The pelvic fracture splint includes a first portion having a first end and an opposing second end and a second portion having an opening defined therein, the second portion extending downward from the first portion of the pelvic fracture splint substantially at the mid-section of the first portion. The pelvic fracture splint also includes a plurality of strips (preferably three strips) selectively fastening the opposing ends of the first portion and the second portion of the pelvic fracture splint to secure the pelvic fracture splint around the person's waist or hips and groin. The first portion includes a plurality of splints (rigid supports, preferably six in number) vertically positioned along the first portion at spaced apart positions. The opening in the second portion of the pelvic fracture splint may have a triangular shape to avoid placing any unnecessary pressure on the person's genitals.

A dorsal night splint has dynamic adjustable features that allow the patient to adjust the splint while in use to control the stretching of the plantar fascia and Achilles. A semi-rigid flexible frame is included along with a tightening strap that is anchored to the frame and by which the patient can tension the strap and adjust the structure of the frame to fit the patient's desired therapeutic or prophylactic needs.

A flat foot orthosis has two bodies, and each one of the two bodies has a wearing space, a foot portion, an ankle portion, a shank portion, a substrate, and a first elastomer. The substrate and the first elastomer are disposed adjacent to each other, and surround the wearing space. The substrate extends from the foot portion to the shank portion through the ankle portion. The first elastomer extends from an instep of the foot portion at a cuboid bone of a wearer through a lateral side of the foot portion, a sole of the foot portion, and an arch of the foot portion in order, wraps over a navicular bone of the wearer, and extends outwardly combining upwardly through the ankle portion at a talus bone of the wearer toward the shank portion.

A high-arched foot orthosis has two bodies, and each one of the two bodies has a wearing space, a foot portion, an ankle portion, a shank portion, a substrate, and an elastomer. The substrate and the elastomer are disposed adjacent to each other, and surround the wearing space. The substrate extends from the foot portion to the shank portion through the ankle portion. The elastomer inwardly extends from an instep of the foot portion at a cuneiform bone of a wearer through an arch, a sole, and a lateral side of the foot portion in order, wraps over a cuboid bone of the wearer, extends through the ankle portion inwardly combining upwardly toward the shank portion, and wraps over a talus bone of the wearer.

An orthopedic ankle support is disclosed which provides an ultra-thin profile and selective restriction of movement of the user's ankle. In an embodiment, sections of a thin, tense material are welded onto a non-rigid body. The sections may include a tense anchor segment which may be proximate the heel opening and/or sole, and one or more tension segments that may extend from the anchor segment to upper portions of the support. In an embodiment, certain of the tension segments may be connected to an attachment portion affixed on the body, such as a thick lace-up area for tightening the support. Welding of the tension segments onto the body using thermal fusion obviates the need for uncomfortable stitching and material lumps. In addition, welding the tension segments into predetermined orientations enables the designer to have control over the properties of the support such that, for example, the tension segments may be oriented so as to restrict undesirable rotatory motion of the ankle without restricting natural forward and rearward motions of the foot.

An ankle brace for treating or preventing a high ankle sprain is disclosed. The ankle brace includes a body configured to be worn over an ankle. A tightening mechanism is attached to the body and configured to tighten the body around a wearer's lower leg to prevent distal ends of the tibia and fibula from separating. A torsion strap is attached to the body and configured to wrap from a fifth metatarsal to a medial malleolus to limit external rotation of the foot. The ankle brace can include lateral and medial straps for limiting eversion and inversion of the foot. The ankle brace can include heat moldable lateral and medial support plates.

The present invention relates to a medical cast having a dual structure. The present invention provides the medical cast comprising: a skin protector coming into contact with the affected area of a patient, woven by mixing and using at least two kinds of functional fibers in order to increase adhesive strength with the skin, and manufactured such that diamond-shaped mesh holes are formed in the shape of a meshed net; an inner supporting cast formed to cover the outer side of the skin protector and comprising an inside supporting cast for absorbing sweat or body waste between the casts, an inner ventilating channel for covering the outer surface of the inside supporting cast and improving air permeability, an adhesion enhancing part for increasing the elasticity of the cast, and an inner rigidity reinforcing part for providing primary rigidity for the medical cast; and an outer supporting cast formed to cover the outer side of the inner supporting cast, impregnated with a hardening solution having hydraulic properties, and comprising an outer ventilating channel formed along the circumference thereof, an adhesion enhancing part connected with the outer ventilating channel so as to provide predetermined elastic force, a cutter part provided on one surface of the outer side thereof for guiding the progressing direction of a cutter blade, and outer rigidity reinforcing parts formed on both sides of the cutter part so as to provide secondary rigidity for the medical cast.

The present disclosure can provide a leg brace capable of reducing a pain in a knee while both enhancing its convenience and reducing the burden on an ankle. the leg brace including: a first pushing part that pushes a leg of the wearer outward so that an ankle bone is positioned above a heel bone; a second pushing part that pushes the leg of the wearer inward so that the ankle bone is positioned above the heel bone; a restraint part that restrains a positional relation between the first and the second pushing parts in which they face each other across the leg of the wearer; and a placement part on which a foot of the wearer is placed, the placement part being connected to the first pushing part or the second pushing part.

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.

A foldable splint and method of use is provided. The foldable splint includes a main body divided into a plurality of panels and segments by a grid of living hinges. Each panel includes opposed first and second outer segments and a plurality of inner segments extending therebetween. By folding the main body along segment hinges, the splint is moved to a first rigid configuration for securing an appendage in a straight configuration. By further folding the splint at opposed pinch locations, the splint is moved to a second rigid configuration for securing an appendage in a bent configuration. By folding the splint along panel hinges, the splint is moved to a third rigid configuration for securing around an abdomen or pelvis of a user. When not in use, the splint can be moved back to the stowable configuration by folding the various panels over each other.