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    K Number
    K031956
    Device Name
    MODIFICATION TO HERMES O.R. CONTROL CENTER
    Manufacturer
    COMPUTER MOTION, INC.
    Date Cleared
    2003-07-17

    (22 days)

    Product Code
    GCJ
    Regulation Number
    876.1500
    Type
    Special
    Panel
    General & Plastic Surgery
    Reference & Predicate Devices
    K030240,K973700
    Predicate For
    N/A
    AI/MLSaMDIVD (In Vitro Diagnostic)TherapeuticDiagnosticis PCCP AuthorizedThirdpartyExpeditedreview
    Intended Use

    The HERMES® O.R. Control Center and Port Expander is indicated for use with Stryker Endoscopy 882 Camera, Stryker Quantum 5000 Light Source, Stryker SE5 Shaver, WOM 20L Insufflator, WOM 2.0L Arthroscopy Pump, Stryker Total Performance System, Berchtold Surgical Lights, Steris Amsco Table Model SP3085, Steris Amsco Table Model SP3085, AESOP®HR (HERMES-Ready™), Valleylab Force FX™ Electro-surgical Unit, Smith & Nephew Dyonics® Access 15 Arthroscopic Fluid Irrigation System, Smith & Nephew Dyonics® Vision 635 Digital Image Management System, Skytron Stellar Series O.R. Lights, S&N Dyonics® Power Shaver (K030240) and the Smith & Nephew 400 Insufflator. It can be used in general laparoscopy, nasopharyngoscopy, ear endoscopy, and sinuscopy where a laparoscope/endoscope is indicated for use. A few examples of the more common endoscopic surgeries are laparoscopic cholecystectomy, laparoscopic hernia repair, laparoscopic appendectomy, laparoscopic pelvic lymph node dissection, laparoscopically assisted hysterectomy, laparoscopic & thoracoscopic anterior spinal fusion, decompression fixation, wedge resection, lung biopsy, pleural biopsy, dorsal sympathectomy, pleurodesis, internal mammary artery dissection for coronary artery bypass, coronary artery bypass grafting where endoscopic visualization in indicated and examination of the evacuated cardiac chamber during performance of valve replacement.

    Device Description

    The HERMES O.R. Control Center is a computer-driven system whose basic function is to offer the surgeon the additional option of voice control for ancillary devices. The intent of the HERMES O.R. Control Center is to allow for simplified and more direct control of medical device settings by the physician, thereby eliminating the necessity of using the various interfaces existing on ancillary devices, or relying on verbal communications between the surgeon and other personnel in the operating room in order to adjust the surgical equipment.

    AI/ML Overview

    The HERMES® O.R. Control Center is a computer-driven system providing voice control for ancillary devices in surgical settings.

    Here's an analysis of the acceptance criteria and supporting studies based on the provided text:

    1. Table of Acceptance Criteria and Reported Device Performance

    Acceptance Criteria (Test Standard)Reported Device Performance (Compliance)
    IEC 601-1 (Medical Electrical Equipment)Compliant
    IEC 601-1 Amendment 1Compliant
    IEC 601-2-18Compliant
    UL 2601-1 (Underwriters Laboratory)Compliant
    CAN/CSA-C22.2 No. 601.1 (Medical Electrical Equipment Part 1, General Requirements for Safety)Compliant
    EN55022/A1 (Conducted Emission)Compliant
    EN55022/A1 (Radiated Emission)Compliant
    EN61000-4-2 (Electrostatic Discharge)Compliant
    EN61000-4-3 and EN50140 (RF Immunity)Compliant
    EN61000-4-4 (EFT/Bursts Immunity)Compliant
    EN61000-4-5 (Surge Immunity)Compliant
    EN61000-4-6 (Conducted Immunity)Compliant
    EN60601-1 (International Standard for Medical Electrical Equipment)Compliant
    EN60601-1-1 (General Requirements for Safety - Collateral Standard)Compliant
    EN 60601-1-2 (Emissions and Immunity Test Measurements)Compliant
    VA-24772 (CMI System Functional Testing)Completed and verified
    CP-15345 (CMI Software Verification and Validation)Completed and verified
    VA-19795 (CMI Environmental Testing)Completed and verified

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

    The provided document details various engineering and safety standards (e.g., IEC, EN, UL, CAN/CSA) and internal company tests (CMI System Functional Testing, Software Verification and Validation, Environmental Testing). These types of tests typically involve controlled laboratory environments and specific test configurations, rather than human subject test sets with "data provenance" in the sense of patient data. Therefore, the concept of sample size and data provenance (country of origin, retrospective/prospective) for clinical test sets is not applicable to the data presented in this submission, as it focuses on demonstrating compliance with technical and safety standards.

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

    This information is not provided in the document. The tests performed are primarily engineering and hardware/software verification and validation, which rely on defined test procedures and specifications rather than expert consensus on clinical ground truth.

    4. Adjudication Method for the Test Set

    This information is not provided and is not applicable to the types of engineering and safety tests outlined.

    5. Multi-Reader Multi-Case (MRMC) Comparative Effectiveness Study

    An MRMC study was not conducted, as the submission focuses on the safety and effectiveness of a control system for medical devices, not on the interpretation of medical images or data by human readers. The device aims to simplify control during surgery, not to aid in diagnostic or interpretive tasks where an MRMC study would be relevant.

    6. Standalone (Algorithm Only Without Human-in-the-Loop Performance) Study

    The submission describes device testing in terms of compliance with various technical and safety standards (e.g., electrical safety, EMC, software functionality). These demonstrate the algorithm's functionality and performance in a standalone capacity within the system's design parameters. However, it's important to note that the device's intended use is inherently with a human operator (the surgeon) in the loop, as it provides "voice control for ancillary devices" and aims to eliminate "relying on verbal communications between the surgeon and other personnel." The described tests verify the technical integrity of the standalone components. While the performance of the voice control algorithm itself would have been tested, the document does not break down specific "standalone algorithm performance" metrics separate from the broader system functional tests (e.g., VA-24772, CP-15345).

    7. Type of Ground Truth Used

    The ground truth for the various tests appears to be:

    • Established industry standards and regulations: For tests like IEC, UL, EN, and CAN/CSA, the ground truth is compliance with the specified requirements and limits defined in those standards.
    • System specifications and design documents: For CMI's internal functional, software, and environmental testing (VA-24772, CP-15345, VA-19795), the ground truth would be predetermined performance specifications, design requirements, and expected operational parameters of the HERMES® O.R. Control Center.

    8. Sample Size for the Training Set

    This information is not provided and is not applicable. The HERMES® O.R. Control Center is a control system that seems to rely on voice recognition and device integration. While a voice recognition component would historically have a training set, the submission does not detail its development or any machine learning training sets. Instead, the focus is on the safety, electrical, and functional performance of the integrated system.

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

    This information is not provided and is not applicable.

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