An adjustable finger splint having a main body and slide. The slide configured to move relative to the main body and including a wedge to apply variable pressure to an injured finger to cause the injured finger to extend or straighten. The main body having a proximal interphalangeal platform to support the proximal interphalangeal joint, a metacarpophalangeal platform to support the palm and metacarpophalangeal joint, and a slide platform to support the slide.

A wrist guard includes: a compression part having elasticity and surrounding the periphery of the wrist; a band part disposed on the outer side of the compression part to surround and tighten the circumference of the compression part surrounding the wrist; and a reinforcing bar disposed between the band part and the compression part, located around the ligament covering the wrist tunnel, and extending toward the elbow.

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.

In one aspect, a kit includes a sleeve including an outer lining and an inner lining; a pouch arranged within the sleeve and including one or more polymer sheets, a plurality of channels, and a plurality of vents; and a foam precursor capable of forming a foam within the pouch. In one aspect, a method of stabilizing a body part includes providing a sleeve including an outer lining and an inner lining around a body part; providing a pouch arranged within the sleeve and including one or more polymer sheets, a plurality of channels, and a plurality of vents; providing a foam precursor in the pouch; and forming a foam within the pouch.

A method (1100) of fabricating a personalised orthopaedic cast (900) is disclosed. The method (1100) includes 3D scanning of a body part of a user, generating a Computer Aided Design (CAD) of an orthopaedic cast (900) for the scanned body part, and simulating real-life conditions to determine mechanical stability of the modelled cast. The mechanical stability is determined through Finite Element Analysis (FEA). The method (1100) includes determining whether the mechanical stability of the modelled cast is acceptable. The method (1100) includes finalising the CAD model when the mechanical stability of the modelled cast is found to be acceptable. The method (1100) includes 3D printing the finalised CAD model to fabricate the personalised orthopaedic cast (900).

Provided is a wrist guard designed to press the radial and ulnar parts of a wrist toward the center of the wrist by means of a compression pad, so as to prevent side effects, such as hand numbness and swelling and effectively provide a fixing force of the wrist, thereby preventing the wrist from being excessively bent and alleviating wrist pain. The wrist guard allows a user to adjust the pressure load on the radial and ulnar parts of the wrist. It is possible to smoothly insert and assemble the pressing member into a coupling body, therefore improving operational feeling, the wrist guard may be stably used, and damage due to interference can be prevented. A stable pulling operation prevents wear and damage. As an excessive pressure load on the radial and ulnar regions is attenuated, the wrist guard is more convenient and comfortable.

An inflatable splint can include a sleeve shaped to conform to a specific human body part and a plurality of inflatable chambers disposed on the sleeve. The sleeve, in cooperation with the plurality of chambers in an inflated condition, can be contoured to maintain the specific human body part in a desired position. A method of using an inflatable splint includes admitting a body part into a sleeve of the inflatable splint and positioning the sleeve around the body part. One or more of the plurality of air chambers are selectively inflated such that the flexible sleeve in cooperation with the plurality of chambers in inflated condition is contoured and positioned to maintain the specific human body part in a desired position.

An orthosis (1) for distracting a human digit that includes a support (6) for removably fitting to a hand or foot and a mounting element (16) for attaching to the distal end of the digit. The orthosis (1) includes an adjustable member (10, 12, 14) extending between the support (6) and the mounting element (16), the adjustable member (10, 12, 14) being physically separate to the mounting element (16). The adjustable member (10, 12, 14) releasably engages with the mounting element (16) and is mounted to the support (6). The adjustable member (10, 12, 14) is movable with the support (6) and the mounting element (16) so to increase the distance between the support (6) and the mounting element (16), which causes the adjustable member (10, 12, 14) to exert a biasing force between the support (6) and the mounting element (16) so to distract the digit.

An orthopedic device comprises a body having a monolithic structure and arranged to form a closed circumference in a secured configuration, the body having a predetermined shape in an unsecured configuration. The body is formed continuously without interruption from at least one polymeric material. A method for making the orthopedic device includes providing a schematic including a model representing a body part for which the orthopedic device is intended, providing at least one array of coordinates and indicia corresponding to the coordinates proximate to the model at a plurality of locations along the model, and providing a scale set corresponding to the coordinates. The dimensions obtained from measuring the body part may be used to form a custom-shaped orthopedic device.

A formable cast (100) or brace is provided herein which comprises a padding (101), an outer shell (103) spaced apart from the padding, and a ridge (109) disposed along the perimeter of the shell. The ridge, shell and padding define an interior space (115), with a curable polymeric material disposed in the interior space. The curable polymeric material undergoes a phase transition, upon curing, from a liquid or gel phase to a substantially rigid solid phase. The cast or brace (100) may be readily customized to the patient by fitting the cast to the patient's body, positioning the cast in the desired orientation, and curing the curable polymeric material through exposure to actinic radiation or by other suitable means.