An immobilization sleeve for helping user's heal predetermined joints. The immobilization sleeve includes two open ends at each distal end spaced apart by a plurality of inflatable, semi-rigid passages that extend in a braided, or crisscross, configuration from the base to the top of the sleeve. The sleeve is inserted onto a joint and is made of a resilient material that wraps around the joint of a user.

Portable traction splints and methods of use in applying traction to an injured patient's limb, or limbs, are disclosed. The disclosed traction splints may be extendable from a collapsed configuration adapted for transportation and storage towards an extended configuration adapted for applying traction to an injured patient, using telescoping members. One or more straps may be provided for securing the traction splint to the patient. One or more of such straps may include a tourniquet portion and/or may be selectively oriented in different directions relative to the telescoping members. The disclosed traction splints may include a traction mechanism that utilizes a mechanical advantage in applying traction to the patient's limb. Such traction mechanisms may have a traction cord path that utilizes the same hardware as an adjustment mechanism that selectively allows or prevents one of the telescoping members from moving with respect to another.

A fiber-reinforced composite article useful in supporting or immobilizing an injured body part is disclosed. The composite is a multi-layer, flexible precursor including fiber reinforcement plies, which can be rapidly cured into a rigid body using a thermosetting resin. Methods of making and using the same are also disclosed, along with kits containing such composite articles.

The splint kit provides a sealed splint, bandaging, and a water source for setting the splint. Different kits may be needed depending upon the size of the user to which the splint will be applied. The kits may also vary according to the body part to be set. The size of each splint is based upon the size of the user and the size of the body part(s) to be splinted to eliminate the need for the user to size the splint. The splint is self-contained in its own packaging to maintain the integrity of the splint. The fiberglass/hardening material is encased by a foam material and/or felt to further simplify the process of applying and setting the splint.

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.

The Bishop Traction Splint Device (BTSD) is a traction device for applying traction to a fractured leg. The device includes a frame for securing both legs in order to allow the uninjured leg to help splint the injured leg. A ratchet assembly located on a distal end of the frame is attached to an ankle brace on the injured leg to apply the traction force. Shoulder straps, an abdominal strap, and leg straps are used to secure the patient. A tripod assembly can also be sued to elevate both legs of the patient, placing the patient in a shock position to aid with any drop in blood pressure.

Orthopedic splinting materials and methods for stabilizing an injured limb or extremity of a human or animal are disclosed. The methods include applying a foam to the limb or extremity and allowing the foam to set to sufficient rigidity. A kit for stabilizing an injured limb or extremity includes a dispenser for a foamable composition. A spine board and method of making the spine board are disclosed. In situ preparation and application of a compression bandage are disclosed.

The present invention relates to a method for manufacturing a polymer sheet for use as an immobilization element, wherein the sheet is at least partly made of a polymer material comprising a polymer from the group of polycaprolactone, a copolymer of polyethylene with at least one -olefin having 3-10 C atoms, or a mixture of two or more of the aforementioned polymers, a photo-initiator, and a photo-cross-linker, wherein the polymer sheet has a thickness of 1.0 to 5 mm and wherein the polymer sheet is at least partially cured by exposing to UV radiation for the at least partially cross-linking of the polymer.

A kit for assembling a device designed to prevent flexing of a joint to reduce joint pain or to prevent reopening of a wound over said joint. The kit allows a user to assemble a device of any desired size or shape.

Splints for diagnostic and/or therapeutic purposes are disclosed. In one aspect, the present disclosure relates to a splint system for diagnostic and/or therapeutic functions for a patient with a vascular impairment. In one embodiment, the splint system includes a splint having: a leg supporting portion and a foot supporting portion, that are configured to support and secure the leg and foot of the patient; a locally and/or remotely controllable portion for setting a dorsiflexion angle of the foot of the patient, including electrical and/or mechanical controls and one or more actuators for setting of the dorsiflexion angle, for providing treatment to improve vascular function; and a plurality of physiological parameter sensors for measuring physiological parameters of the leg and/or foot of the patient, wherein the physiological parameters are associated with vascular function in the leg and/or foot of the patient.