A hand support including a base component arranged for securing to at least a portion of a hand, an anchor element adjustably connected to the base component and arranged for grasping a thumb, and a counterforce device connecting to the base component and the anchor element. The counterforce device arranged to generate a counterforce in combination with or against the base component and anchor element. The hand support may be arranged to provide traction for an extended period to remedy complications of the hand and associated joints.

A hand support including a base component arranged for securing to at least a portion of a hand, an anchor element adjustably connected to the base component and arranged for grasping a thumb, and a counterforce device connecting to the base component and the anchor element. The counterforce device arranged to generate a counterforce in combination with or against the base component and anchor element. The hand support may be arranged to provide traction for an extended period to remedy complications of the hand and associated joints.

An orthotic device is provided. The orthotic device is worn on an appendage of a user of a fastener installation tool, and is configurable between a relaxed state and a rigid state. The orthotic device includes at least one activation component that is responsive to an activation signal output by a controller in communication with the fastener installation tool. The activation component changes the orthotic device from the relaxed state to the rigid state in response to the controller detecting a resistive force at the fastener installation tool during installation of a fastener.

The present disclosure relates to a device including electrostatic brakes providing haptic kinaesthetic feedback to a user in e.g. assistive, rehabilitation or virtual reality scenarios, as well as tele-manipulation.

A thumb protector is provided which is engageable with a cast formed upon the hand of a patient. A body of the thumb protector has a ring portion defining an opening for a thumb of a patient wearing the cast. A surrounding portion is positionable to a sandwiched engagement between fabric wrapped around the hand and forearm of the patient and the arm and hand. An engagement point of the ring portion to the surrounding portion forms an anchor for the wrapped fabric to prevent slippage thereof once the cast is formed.

The present invention provides a breathable orthopedic cast device for immobilizing and stabilizing at least one fractured limb. The breathable orthopedic cast device comprising: a customizable cast member having hollow tubes pre-injected with at least one infusion material, wherein hollow tubes are interlinked with each other to form a mesh structure to provide breathability to a fractured limb. The breathable orthopedic cast device is a flat unfolded geometry that can be applied by wrapping over an injured body member, or is customized to a shape corresponding to the contours of the body member.

A device applicable to a limb, the device may include an orthosis including or more holes extending between base surfaces of the plate; one or more sensors, at least one of the one or more sensors is adapted to be attached to at least one of the one or more holes in the orthosis; and a data collecting unit connectable to the one or more sensors and configured to receive sensors data from the one or more sensors.

The system invention describes a support and improved method of application and removal. The support, comprised of a network of flexible, non-porous, multi-lumen tubing interlaces at a plurality of junctions to form a lattice structure. Apertures designed to accommodate boney prominences also permit air or water to reach the skin underneath and encourage rapid fluid flow internally through the lattice. A hydrophobic, thermal-resistant, flowable padding layer is injected within a secondary lumen to the lattice structure, spanning its complete surface area. As a result, the breathability of the support is not affected by this padding layer because it mirrors the apertures of the lattice. At least one liquid is injected into the structure and configured to transform into a solid when acted on by an external mechanical stimulus.

A method of producing a custom medical device including a splint or brace for immobilization of a selected region of a patient's body part. The custom medical device is produced in accordance with the following operations: (a) production of a three-dimensional mold of a portion of the patient's body part including the selected region onto which the desired medical device is to be placed; (b) definition of a three-dimensional shape of the desired medical device covering the selected region; (c) generation of a two-dimensional template corresponding to the defined three-dimensional shape, and which corresponds to unfolding in a two-dimensional plane of the three-dimensional shape of the desired medical device; (d) production of at least one plate of moldable material in accordance with the two-dimensional template of the desired medical device; and (e) molding of the plate of moldable material onto the three-dimensional mold to shape the desired medical device.