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510(k) Data Aggregation

    K Number
    K243676
    Device Name
    Duet External Drainage and Monitoring System (EDMS)
    Manufacturer
    Medtronic Neurosurgery
    Date Cleared
    2025-03-10

    (103 days)

    Product Code
    JXG
    Regulation Number
    882.5550
    Type
    Traditional
    Panel
    Neurology (NE)
    Reference & Predicate Devices
    K242034,K200456
    Why did this record match?
    Reference Devices :

    K242034

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

    The Duet EDMS is indicated for draining of CSF flow from the lateral ventricles or lumbar subarachnoid space in selected patients to:

    • · Reduce intracranial pressure (ICP), e.g., pre-, intra- or postoperative.
    • · Monitor CSF chemistry, cytology, and physiology.
    • · Provide temporary CSF drainage in patients with infected cerebrospinal fluid shunts.

    Monitoring of intracranial pressure (ICP) is indicated in selected patients with:

    • · Severe head injury
    • · Subarachnoid hemorrhage graded III, IV, or V preoperatively
    • · Reyes syndrome or similar encephalopathies
    • · Hydrocephalus
    • · Intracranial hemorrhage
    • · Miscellaneous problems when drainage is to be used as a therapeutic maneuver.

    Monitoring can also be used to evaluate the status pre- and postoperatively for space-occupying lesions.

    Device Description

    The Medtronic Duet™ External Drainage and Monitoring System (Duet™ EDMS) is a complete draining and monitoring cerebrospinal system for externally fluid (CSF) and monitoring intracranial pressure (ICP). It can be used for both external ventricular and lumbar drainage.

    The Duet™ EDMS is an external drainage and monitoring system that uses gravity to drain cerebrospinal fluid (CSF) from the patient's ventricles or lumbar space to an external drainage receptacle. The drainage flow of CSF into the Duet™ EDMS is uni-directional and gravity-driven; there is no recirculation of the CSF. The Duet's catheter is surgically attached to the patient before it is attached to the drainage system. An opening is made in the patient's skull lumbar region and a catheter is inserted into patient's ventricle or the lumbar or subarachnoid space. The catheter is then attached to the drainage system. The CSF or blood is drained and monitored until the patient is stabilized, the infection successfully treated, or a long-term drainage method is implemented.

    AI/ML Overview

    The provided document is a 510(k) Premarket Notification from the FDA for a medical device called the "Duet External Drainage and Monitoring System (EDMS)". It describes the device, its intended use, and its comparison to a predicate device. However, it does not contain information about an AI/ML-based device or a study involving human readers or ground truth established by experts/pathology.

    The performance testing summarized in the document focuses on the physical and functional characteristics of the Duet EDMS (e.g., dimensional accuracy, torque strength, leak integrity, flow initiation pressure, and attachment strength) rather than diagnostic or prognostic accuracy of an AI model.

    Therefore, many of the requested points, such as sample size for test/training sets, data provenance, number/qualifications of experts, adjudication methods, MRMC studies, standalone algorithm performance, and ground truth establishment for AI models, are not applicable and cannot be extracted from this document.

    If you are looking for an example of an AI/ML-based medical device submission, this document is not suitable.

    Despite the irrelevance of the document to AI/ML, I will attempt to frame the acceptance criteria and study as presented for this non-AI device:

    Acceptance Criteria and Device Performance for Duet External Drainage and Monitoring System (EDMS)

    The Duet External Drainage and Monitoring System (EDMS) is a non-AI/ML medical device. Its performance testing focused on demonstrating its physical and functional suitability for its intended use, rather than diagnostic accuracy or AI model performance.

    1. Table of Acceptance Criteria and Reported Device Performance

    The acceptance criteria are implicitly defined by the "Pass" results for each test. The study demonstrated that the device "passed" all these checks, indicating it met the pre-defined performance requirements for each test.

    Test NameAcceptance Criteria (Implicit from "Pass" Result)Reported Device Performance
    DimensionalVertical/horizontal alignment of scale label, pressure scale lengths, patient line tubing ID/length, cord length, drainage path ID, and stopcock flow path diameter must meet specified dimensions.Pass
    Drip Chamber GraduationsDrip chamber graduations must show correct readings.Pass
    Main System Stopcock (MSS) Assembly Torque Applied to Arm of StopcockMSS assembly must withstand a specified peak torque without failure or detachment.Pass
    MSS Assembly Load Applied to Core of Stopcock ArmMSS assembly must withstand a specified peak load without failure.Pass
    Clamp to I.V. Pole Attachment StrengthClamp must securely attach to the I.V. pole.Pass
    Cord to I.V. Pole Attachment StrengthCord and cord lock must maintain secure hanging of the system.Pass
    Drip Chamber to Back Panel Attachment StrengthDrip chamber/bag subassembly must securely attach to the panel.Pass
    Strength of Attached Junctions (Tubing to Luer)Junctions of tubes to luer must be securely attached.Pass
    Bottom Cap to Stopcock Junction TorqueStopcock/bottom cap bond must be secure.Pass
    Drip Assembly and Drainage Bag Vent IntegrityDrip assembly and drainage bag vent must withstand appropriate fluid pressures.Pass
    Tensile Strength of Drainage Bag Inlet PortDrainage bag inlet port must exhibit sufficient tensile strength to failure.Pass
    Drainage Bag Seal WeldDrainage bag must have no leaks.Pass
    Flow Initiation PressureFlow must initiate at a specified pressure for each drainage bag.Pass
    Drip Assembly Vent Test (Exposure of Vent to Blood Solution)Drip assembly vent must allow drainage of blood and CSF flow with minimal resistance.Pass
    Drip Assembly Vent IntegrityDrip assembly vent must allow fluid withdrawal without compromising mechanical integrity.Pass
    Leakage of UV-Cure BondsNo leakage from UV-cure bonds between patient line and drip chamber subassembly.Pass
    Leakage of Drainage BagDrainage bag must withstand inversion without leaking.Pass
    Drip Chamber VolumeDrip chamber fluid weight must be verifiable.Pass
    Attachment of I.V. Pole and Position of Adjustable Drip ChamberClamping thumbscrews and cord locks must not slip from initial positions.Pass
    Leakage of UV Cure Bonds (Air Pressure)UV-cure bonds must withstand air pressure without leaks.Pass
    Attachment of Junctions (Axial Load)Junctions must withstand a minimum 5-pound axial load.Pass
    Bottom Cap to Stopcock Junction TorqueStopcock/bottom cap bond must withstand specified torque.Pass
    Hydrophobic Microbial Barrier Vent on the Drainage BagMaterial must demonstrate 99.9% Bacterial Filtration Efficiency (BFE).Pass

    2. Sample Size and Data Provenance

    • Sample Size for Test Set: The document does not specify the quantitative sample size for each individual performance test (e.g., number of devices tested for each parameter). It only states that "Testing demonstrated the performance of the device."
    • Data Provenance: The document does not provide details about the country of origin of the data or whether the testing was retrospective or prospective in the context of patient data. The tests described are laboratory-based engineering performance tests conducted on the physical device.

    3. Number of Experts and Qualifications for Ground Truth

    • Number of Experts: Not applicable. The "ground truth" for these tests relates to engineering specifications and physical measurements, rather than clinical interpretation requiring expert consensus.
    • Qualifications of Experts: Not applicable. Testing was likely conducted by engineers or technicians involved in product development and quality assurance, following established protocols.

    4. Adjudication Method for the Test Set

    • Adjudication Method: Not applicable. The tests involve objective measurements and physical properties, which typically have clear pass/fail criteria based on engineering specifications, not subjective interpretation requiring adjudication.

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

    • MRMC Study: No, an MRMC comparative effectiveness study was not done. This type of study is relevant for evaluating the clinical performance of diagnostic or AI-assisted interpretation systems, which is not the function of the Duet EDMS.

    6. Standalone (Algorithm Only) Performance

    • Standalone Performance: No, a standalone performance study was not done. The Duet EDMS is a physical medical device, not a software algorithm.

    7. Type of Ground Truth Used

    • Type of Ground Truth: The "ground truth" for the performance tests was based on engineering specifications, design requirements, and established physical measurement standards. For example, a dimension must be within a certain tolerance, a torque value must exceed a minimum, or a seal must not leak.

    8. Sample Size for the Training Set

    • Sample Size for Training Set: Not applicable. This device does not involve machine learning; therefore, there is no "training set."

    9. How Ground Truth for the Training Set Was Established

    • Ground Truth Establishment for Training Set: Not applicable, as there is no training set for this non-AI device.
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