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 finger splint for manual therapy according to the present invention comprises: a base sheet made of a metal material and of a certain length and width to surround a finger; a base hole formed through the center of the base sheet in a rhombus shape; a first hole extending through both upper left and right sides of the base hole along a portion of a periphery of the finger; and a second hole extending through both lower left and right sides of the base hole along the periphery of the finger to correspond to the position and size of the first hole. The finger splint for manual therapy according to the present invention has the effect of providing an excellent and comfortable fit on the basis of an ergonomic structure as well as sufficiently ensuring a basic fixing force.

A photocurable device injection system for creating in situ polymerization via light or free-radical to enable fractured bone fixation. The system comprises a photosensitive polymeric resin sensitive to light, temperature, oxygen, enzymes, or a combination thereof. The photosensitive polymeric resin may be configured to cure at room temperature or physiological temperature with a light source. The photosensitive polymeric resin may be configured to depolymerize with ultrasonication, sonication, or a combination thereof. The system further comprises an implantable 3-dimensional biocompatible pouch comprising an optical light guide. The system further comprises one or more micro-sized ultrasonication probes configured to contact a three-dimensional pouch by one or more openings. The one or more probes may be configured to enable polymer outflow.

Semi-rigid bandages disclosed herein include a bandage structure layer with an embedded resin material. The resin material is formulated to cure when exposed to an activator such as air or water. Upon curing, the bandage hardens to a semi-rigid state that is harder and more rigid than conventional bandage materials found in household first-aid kits, yet less rigid than fiberglass-based orthopedic casts.

Semi-rigid bandages disclosed herein include a bandage structure layer with an embedded resin material. The resin material is formulated to cure when exposed to an activator such as air or water. Upon curing, the bandage hardens to a semi-rigid state that is harder and more rigid than conventional bandage materials found in household first-aid kits, yet less rigid than fiberglass-based orthopedic casts.

A multi-component frame includes a first component made from a rigid structural material and a second component connected to at least an end portion the first component. The first component is constructed from a metal or metal alloy, and the second component is constructed from a material different from the first component. The first and second components form at least part of a length of the multi-component frame.

A medical fixing brace, wherein at least one surface is provided with a plurality of step holes for mounting snap-fit seats and posts; the thickness of the mesh plate is made thinner at the step holes; and each of the step holes is assembled with some parts of the snap-fit seats and posts. According to the invention, the fixing brace can be used for both the left body and the right body, convenient for the doctor; the product does not absorb water and has no pad structure, so it is quick in drying after bathing, and it is good in comfort for the wearer; any pruritus and dermatitis can be avoided; and the external fixing brace according to the invention can be used for bone support of the upper limb, the neck, the chest, the waist, the lower limb and the like.

A medical fixing brace, wherein at least one surface is provided with a plurality of step holes for mounting snap-fit seats and posts; the thickness of the mesh plate is made thinner at the step holes; and each of the step holes is assembled with some parts of the snap-fit seats and posts. According to the invention, the fixing brace can be used for both the left body and the right body, convenient for the doctor; the product does not absorb water and has no pad structure, so it is quick in drying after bathing, and it is good in comfort for the wearer; any pruritus and dermatitis can be avoided; and the external fixing brace according to the invention can be used for bone support of the upper limb, the neck, the chest, the waist, the lower limb and the like.

An orthopedic precast comprises a knitted shell portion and a knitted flexible portion. The precast is positioned about a limb or other mold, and heat or other hardening agent is used to harden the shell portion, while retaining flexibility in the flexible portion. Contemplated hardening agents include light, heat, and chemical polymerizing agents. In some embodiments the shell portion includes threads or yarns comprising a thermoplastic, which is then hardened by heating the thermoplastic sufficiently to at least partially melt, and thereby fuse together some of the threads or yarns, and then cooling to ambient temperature. In other embodiments, the precast is contained in a bag or other airtight container, along with a self-heating composition that is triggered to release heat upon contact with oxygen. In still other embodiments, the precast includes a prepolymer of other polymerizable composition, which is polymerized by effective application of light, heat, and/or chemical agent(s).

An orthopedic precast comprises a knitted shell portion and a knitted flexible portion. The precast is positioned about a limb or other mold, and heat or other hardening agent is used to harden the shell portion, while retaining flexibility in the flexible portion. Contemplated hardening agents include light, heat, and chemical polymerizing agents. In some embodiments the shell portion includes threads or yarns comprising a thermoplastic, which is then hardened by heating the thermoplastic sufficiently to at least partially melt, and thereby fuse together some of the threads or yarns, and then cooling to ambient temperature. In other embodiments, the precast is contained in a bag or other airtight container, along with a self-heating composition that is triggered to release heat upon contact with oxygen. In still other embodiments, the precast includes a prepolymer of other polymerizable composition, which is polymerized by effective application of light, heat, and/or chemical agent(s).