The present invention relates to the field of sports, performance, and orthopedic braces, and more specifically, sports, performance, and orthopedic braces made for the hamstring. This Hamstring-Assist Device aids in restoring function to the affected muscle during recovery from an injury by mimicking the structural characteristics of the associated muscles.

An absorbent article comprising an absorbent member positioned between a topsheet and a backsheet is provided. The absorbent member contains at least one layer that comprises porous superabsorbent particles, wherein the particles exhibit a relative humidity microclimate of about 67% or less after being exposed to an atmosphere having a temperature of about 23 C. and relative humidity of 80% for a time period of 20 minutes.

An absorbent article comprising an absorbent member positioned between a topsheet and a backsheet is provided. The absorbent member contains at least one layer that comprises porous superabsorbent particles, wherein the particles exhibit a relative humidity microclimate of about 67% or less after being exposed to an atmosphere having a temperature of about 23 C. and relative humidity of 80% for a time period of 20 minutes.

A feminine care absorbent article comprising an absorbent member positioned between a topsheet and a baffle is provided. The absorbent member contains at least one layer that comprises superabsorbent particles containing nanopores having an average cross-sectional dimension of from about 10 to about 500 nanometers.

A thermoplastic cast, which is easy to reuse or implant, and a production method for same, are described. The cast includes a core material to which is attached polycaprolactone while being made in a mesh shape by the mutual crossing over and connecting of threads having a predetermined diameter, with the weaving of a plurality of strands of thin threads; and a structure which is made using a polycaprolactone composite and is formed so as to surround the outer part of the core material by means of insert injection. The patient experiences no discomfort despite the cast being structurally robust, because ventilation properties are improved due to the cast being formed in a mesh shape and because the structure, which is made using the polycaprolactone composite, is formed so as to surround the outer part of the core material by means of insert injection.

A thermoplastic cast, which is easy to reuse or implant, and a production method for same, are described. The cast includes a core material to which is attached polycaprolactone while being made in a mesh shape by the mutual crossing over and connecting of threads having a predetermined diameter, with the weaving of a plurality of strands of thin threads; and a structure which is made using a polycaprolactone composite and is formed so as to surround the outer part of the core material by means of insert injection. The patient experiences no discomfort despite the cast being structurally robust, because ventilation properties are improved due to the cast being formed in a mesh shape and because the structure, which is made using the polycaprolactone composite, is formed so as to surround the outer part of the core material by means of insert injection.

The present invention provides an electronically-activated, self-molding and re-shapeable load-bearing support structure system includes a first composite structure which includes a first layer of a first thermally-responsive polymer; one or more first heating elements positioned adjacent to the first layer on a first heating element side; a second layer of the first thermally-responsive polymer positioned adjacent to the one or more first heating elements on a second heating element side; a temperature sensor communicating with at least the first layer or the second layer of the first thermally-responsive polymer; one or more electrical connectors electrically communicating with the one or more heating elements; and an electrical controller detachably connectable to at least one of the one or more electrical connectors of the composite for providing an electrical current to the one or more heating elements. A method of molding the load-bearing support structure system is also provided.

The present invention provides an electronically-activated, self-molding and re-shapeable load-bearing support structure system includes a first composite structure which includes a first layer of a first thermally-responsive polymer; one or more first heating elements positioned adjacent to the first layer on a first heating element side; a second layer of the first thermally-responsive polymer positioned adjacent to the one or more first heating elements on a second heating element side; a temperature sensor communicating with at least the first layer or the second layer of the first thermally-responsive polymer; one or more electrical connectors electrically communicating with the one or more heating elements; and an electrical controller detachably connectable to at least one of the one or more electrical connectors of the composite for providing an electrical current to the one or more heating elements. A method of molding the load-bearing support structure system is also provided.

The present invention provides an electronically-activated, self-molding and re-shapeable load-bearing support structure system includes a first composite structure which includes a first layer of a first thermally-responsive polymer; one or more first heating elements positioned adjacent to the first layer on a first heating element side; a second layer of the first thermally-responsive polymer positioned adjacent to the one or more first heating elements on a second heating element side; a temperature sensor communicating with at least the first layer or the second layer of the first thermally-responsive polymer; one or more electrical connectors electrically communicating with the one or more heating elements; and an electrical controller detachably connectable to at least one of the one or more electrical connectors of the composite for providing an electrical current to the one or more heating elements. A method of molding the load-bearing support structure system is also provided.

A waterproof composite material that comprises three layers, a top layer, a middle layer, and a bottom layer. The middle layer is made of foam while the top layer and bottom layer can be made from a variety of films. The top layer and the bottom layer are formed in a quilted pattern. The top layer and the bottom layer are bunched up (meaning there is extra material there allowing more stretch). A method of manufacturing the waterproof composite material includes placing the three layers on (or in), stretching the middle layer, and then applying a quilt (or other) pattern (using heat and/or pressure) which causes the quilted pattern on the top layer and the bottom layer. The natural contraction of the middle layer (which was stretched when the composite was formed) causes bunching of the top layer and the bottom layer.