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    K Number
    K242554
    Device Name
    Arthrex VAL and VAL KreuLock™ Compression Screw System
    Manufacturer
    Arthrex, Inc.
    Date Cleared
    2024-10-21

    (55 days)

    Product Code
    HRS,HWC
    Regulation Number
    888.3030
    Type
    Traditional
    Panel
    Orthopedic (OR)
    Reference & Predicate Devices
    K040907,K123241,K141478,K150456,K151732,K191344,K193345,K201235,K203834,K213837,K220937,K201132,K203294,K103705,K082516
    Why did this record match?
    Reference Devices :

    K040907, K123241, K141478, K150456, K151732, K191344, K193345, K201235, K203834, K213837, K220937

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

    The Arthrex VAL KreuLock™ Compression Screws (2.0-3.0 mm solid) are intended to be used in a plate-screw system for internal bone fixation for bone fractures, fusions, osteotomies and non-unions in the ankle, foot, hand, wrist, tibia, fibula, femur, pelvis, acetabulum, metacarpals, metatarsals, humerus, radius, ulna, calcaneus, clavicle and scapula. When used with a plate, the screw may be used with the Arthrex Low Profile Plate, Small Fragment Plates, Distal Extremity Plates, Mesh Plates (2.7-3.0) and Distal Radius Plates.

    The Arthrex Hybrid KreuLock™ Compression Screws (3.5 mm and larger, solid) are intended to be used in a plate-screw system for internal bone fixation for bone fractures, fusions, Osteotomies and non-unions in the ankle, foot, hand, wrist, clavicle, scapula, olecranon, humerus, radius, ulna, tibia, calcaneus, pelvis, acetabulum, metatarsals, femur and fibula. When used with a plate, the screws may be used with the Arthrex Low Profile Plate, Small Fragment Plates, Fracture Plates, Distal Extremity Plates, Distal Radius Plates, Humeral Fracture Plates, Osteotomy Plates, and Ankle Fusion Plates.

    The Arthrex Hybrid Low Profile VAL Screws (3.5mm and larger, solid) are intended to be used as stand-alone bone screws, or in a plate-screw system for internal bone fixation for bone fractures, fusions, osteotomies and non-unions in the ankle, foot, hand, wrist, clavicle, scapula, olecranon, humerus, radius, ulna, tibia, calcaneus, pelvis, acetabulum, metacarpals, femur and fibula. When used with a plate, the screws may be used with the Arthrex Low Profile Plate, Small Fragment Plates, Fracture Plates, Distal Extremity Plates, Distal Radius Plates, Humeral Fracture Plates, Osteotomy Plates, and Ankle Fusion Plates.

    Device Description

    The Arthrex VAL and VAL KreuLock™ Compression Screw System is a fracture fixation device system comprised of titanium (Titanium Ti-6AL-4V per ASTM F1472) self-tapping, solid, fully threaded, variable angle locking (VAL) screws that are offered in standard and hybrid configurations. The Arthrex VAL KreuLock™ Compression Screws are offered in 2.0, 2.7 and 3.0 diameters and range in lengths from 6 mm to 80 mm. The Arthrex Hybrid KreuLock™ Compression Screws and Hybrid Low Profile VAL Screws consist of line extension screws with the locking head geometry of the existing 2.7 mm screws and a shaft geometry of the existing 3.5 mm screws. The Arthrex Hybrid KreuLock™ Compression Screws range in lengths from 12 mm to 80 mm and the Arthrex Hybrid Low Profile VAL Screws range in lengths from 10 mm to 80 mm. Arthrex VAL and VAL KreuLock™ Compression Screw System consist of single-use, non-sterile devices intended for end-user sterilization.

    AI/ML Overview

    The provided text describes a 510(k) premarket notification for the Arthrex VAL and VAL KreuLock™ Compression Screw System. This is a medical device submission, and the information is primarily focused on demonstrating substantial equivalence to previously cleared predicate devices, rather than an AI/ML algorithm's performance study with acceptance criteria and ground truth.

    Therefore, many of the requested details, such as sample size for test sets, data provenance, number and qualifications of experts, adjudication methods, MRMC studies, standalone performance, training set details, and ground truth establishment for an AI/ML model, are not applicable to this document.

    However, I can extract information related to the performance data and the conclusion regarding substantial equivalence.

    Here's a summary of the available information:

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

    Since this is a mechanical fixation device, the "acceptance criteria" are not framed in terms of metrics like sensitivity or specificity, but rather in terms of compliance with established ASTM standards for mechanical properties. The reported performance is that the device meets these standards.

    Acceptance Criteria (Standard Compliance)Reported Device Performance
    ASTM F543 Standard Specification and Test Methods for Metallic Medical Bone Screws (for pull-out testing, torsional strength testing, and driving torque testing)Proposed devices are demonstrated to be substantially equivalent to primary predicate devices. Specific quantitative results are not provided in this summary.
    FDA guidance "Testing and Labeling Medical Devices for Safety in the Magnetic Resonance (MR) Environment"Passed.
    ASTM F2052 Standard Test Method for Measurement of Magnetically Induced Displacement Force on Medical Devices in the Magnetic Resonance EnvironmentPassed.
    ASTM F2119 Standard Test Method for Evaluation of MR Image Artifacts from Passive ImplantsPassed.
    ASTM F2182 Standard Test Method for Measurement of Radio Frequency Induced Heating Near Passive Implants During Magnetic Resonance ImagingPassed.
    ASTM F2213 Standard Test Method for Measurement of Magnetically Induced Torque on Medical Devices in the Magnetic Resonance EnvironmentPassed.

    2. Sample sized used for the test set and the data provenance:

    • Sample Size for Test Set: Not explicitly stated in terms of the number of screws or test repetitions. Testing was conducted "on the proposed Arthrex VAL and VAL KreuLock™ Compression Screw Systems."
    • Data Provenance: Not applicable in the context of clinical data provenance. The data comes from mechanical and MRI compatibility testing of the physical device.

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

    • Not Applicable. This is a mechanical device, not an AI/ML diagnostic system requiring expert interpretation for ground truth. The "ground truth" is adherence to established engineering and safety standards.

    4. Adjudication method for the test set:

    • Not Applicable. Mechanical testing to standards does not typically involve adjudication in the clinical sense. Results are measured against predefined engineering specifications.

    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:

    • Not Applicable. This is a medical implant, not an AI/ML diagnostic or assistive technology.

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

    • Not Applicable. This is a medical implant, not an AI/ML algorithm.

    7. The type of ground truth used:

    • The "ground truth" for this device's performance is adherence to recognized ASTM International standards and FDA guidance documents for mechanical properties (e.g., pull-out strength, torsional strength, driving torque) and MRI compatibility (e.g., force, torque, image artifact, heating).

    8. The sample size for the training set:

    • Not Applicable. This is a medical implant, not an AI/ML algorithm.

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

    • Not Applicable. This is a medical implant, not an AI/ML algorithm.

    In summary: The provided document is a 510(k) clearance letter for a traditional medical device (bone screws), not an AI/ML software device. Therefore, most of the requested information pertinent to AI/ML model validation is not found here and is not relevant to this type of device submission. The study described focuses on demonstrating the physical and mechanical properties of the screws meet established industry standards and are substantially equivalent to predicate devices.

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