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510(k) Data Aggregation

    K Number
    K111010
    Device Name
    SPIDERFX EMBOLIC PROTECTION DEVICE
    Manufacturer
    EV3 INC
    Date Cleared
    2011-10-27

    (199 days)

    Product Code
    NTE
    Regulation Number
    870.1250
    Type
    Traditional
    Panel
    Cardiovascular (CV)
    Reference & Predicate Devices
    K063204,K052659,K090364
    Why did this record match?
    Reference Devices :

    K063204, K052659, K090364

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

    The SpiderFX Embolic Protection Device is indicated for use as a guidewire and embolic protection system to contain and remove embolic material in conjunction with the TurboHawk, either during standalone procedures or together with PTA and/or stenting, in the treatment of severely calcified lesions in arteries of the lower extremities.

    Device Description

    The SpiderFX® Embolic Protection Device is a percutaneously delivered distal embolic protection system that can be delivered over any 0.014" or 0.018" guidewire. The SpiderFX Embolic Protection Device contains a Capture Wire composed of a nitinol mesh filter mounted on a 190 cm or a convertible 320/190 cm PTFE-coated 0.014" stainless steel guidewire and a dualended SpiderFX Catheter for delivery and recovery. The SpiderFX® Embolic Protection Device uses the following materials: pebax, grilamid, platinum/iridium, nitinol, stainless steel, PTFE coating, gold tungsten, and hydrophilic coating.

    AI/ML Overview

    Here's a breakdown of the acceptance criteria and study information for the SpiderFX® Embolic Protection Device, based on the provided 510(k) summary:

    Acceptance Criteria and Device Performance

    Acceptance Criteria CategorySpecific Acceptance Criteria (if quantifiable)Reported Device Performance
    Primary Safety Endpoint (Clinical Study)30-day freedom from Major Adverse Event (MAE) rate performance goal = 85.5%93.1% (122/131) 30-day freedom from MAE rate. 95% lower confidence limit was 88.3%.
    BiocompatibilityMeets requirements for biocompatibility testing outlined in ISO 10993-1 Part 1: 2003All leveraged tests (cytotoxicity, sensitization, intracutaneous injection, systemic injection, hemolysis, pyrogen, complement activation, and thrombogenicity) met specified acceptance criteria.
    Stent CompatibilityNot specified in detail, implied to be functionally compatibleNot explicitly quantifiable, but "Tests were performed" and results "demonstrate that the technological characteristics and performance criteria are comparable".
    Filter EfficiencyNot specified in detail, implied to be functionally efficientNot explicitly quantifiable, but "Tests were performed" and results "demonstrate that the technological characteristics and performance criteria are comparable".
    Radial Outward ForceNot specified in detail, implied to meet functional requirementsNot explicitly quantifiable, but "Tests were performed" and results "demonstrate that the technological characteristics and performance criteria are comparable".
    Simulated UseNot specified in detail, implied to meet functional requirements"Tests were performed" and results "demonstrate that the technological characteristics and performance criteria are comparable".
    Deployment/Retrieval ForcesNot specified in detail, implied to meet functional requirements"Tests were performed" and results "demonstrate that the technological characteristics and performance criteria are comparable".
    In Vivo Animal StudiesNot specified, implied to demonstrate safety and effectiveness for proposed use"Tests were performed" and results "demonstrate that the technological characteristics and performance criteria are comparable".
    Embolic Capture Efficiency and Retrieval AbilityNot specified, implied to meet functional requirements"Test results met the specified acceptance criteria".
    Filter CapacityNot specified, implied to meet functional requirements"Test results met the specified acceptance criteria".
    Resistance to Filter Rupture During Removal of a Fully Loaded FilterNot specified, implied to meet functional requirements"Test results met the specified acceptance criteria".
    Flow CharacteristicsNot specified, implied to meet functional requirements"Test results met the specified acceptance criteria".
    Tip FlexibilityNot specified, implied to meet functional requirements"Test results met the specified acceptance criteria".
    Tensile StrengthNot specified, implied to meet functional requirements"Test results met the specified acceptance criteria".
    Torque StrengthNot specified, implied to meet functional requirements"Test results met the specified acceptance criteria".
    Torque ResponseNot specified, implied to meet functional requirements"Test results met the specified acceptance criteria".
    Kink ResistanceNot specified, implied to meet functional requirements"Test results met the specified acceptance criteria".
    Dimensional VerificationNot specified, implied to meet functional requirements"Test results met the specified acceptance criteria".
    Package IntegrityNot specified, implied to maintain sterility and device integrity"Test results met the specified acceptance criteria".
    SterilizationNot specified, implied to meet sterility assurance level"Test results met the specified acceptance criteria".
    Shelf LifeNot specified, implied to maintain device integrity and function over shelf life"Test results met the specified acceptance criteria".

    Study Details

    Clinical Study (DEFINITIVE Cat+)

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

      • Sample Size: 131 subjects.
      • Data Provenance: Prospective, multi-center, non-randomized, single-arm study. The country of origin is not explicitly stated, but it's typically a multi-national or US-based study for FDA submissions. The study involved comparison to a performance goal derived from an observational multi-center registry (TALON).

    2. 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):

      • Number of Experts: Not explicitly stated, but a "clinical events committee (CEC)" was used for adjudication. Specific number and qualifications are not provided in this summary.

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

      • Adjudication Method: "as adjudicated by the clinical events committee (CEC)". The specific method (e.g., majority vote, consensus) for the CEC is not detailed.

    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:

      • MRMC Study: No, this was not an MRMC comparative effectiveness study involving human readers and AI assistance. This was a clinical study evaluating the device's safety and effectiveness.

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

      • Standalone Performance: Not applicable. This device is a physical embolic protection system, not an AI algorithm.

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

      • Ground Truth: For the primary safety endpoint, the "ground truth" was defined by the occurrence of Major Adverse Events (MAE) through 30 days post-procedure, as adjudicated by a Clinical Events Committee (CEC). This is essentially outcomes data, interpreted and confirmed by expert consensus within the CEC.

    7. The sample size for the training set:

      • Training Set Sample Size: Since this is a physical medical device and not an AI algorithm, there isn't a "training set" in the conventional machine learning sense for the clinical study. The study population of 131 subjects served as the test set for the device's performance.

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

      • Training Set Ground Truth Establishment: Not applicable, as there is no traditional "training set" for an AI model.

    Pre-Clinical Performance Testing

    For the extensive list of performance tests (Stent Compatibility, Filter Efficiency, Radial Outward Force, Simulated Use, Deployment/Retrieval Forces, In Vivo Animal Studies, Embolic Capture Efficiency and Retrieval Ability, Filter Capacity, Resistance to Filter Rupture During Removal of a Fully Loaded Filter, Flow Characteristics, Tip Flexibility, Tensile Strength, Torque Strength, Torque Response, Kink Resistance, Dimensional Verification, Package Integrity, Sterilization, Shelf Life):

    • Sample Size, Data Provenance, Experts for Ground Truth, Adjudication, MRMC, Standalone, Ground Truth Type, Training Set: These details are not provided in the 510(k) summary for these specific pre-clinical tests. They are generally performed by engineers and technicians according to validated test methods, and the "ground truth" is typically the measured physical properties and performance against pre-defined engineering specifications or industry standards. The summary indicates that "Test results met the specified acceptance criteria" for these tests, leveraging data from predicate device submissions (K063204 or K052659).
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