Abstract: 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.

Abstract: 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.

Abstract: 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.

Abstract: A moldable rigid ankle brace is disclosed. The rigid stabilizing ankle brace includes a heat-moldable multi-layer housing having an opening for receiving a user's ankle, a footplate attached to the housing, and a closure mechanism. The multi-layer housing includes a middle layer, which is substantially stiff at a temperature below about 130° F. and moldable at temperatures between about 130° F. and 275° F. A method of stabilizing an ankle is also disclosed. The method may include providing a rigid stabilizing ankle brace, having a heat-moldable multi-layer housing having an opening for receiving a user's ankle, and a footplate removably attached to said housing, heating the ankle brace to between about 130° F. to about 275° F., and applying said heated ankle brace to the ankle of a patient in need thereof.

Abstract: A moldable ankle flexible brace is disclosed. The flexible ankle brace may include a heat-moldable, multi-layer leg support portion, a heat-moldable, multi-layer foot support portion, a pair of hinges connecting the leg support portion to the foot support portion, an opening for receiving a user's ankle, and a closure mechanism. The flexible ankle brace may include a middle layer that is substantially stiff at a temperature below about 130° F. and moldable at temperatures above 130° F. Also disclosed is a method of using a flexible ankle brace to treat an ankle. The method may include, for example, heating the brace to above 130° F. placing the heated brace on a patient's ankle and molding the brace to conform to the shape of the patient's ankle.

Abstract: 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.

Abstract: A moldable rigid ankle brace is disclosed. The rigid stabilizing ankle brace includes a heat-moldable multi-layer housing having an opening for receiving a user's ankle, a footplate attached to the housing, and a closure mechanism. The multi-layer housing includes a middle layer, which is substantially stiff at a temperature below about 130° F. and moldable at temperatures between about 130° F. and 275° F. A method of stabilizing an ankle is also disclosed. The method may include providing a rigid stabilizing ankle brace, having a heat-moldable multi-layer housing having an opening for receiving a user's ankle, and a footplate removably attached to said housing, heating the ankle brace to between about 130° F. to about 275° F., and applying said heated ankle brace to the ankle of a patient in need thereof.

Abstract: A moldable ankle flexible brace is disclosed. The flexible ankle brace may include a heat-moldable, multi-layer leg support portion, a heat-moldable, multi-layer foot support portion, a pair of hinges connecting the leg support portion to the foot support portion, an opening for receiving a user's ankle, and a closure mechanism. The flexible ankle brace may include a middle layer that is substantially stiff at a temperature below about 130° F. and moldable at temperatures above 130° F. Also disclosed is a method of using a flexible ankle brace to treat an ankle. The method may include, for example, heating the brace to above 130° F. placing the heated brace on a patient's ankle and molding the brace to conform to the shape of the patient's ankle.

Abstract: A moldable rigid ankle brace is disclosed. The rigid stabilizing ankle brace includes a heat-moldable multi-layer housing having an opening for receiving a user's ankle, a footplate attached to the housing, and a closure mechanism. The multi-layer housing includes a middle layer, which is substantially stiff at a temperature below about 130° F. and moldable at temperatures between about 130° F. and 275° F. A method of stabilizing an ankle is also disclosed. The method may include providing a rigid stabilizing ankle brace, having a heat-moldable multi-layer housing having an opening for receiving a user's ankle, and a footplate removably attached to said housing, heating the ankle brace to between about 130° F. to about 275° F., and applying said heated ankle brace to the ankle of a patient in need thereof.

Abstract: A moldable ankle flexible brace is disclosed. The flexible ankle brace may include a heat-moldable, multi-layer leg support portion, a heat-moldable, multi-layer foot support portion, a pair of hinges connecting the leg support portion to the foot support portion, an opening for receiving a user's ankle, and a closure mechanism. The flexible ankle brace may include a middle layer that is substantially stiff at a temperature below about 130° F. and moldable at temperatures above 130° F. Also disclosed is a method of using a flexible ankle brace to treat an ankle. The method may include, for example, heating the brace to above 130° F. placing the heated brace on a patient's ankle and molding the brace to conform to the shape of the patient's ankle.

Abstract: The present invention relates to nanocomposites, methods of fabrication, and applications thereof. More specifically, the present invention relates to a series of biocompatible materials that can be used in soft tissue repair and replacement, particularly, for ligament, tendon, and cartilage repair and replacement in a living body.

Abstract: A moldable rigid ankle brace is disclosed. The rigid stabilizing ankle brace includes a heat-moldable multi-layer housing having an opening for receiving a user's ankle, a footplate attached to the housing, and a closure mechanism. The multi-layer housing includes a middle layer, which is substantially stiff at a temperature below about 130° F. and moldable at temperatures between about 130° F. and 275° F. A method of stabilizing an ankle is also disclosed. The method may include providing a rigid stabilizing ankle brace, having a heat-moldable multi-layer housing having an opening for receiving a user's ankle, and a footplate removably attached to said housing, heating the ankle brace to between about 130° F. to about 275° F.

Abstract: A moldable ankle flexible brace is disclosed. The flexible ankle brace may include a heat-moldable, multi-layer leg support portion, a heat-moldable, multi-layer foot support portion, a pair of hinges connecting the leg support portion to the foot support portion, an opening for receiving a user's ankle, and a closure mechanism. The flexible ankle brace may include a middle layer that is substantially stiff at a temperature below about 130° F. and moldable at temperatures above 130° F. Also disclosed is a method of using a flexible ankle brace to treat an ankle. The method may include, for example, heating the brace to above 130 ° F. placing the heated brace on a patient's ankle and molding the brace to conform to the shape of the patient's ankle.