A brace for a carpometacarpal joint of a thumb includes a body made of an elastomeric material. The body includes a wrist strap configured to surround a wrist, a dorsal projection extending from the wrist strap, a first palmar strap extending between a proximal end connected to the wrist strap and a distal end configured to removably attach to the dorsal projection, and a second palmar strap extending between a proximal end connected to the wrist strap and a distal end configured to removably attach to the dorsal projection. The brace also includes a heat-moldable insert positioned within the body. The heat-moldable insert is configured so as to be positioned over a CMC joint of the thumb.

A moldable wrist brace. The brace includes a pocket with a moldable insert disposed therein. The pocket and insert extend substantially the full length of the brace to maximize the length of the user's wrist supported thereby. A plurality of straps and buckles are provided for retaining the brace on the user's wrist and providing a desired compression thereon. The straps include locking tabs that once inserted through the buckles resist withdrawal of the straps therefrom. One-handed donning of the brace is thus simplified by retention of the straps in engagement with the buckles.

A brace to protect an elbow during healing, particularly for pediatric applications, is constructed from multiple thermoformable parts. The thermoformable parts harden like a cast, fitting partially around the humerus and the forearm as well as covering the posterior aspect of the elbow. The thermoformable parts are held in place by straps that extend between the parts, cupping the humerus and forearm therebetween. The brace may be customizable to any shape and size to the wearer. The brace may be easily removed for comfort or for washing and then replaced to provide continued support.

An elbow-forearm anti-rotation support system and process that do not require a hardenable material. The system includes an orthopedic support such as a wrist-hand orthosis, wrist-hand-thumb orthosis, or cast, joined to a bottle-shaped forearm wrap with opposed flaps formed into a clamshell. Proximal elbow flaps include a center elbow region that extends from the proximal end of the forearm wrap. A U-shaped reinforcement stay is disposed on the center elbow region and attaches to the forearm flaps. Cross straps extending from the proximal elbow flaps attach to the forearm flaps, and a closure strap secures the two flaps together. Hook and loop fasteners extending from the distal edge of the forearm wrap attach the forearm wrap to the orthopedic support.

A brace may include a body portion and a finger portion. The body portion may include a first flexible sheet configured to receive at least portions of a user's wrist and hand and may restrict movement of the wrist. The finger portion may include a second flexible sheet and a rigid stabilizing member. The finger portion may be configured to receive at least one of the user's fingers and may restrict movement of the at least one finger relative to the wrist and hand. Further, the body portion be configured to releasably receive the finger portion.

A support and corresponding system and method of using and producing the support, the support being for supporting a joint or body part of a wearer, the support having at least one rigid first support member, at least one fixing device for attaching the support to the wearer, and at least one second support member extending at an angle from the first support member. Optionally, the joint is a joint between first and second body parts, and the first body part is movable or pivotable relative to the second body part via the joint, and the support is arranged such that at least one of the fixing devices is operable to fix the support to the first body part, the at least one rigid support member covers at least part of at least one side of the first body part and extends over at least part of at least one side of the joint, the second support member is configured to extend to another side of the second body part to the first support member, the first support member is adapted to limit motion of the second body part and/or joint in a first direction, and the second support member is configured to limit motion of the second body part in a second direction.

An orthotic device is provided. The orthotic device is configured to be 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.

A hand brace includes a wrist sheath and a finger holder. The finger holder has a height adjusting rod, a length adjusting rod, and a finger support. The height adjusting rod has one end pivotally connected to the wrist sheath, so that the height adjusting rod is allowed to adapt to a wearer's finger in terms of position. The length adjusting rod is connected to an opposite end of the height adjusting rod in an axially movable manner, so that the length adjusting rod is allowed to adapt to the wearer's finger in terms of length. The length adjusting rod has a joint portion that has pivotal connection with the finger support. Thereby, the hand brace provides the wearer's finger with sufficient and relevant support.

An injured musculoskeletal structure is mobilized relative to a juxtaposing support structure surface to isolate the injured musculoskeletal structure from forces transferred from adjoining musculoskeletal structures in order to alleviate pain, discomfort, inflammation, and further injury associated with such transferred forces.

A 3D printed cast or splint for application to a patient's body to immobilize a body part includes first and second shell portions configured to conform to at least a portion of the body part. The first shell portion has a distal end, a proximal end, opposing interfacing edges, a plurality of venting holes and a first engagement mechanism positioned proximate one of the opposing interfacing edges. A reinforcement portion extends between the proximal and distal ends. The second shell portion has a distal end, a proximal end, opposing interfacing edges, a plurality of venting holes and a second engagement mechanism positioned proximate one of the opposing interfacing edges. The first engagement mechanism interacts with the second engagement mechanism in a mounted configuration to facilitate mounting of the first shell portion to the second shell portion.