard Test Method for the Immunological Measurement of Antigenic Protein in Natural Rubber and Its Products.
    • ASTM F 1929-2015: Standard Test Method for Detecting Seal Leaks in Porous Packaging by Dye Penetration.
    • ISO 10993-10: 2010, Biological evaluation of medical devices - Part 10: Tests for irritation and skin sensitization.
    • ISO 10993-11:2017(E) Biological Evaluation of Medical Devices - Part 11, Tests for Systemic Toxicity and Biological Tests.
    • USP 41 <151> Pyrogen Test.
    • ISO 11137-1-2006/ (R) 2010 - validation of sterilization process.
    • ISO 11137-2:2013, sterilization of health care products - radiation - part 2: establishing the sterilization dose.

    8. The sample size for the training set

    This is not applicable as this is a non-clinical bench test for a physical device, not a machine learning algorithm that requires a training set.

    9. How the ground truth for the training set was established

    This is not applicable for the reasons stated above.

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