A splinting system that includes a curable splint member including layers of fiberglass cloth coated with a water curable resin, and a pad at least partially enveloping the layers of fiberglass cloth, the pad having an exterior surface and an antimicrobial coating applied to the exterior surface; and a metal foil pouch containing the curable splint member, the metal foil pouch including an exterior surface. The antimicrobial coating includes a silane quaternary ammonium ion or salt thereof. The silane quaternary ammonium ion or salt thereof is one or more of: 3-(trimethoxysilyl)propyldimethyloctadecyl ammonium ion, 3-(trimethoxysilyl)propyldimethyloctadecyl ammonium chloride, 3-(trihydroxysilyl)propyldimethyloctadecyl ammonium ion, or 3-(trihydroxysilyl)propyldimethyloctadecyl ammonium chloride. The antimicrobial coating can be applied to the curable splint member by applying a solution, which includes 0.1 percent and 10 percent by weight the silane quaternary ammonium ion or salt thereof and an isopropyl alcohol solvent, to the exterior surface of the pad.

A splinting system that includes a curable splint member including layers of fiberglass cloth coated with a water curable resin, and a pad at least partially enveloping the layers of fiberglass cloth, the pad having an exterior surface and an antimicrobial coating applied to the exterior surface; and a metal foil pouch containing the curable splint member, the metal foil pouch including an exterior surface. The antimicrobial coating includes a silane quaternary ammonium ion or salt thereof. The silane quaternary ammonium ion or salt thereof is one or more of: 3-(trimethoxysilyl)propyldimethyloctadecyl ammonium ion, 3-(trimethoxysilyl)propyldimethyloctadecyl ammonium chloride, 3-(trihydroxysilyl)propyldimethyloctadecyl ammonium ion, or 3-(trihydroxysilyl)propyldimethyloctadecyl ammonium chloride. The antimicrobial coating can be applied to the curable splint member by applying a solution, which includes 0.1 percent and 10 percent by weight the silane quaternary ammonium ion or salt thereof and an isopropyl alcohol solvent, to the exterior surface of the pad.

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 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 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.

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.

The present invention relates to a splint bendable in a curved shape and a method of forming thereof. According to an embodiment of the present invention, there may be provided a splint bendable in a curved shape comprising a lower splint portion having a plurality of first ventilation holes formed at a certain interval; an extension splint portion in which a plurality of extension holes are formed at a certain interval; and an upper splint portion in which a plurality of second ventilation holes are formed at a certain interval, and wherein the lower splint portion, the extension splint portion, and the upper splint portion are bent into an arc shape by a first bending, and a second bending wherein the lower splint portion and the upper splint portion are bent at different angles by a plurality of extension holes is performed for the extension splint portion.

The apparatus for mapping the shape of the spatial form according to the invention comprises a thermoplastic sheet provided with a system adapted to generate heat capable of plasticizing said sheet under the influence of the current flowing through said system. The subject of the invention is also a device for immobilizing human or animal body parts, in particular limbs or joints, the immobilizing device comprising said device for mapping the shape of the spatial form. The subject of the invention is also a system comprising an apparatus for mapping the shape of a spatial form.

The apparatus for mapping the shape of the spatial form according to the invention comprises a thermoplastic sheet provided with a system adapted to generate heat capable of plasticizing said sheet under the influence of the current flowing through said system. The subject of the invention is also a device for immobilizing human or animal body parts, in particular limbs or joints, the immobilizing device comprising said device for mapping the shape of the spatial form. The subject of the invention is also a system comprising an apparatus for mapping the shape of a spatial form.

A medical fixing brace, which is characterized in that it is a mesh-shaped plate provided with several large ventilation openings and injection molded from a shape memory material. On both the front and rear surfaces of each side of the mesh plate in proximity to the transverse edges, several mounting holes used for connecting an engaging fitting apparatus are provided symmetrically along the plate-shape structure, or several mounting holes for connecting an engaging fitting are provided on at least one surface. The thickness of the mesh-shaped plate are thinned at the mounting holes; and, provided within the mounting holes are some parts for mounting the engaging fitting apparatus. The fixing brace has no coating layer, allows with the large hole structure thereof the direct viewing of condition changes, and prevents the occurrence of post-traumatic complications; clamping tightness can be adjusted throughout a treatment, compression on soft tissues is maintained, and fixing effects are great; the fixing brace can be used on either the left or right, operation is simple for a physician. The material used for the fixing brace is nonabsorbent and has no padding structure, dries quickly after shower, provides great comfort, prevents the occurrence of itchiness and dermatitis. This is applicable in externally fixing body parts such as the upper limb, the neck, the chest, the waist, and the lower limb.