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510(k) Data Aggregation

    K Number
    K130533
    Device Name
    SALTO TALARIS TOTAL ANKLE PROSTHESIS, RHS
    Manufacturer
    Tornier SAS
    Date Cleared
    2013-05-17

    (77 days)

    Product Code
    HSN,JDB,KWI
    Regulation Number
    888.3110
    Type
    Special
    Panel
    Orthopedic (OR)
    Reference & Predicate Devices
    K060544,K090076,K920802,K020541,K051023,K994041,K060438,K023604,K051385
    Why did this record match?
    Device Name :

    SALTO TALARIS TOTAL ANKLE PROSTHESIS, RHS

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

    Salto Talaris Total Ankle Prosthesis:
    The Salto Talaris Total Ankle Prosthesis is indicated as a total ankle replacement in primary or revision surgery for patients with ankle joints damaged by severe rheumatoid, posttraumatic, or degenerative arthritis.
    Components are intended for cemented use only.

    RHS:
    The RHS is intended for:
    l) Replacement of the radial head for degenerative or post-traumatic disabilities presenting pain, crepitation and decreased motion at the radiohumeral and/or proximal radio-ulnar joint with:
    Joint destruction and/or subluxation visible on x-ray a.
    b. Resistance to conservative treatment
    2) Primary replacement after fracture of the radial head
    3) Symptomatic sequelae after radial head resection
    4) Revision following failed radial head arthroplasty
    The long stem is for single cemented use only. The short stem coated with titanium plasma-spray is for single use with or without cement.

    Device Description

    For the Salto Talaris Total Ankle Prosthesis:
    The goal of total ankle replacement is to restore function and relieve pain. The Salto Talaris Total Ankle Prosthesis is intended to accomplish these goals. The Salto Talaris Total Ankle Prosthesis is a semi-constrained anatomical design, which reproduces the kinematics of the ankle joint.
    The Tornier Salto Talaris Total Ankle Prosthesis consists of two mating components: a metal tibial base in association with a conforming polyethylene articulating insert, and a metal talar resurfacing component.

    For the RHS:
    The RHS has been designed in order to provide surgeons and patients with a joint prosthesis to restore function and relieve pain of the radial part of the elbow joint. The RHS has an anatomical design, which reproduces the kinematics of the radial joint. The RHS consists of two components: a metal radial stem and a metal-polyethylene radial head.

    The present submission corresponds to the following modification:

    • Addition of a new coating subcontractor (titanium coating): Eurocoating S.p.A on cobalt chromium components.
      All the prostheses of this application are strictly identical to the previously cleared devices except for the coating supplier. The indications for use of each device are not modified.
    AI/ML Overview

    Here's an analysis of the provided text regarding the Salto Talaris Total Ankle Prosthesis and RHS, focusing on acceptance criteria and supporting studies.

    Important Note: The provided text is a 510(k) summary for a modification to an existing device (specifically, a change in coating subcontractor). Therefore, the "study" described is not a clinical trial demonstrating efficacy of the entire device, but rather a non-clinical assessment to prove that the modification does not alter safety or effectiveness compared to the predicate device.

    1. Table of Acceptance Criteria and Reported Device Performance

    Acceptance Criteria (from predicate device standards)Reported Device Performance (with new coating subcontractor)
    Coating specifications (e.g., thickness, pore size, pore volume) for titanium coatingConforms to ASTM standard F1580. Coating characterization (thickness, pore size, pore volume) performed and found substantially equivalent to predicate coating.
    Shear fatigue strengthNon-clinical testing performed, results showed substantial equivalence to predicate.
    Static shear strengthNon-clinical testing performed, results showed substantial equivalence to predicate.
    Static tensile strengthNon-clinical testing performed, results showed substantial equivalence to predicate.
    Abrasion resistanceNon-clinical testing performed, results showed substantial equivalence to predicate.
    No new or higher risk introduced by the coating changeConcluded that the new subcontractor "does not induce any new or higher risk compared to the predicate coating subcontractor BioCoat Company."
    Design, materials, sizes, method of fixation, sterilization process remain identical"The design, the material, the sizes, the method of fixation and the sterilization process are identical for both devices whatever the coating subcontractor is."
    Indications for use not modified"The indications for use of each device are not modified."

    2. Sample Size Used for the Test Set and Data Provenance

    • Sample Size: Not explicitly stated as a number of specific "samples" in a traditional sense. The testing was conducted on samples of the coating material and/or coated components. The extent of testing is implied by the mention of "characterization" and various mechanical tests.
    • Data Provenance: The data is based on non-clinical testing of the coating and coated components. The specific origin country for the testing laboratory is not mentioned, but the submitting company (Tornier SAS) is based in France. The data is prospective in the sense that the tests were performed to evaluate the new subcontractor's coating.

    3. Number of Experts Used to Establish the Ground Truth for the Test Set and Their Qualifications

    • Number of Experts: Not applicable in the context of this non-clinical submission. "Ground truth" for this submission would be defined by established engineering and materials standards (e.g., ISO, ASTM).
    • Qualifications of Experts: Not applicable. The "experts" involved would be materials scientists and engineers performing the tests and comparing the results to established standards and the predicate device's performance.

    4. Adjudication Method for the Test Set

    • Adjudication Method: Not applicable. This was a non-clinical comparative analysis against a predicate's performance and established standards, rather than expert adjudication of clinical outcomes or images.

    5. If a Multi-Reader Multi-Case (MRMC) Comparative Effectiveness Study Was Done

    • Was it done?: No. This submission describes a non-clinical evaluation of a manufacturing change (coating subcontractor) for existing orthopedic implants. It is not a clinical study involving human readers or cases.

    6. If a Standalone (i.e., algorithm only without human-in-the-loop performance) Was Done

    • Was it done?: No. This is not an AI or algorithm-based device. It's a physical orthopedic implant.

    7. The Type of Ground Truth Used

    • Type of Ground Truth: The ground truth used for this submission is based on established engineering and materials standards (ISO standard 5834-2, ISO standard 5832-7 or ISO 5832-12, ASTM standard F1580), and the performance characteristics of the predicate device's coating (BioCoat Company). The goal was to prove the new coating was "substantially equivalent" and introduced no new risks.

    8. The Sample Size for the Training Set

    • Sample Size for Training Set: Not applicable. This is not an AI/ML device that requires a training set. The "training" for such a device would be the extensive research, development, and testing that led to the original design and material choices, which is outside the scope of this specific 510(k) modification.

    9. How the Ground Truth for the Training Set Was Established

    • How Ground Truth for Training Set Established: Not applicable, as this is not an AI/ML device.
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