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510(k) Data Aggregation

    K Number
    K243442
    Device Name
    iBOT® PMD
    Manufacturer
    Mobius Mobility
    Date Cleared
    2025-01-30

    (85 days)

    Product Code
    IMK,ITI
    Regulation Number
    890.3890
    Type
    Traditional
    Panel
    Physical Medicine
    Reference & Predicate Devices
    K150574,K210920
    Predicate For
    N/A
    AI/MLSaMDIVD (In Vitro Diagnostic)TherapeuticDiagnosticis PCCP AuthorizedThirdpartyExpeditedreview
    Intended Use

    The iBOT® Personal Mobility Device ("iBOT® PMD") is intended to provide indoor and outdoor mobility to persons restricted to a sitting position. The device allows for the option to climb stairs. The operator(s), either the wheelchair occupant or an assistant, must meet the requirements of the training certification program. The wheelchair occupant must meet the requirements of the user assessment.

    Device Description

    The proposed device is an update to the previously cleared iBOT® PMD (K210920). The device retains all the following from the original device including:

    The device is a multi-mode powered wheelchair that enables users to manewer in confined spaces, climb curbs, stairs, and other obstacles. The device is intended to provide indoor mobility, including stair climbing, to persons limited to a seated position who are capable of operating a powered wheelchair.

    The device still includes active stabilization in multiple driving modes and allows for traversing aggressive and difficult terrain and operation at an elevated seat height offers benefits in activities of daily living (e.g., accessing higher shelves) and interaction with other people at "eye level" while either stationary or moving.

    The device still utilizes the primary components of a stair climbing drive wheels, frame, sealed electronics, sensors, battery packs, motors, active stability system and battery charger. It can also be produced without the stair climbing function.

    The device still allows occupied transportation while an individual is seated in through both a 4-point tie down system and a docking system.

    In addition, the device incorporates the following updates to the iBOT® PMD design:

    • · Modified the device to add the Motion Concepts Modular Power Positioning Seating System (K150574) as an option / accessory which includes greater degrees of posterior tilt, power recline with shear reduction, and power elevating legrests
    • · Adds anterior tilt to the power positioning options available on the product
    • · Adds the existing power seat elevation to the Standard Mode of the device
    • · Updates that operator of the chair can be the occupant or an attendant to increase clarity
    • · Updates contraindications to increase clarity
    • · Adds optional seat interface brackets that include seat height and static tilt angle adjustments
    • · Minor redesign of front casters and changes of materials / processes in support of design for manufacturing efforts
    • · Software revisions / changes
    • · Removes the contraindication for a mechanical ventilator mount can be added to the device, when the device is modified to remove stair and balance modes.
    AI/ML Overview

    This document is an FDA 510(k) summary for a medical device called the "iBOT® PMD," a stair-climbing wheelchair. It describes an updated version of a previously cleared device. The purpose of this 510(k) is to demonstrate that the updated device is substantially equivalent to the predicate device, meaning it is as safe and effective.

    Based on the provided text, the device in question is a Stair-Climbing Wheelchair (iBOT® PMD). The context of "acceptance criteria" and "study that proves the device meets the acceptance criteria" refers to the regulatory requirement that the updated device must demonstrate substantial equivalence to its predicate device through performance testing and compliance with recognized standards.

    Here's the breakdown of the information requested:

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

    The document doesn't explicitly list "acceptance criteria" in a quantitative sense as might be seen for a diagnostic AI device (e.g., target specificity/sensitivity). Instead, the acceptance criteria are implicitly satisfied by demonstrating compliance with a long list of recognized performance standards for wheelchairs and related components. The "reported device performance" is essentially a comparison of the updated iBOT® PMD's specifications against those of its predicate device, as well as the results of compliance testing to the listed standards.

    CharacteristicPredicate Device (iBOT® PMD K210920)Proposed (iBOT® PMD)Assessment of Difference (if applicable)
    Indications for UseProvides indoor and outdoor mobility for persons restricted to a sitting position, option to climb stairs. User assessment & training cert. Occupied transport option.Provides indoor and outdoor mobility for persons restricted to a sitting position, option to climb stairs. Operator (occupant or assistant) and occupant must meet training/assessment.Clarified that operator can be occupant or assistant, removed occupied transport as it's an option. No new safety/effectiveness issues.
    ManufacturerMobius Mobility, LLCMobius Mobility, LLCNo change.
    Product CodeIMK, ITIIMK, ITINo change.
    ContraindicationsWeight 300 lbs. Risk of seizure/loss of consciousness. Risk of fracture from jarring forces. Unsuccessful user training. Need mechanical ventilator.Weight 300 lb, or >275 lb (with 55-degree tilt/recline/legrest). Uncontrolled seizures/loss of consciousness. Known serious risk of fractures. Unsuccessful user training.Weight capacity updated for new seating options. Mechanical ventilator mount added (when stair/balance modes removed). Wording updated for clarity. No new issues of safety or effectiveness.
    Drive Wheel TypePneumatic, 5 bolt, 2-inch width.Pneumatic, 5 bolt, 2-inch or 4-inch width.Added 4-inch width option. No new issues of safety or effectiveness.
    Caster AssemblyStandard caster wheel with suspension.Standard caster wheel with suspension.Casters redesigned but no functional change. No new issues of safety or effectiveness.
    BatteriesFour or Six Li-ion, 57.6 VDC, 5.1 Ah.Four or Six Li-ion, 57.6 VDC, 5.1 Ah.No change.
    Communication with External Apps/DevicesBluetooth 4.2 Low EnergyBluetooth 4.2 Low EnergyNo change.
    Drive SystemRear wheel, 4-wheel, 2-wheel balancing.Rear wheel, 4-wheel, 2-wheel balancing.No change.
    Operating ModesStandard, 4-Wheel, Balance, Stair-climbing, Remote, Docking.Standard, 4-Wheel, Balance, Stair-climbing, Remote, Docking.No change.
    Inertial MeasurementMEMS based sensorsMEMS based sensorsNo change.
    Wheel Gear TrainHelical GearHelical GearNo change.
    Position MonitoringInternal absolute position sensorInternal absolute position sensorNo change.
    System CommunicationCAN busCAN bus and UARTAdded UART for communication to Modular Power Positioning System. No new issues of safety or effectiveness.
    Weight (incl. batteries)242.5 lb.242.5 lb. (without Modular Power Positioning System); 295.0 lb. (with Modular Power Positioning System).Weight with optional Modular Power Positioning System added. No new issues of safety or effectiveness.
    Driving Range15.5 miles14.3 milesUpdated testing done with seat changes. No new issues of safety or effectiveness.
    Dynamic Stability10 (standard), 12 (4-wheel), 8 (balance) degrees.10 (standard), 12 (4-wheel), 8 (balance) degrees.No change.
    Max Speed Settings by ModeStandard: 6.7 mph; 4-Wheel: 5.1 mph; Balance: 3.5 mph; Docking: 0.6 mph.Standard: 6.8 mph; 4-Wheel: 5.1 mph; Balance: 3.5 mph; Docking: 0.6 mph.No change in electronics affecting speed. No new issues of safety or effectiveness.
    Maximum User Weight Capacity300 lb. with Maxx Rehab Seat.300 lb. without Modular Maxx Rehab Seat; 275 lb. with Modular Ultra Low Maxx Seat (with power positioning options).Reduced for devices with seating systems including 55-degree tilt, recline, or elevating leg rests.
    Obstacle Climbing5 in. (in 4-wheel mode)6 in. (in 4-wheel mode)Increased obstacle height. No new issues of safety or effectiveness.
    Turning Radius24.5 in. - 33.8 in. (dependent on mode).24.5 in. - 37 in. (dependent on mode).Due to length of the seating system.
    SeatingMaxx Rehab SeatMaxx Rehab Seat; Ultra Low Maxx Rehab Seat with power positioning options.Added seating options allowing full tilt, recline, and/or elevating leg rests. Risks identified via FMEA, mitigations verified. No impact to safety/effectiveness.
    Power Seat ElevationAvailable in 4-Wheel, Balance and Stair modes. Max 17".Available in 4-Wheel, Balance, Stair, and Standard modes. Max 17".Added existing functionality to Standard mode. Risks identified via FMEA, mitigations verified. No impact to safety/effectiveness.
    User Controller, Joystick, etc.User controller with integrated joystick, display, buttons, speed setting reduction wheel, optional toggle switches. User assist confirmation. Power off request button on powerbase.Color Joystick (user controller) with integrated joystick, display, buttons, speed setting reduction wheel, optional toggle switches. User assist confirmation. Power off request button on powerbase.Updated terminology. No change to design or function.
    TransportationUnoccupied and Occupied Transport Options.Unoccupied and Occupied Transport Options.No change.

    2. Sample size used for the test set and the data provenance (e.g. country of origin of the data, retrospective or prospective)

    The document lists performance standard compliance (e.g., ISO 7176 series, IEC 62133-2) and general statements like "The following performance testing was conducted to demonstrate that the proposed device complies..." and "A summary of the testing performed is provided below."

    • Sample Size: The document does not specify the sample size for object testing (e.g., number of wheelchairs tested). This type of testing typically involves a small number of production units (e.g., 1-3 devices) to demonstrate compliance with engineering standards.
    • Data Provenance: Not specified, but generally, such regulatory testing is performed in controlled lab environments as part of the device manufacturer's design verification and validation activities. It is inherently prospective testing against predefined specifications and standards. Country of origin for testing is not mentioned but would typically be where the manufacturer or their chosen test labs are located.

    3. 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)

    This product is a physical medical device (stair-climbing wheelchair), not an AI/ML-based diagnostic imaging device. Therefore, the concept of "ground truth" established by human experts (like radiologists for imaging) is not applicable in the same way. The "ground truth" for this device's performance is established by engineering standards and direct physical testing against those standards. The expertise comes from the engineers and technicians performing the tests and validating the design against the requirements of the standards (e.g., ISO, IEC).

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

    Not applicable for a physical device's performance testing. Adjudication methods like 2+1 or 3+1 are typically used in clinical studies or for establishing ground truth in diagnostic imaging AI where human readers might disagree. For device performance testing, results are typically objective measurements against a standard.

    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 not an AI-assisted diagnostic device. The study described is an engineering performance validation and comparison to a predicate device, not a human reader study.

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

    Not applicable. This is not an algorithm-only device. Its performance is demonstrated through its physical functions and safety features.

    7. The type of ground truth used (expert concensus, pathology, outcomes data, etc)

    The "ground truth" for this device lies in its compliance with internationally recognized performance and safety standards (e.g., ISO 7176 series for wheelchairs, IEC 62133-2 for batteries) and its demonstrated substantial equivalence to the previously cleared predicate device. This is primarily a technical and objective "ground truth" established through physical testing and measurement.

    8. The sample size for the training set

    Not applicable. This is a physical device, not an AI/ML algorithm that requires a "training set."

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

    Not applicable, as there is no "training set" for physical device performance validation.

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