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510(k) Data Aggregation

    K Number
    K223211
    Device Name
    INHANCETM Shoulder System – Humeral Stems and Stemless
    Manufacturer
    Depuy Ireland UC
    Date Cleared
    2022-12-02

    (46 days)

    Product Code
    PHX,HSD,KWS,KWT,MBF,PAO,PKC
    Regulation Number
    888.3660
    Type
    Traditional
    Panel
    Orthopedic
    Reference & Predicate Devices
    K212737,K202716,K203108
    Predicate For
    N/A
    AI/MLSaMDIVD (In Vitro Diagnostic)TherapeuticDiagnosticis PCCP AuthorizedThirdpartyExpeditedreview
    Intended Use

    Anatomic Total Shoulder or Hemi-Shoulder

    The INHANCE SHOULDER SYSTEM with the humeral stemless anchor is intended for use in anatomic total shoulder replacement procedures to address the following:

    • · Osteoarthritis
    • · Post-traumatic arthrosis
    • Focal avascular necrosis of the humeral head
    • · Previous surgeries of the shoulder that do not compromise the fixation

    The INHANCE SHOULDER SYSTEM with a humeral stem is intended for use in anatomic total or hemi-shoulder replacement procedures to address the following:

    • · Non-inflammatory degenerative joint disease including osteoarthritis and avascular necrosis.
    • · Rheumatoid arthritis.
    • · Revision where other devices or treatments have failed.
    • · Correction of functional deformity.
    • · Fractures of the humeral head (with Short Humeral Stems)
    • · Fractures of the humeral head and proximal humerus, where other methods of treatment are deemed inadequate (with Standard or Long Stems)
    • · Difficult clinical management problems where other methods of treatment may not be inadequate.

    Fixation Methods

    The humeral stems are intended for cementless use. The humeral stemless anchor is intended for cementless use. The glenoid is intended for cemented use only.

    Reverse Total Shoulder

    The INHANCE SHOULDER SYSTEM Reverse Total Shoulder with a humeral stem is indicated for primary, fracture or revision total reverse shoulder replacement procedures to address the following. The system is indicated for use in patients whose shoulder joint has a gross rotator cuff deficiency. The patient must be anatomically suited to receive the implants and a functional deltoid muscle is necessary. The system is also indicated for conversion from an anatomic to reverse shoulder prosthesis without the removal of a well-fixed INHANCE humeral stem.

    • · A severely painful, disabling, arthritic joint
    • · Fractures of the humeral head (with Short Humeral Stems)
    • · Fractures of the humeral head and proximal humerus (with Standard or Long Stems)
    • · Revisions of previously failed shoulder joint replacements

    Fixation Methods

    The humeral stem is intended for cementless use. The glenoid baseplate components are intended for cementless application with the addition of screw fixation.

    Device Description

    The INHANCE™SHOULDER SYSTEM with a humeral stemless anchor is intended for use in anatomic total shoulder replacement procedures.

    The INHANCE SHOULDER SYSTEM with a humeral stem is intended for use in anatomic total, reverse total, or hemi-shoulder replacement procedures.

    The Anatomic Total Shoulder Prosthesis consists of individually packaged implants: a metal humeral stem or humeral stemless anchor (titanium alloy), an offset taper adapter (titanium alloy), a humeral head (cobalt-chromium) in combination with a Cross-linked, Vitamin E Ultra High Molecular Weight Polyethylene (Cross-linked, VE UHMWPE) glenoid.

    The Reverse Total Shoulder Prosthesis consists of individually packaged implants: a metal humeral stem (titanium alloy), a shell (titanium alloy), a liner (Cross-linked, VE UHMWPE) in combination with a glenosphere (cobalt-chromium), baseplate (titanium alloy), peripheral screws (titanium alloy), peripheral posts (titanium alloy), and either a central screw (titanium alloy) or a central post (titanium alloy).

    The Anatomic Hemi-Shoulder Prosthesis consists of individually packaged implants: a metal humeral stem (titanium alloy) an offset taper adapter (titanium alloy), a humeral head (cobaltchromium) (no glenoid component associated).

    AI/ML Overview

    The provided document describes a 510(k) premarket notification for the INHANCE™ Shoulder System - Humeral Stems and Stemless Anchors. This submission aims to demonstrate substantial equivalence to previously cleared predicate devices.

    The information primarily focuses on the non-clinical testing performed to support this claim of substantial equivalence, as clinical testing was not deemed necessary. Therefore, the request for details related to human reader studies, expert ground truth, and training data applies to the scenario of AI/ML device testing, which is not the case here.

    However, based on the provided text, we can describe the acceptance criteria and the study that proves the device meets them, primarily from a non-clinical/engineering perspective.

    Here's the breakdown of the acceptance criteria and study as described in the document:

    1. Table of Acceptance Criteria and Reported Device Performance

    Acceptance CriterionReported Device Performance
    Construct Fatigue Testing (based on ASTM F1378 methods)"The acceptance criteria were met, demonstrating substantial equivalence of the subject and predicate devices." (Implies the subject device performed comparably or better than the predicate devices under fatigue testing, meeting the established thresholds for the predicate).
    Range of Motion (RoM) Evaluation"The subject devices do not represent a new worst-case for range of motion when compared to the predicate devices." (Implies RoM performance is not worse than the predicate).
    Construct Loosening and Disassociation"The subject devices do not represent a new worst-case for construct loosening and disassociation when compared to the predicate devices." (Implies loosening and disassociation performance is not worse than the predicate).
    Biocompatibility Assessments"The subject devices do not represent a new worst-case for biocompatibility when compared to the predicate devices." (Implies biocompatibility is not worse than the predicate).
    Porous Structure Characterization"Further characterization was not required" as the porous structure is "identical" to predicate devices. (Implies the porous structure meets the same criteria as the predicate).
    MRI Compatibility"The subject devices do not represent a new worst-case for MRI compatibility when compared to the predicate devices." (Implies MRI compatibility is not worse than the predicate).
    Shelf Life Evaluation"The subject devices do not represent a new worst-case for shelf life when compared to the predicate devices." (Implies shelf life is not worse than the predicate).
    Sterilization Validation"The subject devices do not represent a new worst-case for sterility when compared to the predicate devices." (Implies sterility is not worse than the predicate).

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

    • Sample Size: The document does not specify the exact number of units or samples used for each non-clinical test (e.g., how many humeral stems were subjected to fatigue testing). It generally refers to "the subject devices" without providing specific counts.
    • Data Provenance: Not applicable in the context of non-clinical device testing with patient data. The testing is performed on physical devices in a controlled laboratory environment. The testing methods are "well-established methods" and "per the methods described in ASTM F1378."

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

    • This is not applicable as the evaluations are non-clinical (mechanical, material, dimensional, etc.) and do not involve human judgment or interpretation of medical images or patient data. Ground truth is established by engineering standards (e.g., ASTM F1378) and physical measurements.

    4. Adjudication Method for the Test Set

    • This is not applicable as the evaluation is based on objective, quantifiable engineering tests and comparisons to predicate device performance, not on subjective human interpretation or consensus.

    5. If a Multi-Reader Multi-Case (MRMC) Comparative Effectiveness Study was done

    • No, an MRMC comparative effectiveness study was not done. The document explicitly states: "Clinical testing was not necessary to demonstrate substantial equivalence of the INHANCE™ Shoulder System Humeral Stems and Stemless Anchors to the predicate devices." Such studies are typically for AI/ML devices assisting human readers with diagnostic tasks.

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

    • No, a "standalone" performance study in the context of an algorithm or AI was not done. The device is a physical shoulder implant, not a software algorithm.

    7. The Type of Ground Truth Used

    • The "ground truth" for the non-clinical tests is established by engineering standards, validated test methods (e.g., ASTM F1378), and direct comparison to the performance of the legally marketed predicate devices. The goal is to show that the new device's performance is not worse than the predicate.

    8. The Sample Size for the Training Set

    • This is not applicable. The device is a physical medical implant, not an AI/ML algorithm that requires a training set.

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

    • This is not applicable for the same reason as above.
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