A composite moldable splint and method for using the same is described. In some embodiments, the splint has at least a partially fluid-filled inner volume, which in some embodiments may include foam, rubber, water, or pelletized material, enclosed by a flexible liner, surrounded by a thermoplastic layer that is flexible and moldable when heated. The inner volume, which may include a thermoactive adhesive having differing viscosity characteristics at a plurality of temperatures, provides the ability to mold the cushion into a wide range of shapes and contours, such as when forming around a body part. The thermoplastic layer provides the ability of the cushion to be molded when heated, while the inner volume tends to maintain a shape, and allows the thermoplastic layer to stay in its formed shape as the cushion cools. The cushion may be used in a range of medical applications for stabilizing patients and body parts.

A composite moldable splint and method for using the same is described. In some embodiments, the splint has at least a partially fluid-filled inner volume, which in some embodiments may include foam, rubber, water, or pelletized material, enclosed by a flexible liner, surrounded by a thermoplastic layer that is flexible and moldable when heated. The inner volume, which may include a thermoactive adhesive having differing viscosity characteristics at a plurality of temperatures, provides the ability to mold the cushion into a wide range of shapes and contours, such as when forming around a body part. The thermoplastic layer provides the ability of the cushion to be molded when heated, while the inner volume tends to maintain a shape, and allows the thermoplastic layer to stay in its formed shape as the cushion cools. The cushion may be used in a range of medical applications for stabilizing patients and body parts.

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 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.

Ankle foot orthoses (AFO) and methods of customizing an AFO. In one embodiment, the AFO includes a carbon fiber strut that includes a carbon fiber foot plate; a formable layer that is coupled with the carbon fiber foot plate, the formable layer being formable from an initial shape to a formed shape; an inner boot, where the formable layer being formed into the formed shape is configured to be formed around geometry of portions of the inner boot; and a moldable calf piece that is configured to be attached to the carbon fiber strut. The AFO may also include a strapping system that is coupled between the moldable calf piece and the inner boot. Methods of manufacturing and customizing the aforementioned AFO are also disclosed.

Ankle foot orthoses (AFO) and methods of customizing an AFO. In one embodiment, the AFO includes a carbon fiber strut that includes a carbon fiber foot plate; a formable layer that is coupled with the carbon fiber foot plate, the formable layer being formable from an initial shape to a formed shape; an inner boot, where the formable layer being formed into the formed shape is configured to be formed around geometry of portions of the inner boot; and a moldable calf piece that is configured to be attached to the carbon fiber strut. The AFO may also include a strapping system that is coupled between the moldable calf piece and the inner boot. Methods of manufacturing and customizing the aforementioned AFO are also disclosed.

An improved composition for a thermoplastic elastomer that is used in a product that touches the skin. The thermoplastic elastomer contains a styrene block copolymer, a plasticizing oil, and CBD oil. The plasticizing oil and the CBD oil, in combination, comprise at least eighty percent of the thermoplastic elastomer by weight. The plasticizing oil and the CBD oil have the same, or similar, molecular weights. In that manner, the plasticizing oil and the CBD oil can form a homogenous mixture. The CBD oil saturates the thermoplastic elastomer and will slowly bloom out of the thermoplastic elastomer over time. The migration of the CBD oil brings the CBD oil to the exposed surfaces of the thermoplastic elastomer, therein enabling the CBD oil to be absorbed by the skin.

In one aspect, a kit includes a sleeve including an outer lining and an inner lining; a pouch arranged within the sleeve and including one or more polymer sheets, a plurality of channels, and a plurality of vents; and a foam precursor capable of forming a foam within the pouch. In one aspect, a method of stabilizing a body part includes providing a sleeve including an outer lining and an inner lining around a body part; providing a pouch arranged within the sleeve and including one or more polymer sheets, a plurality of channels, and a plurality of vents; providing a foam precursor in the pouch; and forming a foam within the pouch.

In one aspect, a kit includes a sleeve including an outer lining and an inner lining; a pouch arranged within the sleeve and including one or more polymer sheets, a plurality of channels, and a plurality of vents; and a foam precursor capable of forming a foam within the pouch. In one aspect, a method of stabilizing a body part includes providing a sleeve including an outer lining and an inner lining around a body part; providing a pouch arranged within the sleeve and including one or more polymer sheets, a plurality of channels, and a plurality of vents; providing a foam precursor in the pouch; and forming a foam within the pouch.

Devices for delivering a flowable tissue dressing material for treating a tissue site are described. The devices include a first zone including a first reactant, such as a polyol, and a second zone including a second reactant, such as a multi-isocyanate, which can be mixed together to form a flowable tissue dressing material. The device can also include a flowable tissue dressing material including a reacted polymer present in a carrier. Kits and methods including and/or using the devices are also described.