A system for creating a prosthesis includes a deformable measuring bag fillable with beads or pellets, an air evacuation tube coupled to the deformable measuring bag and connectable to a vacuum source, supports coupled to the deformable measuring bag for supporting the deformable measuring bag, and a connection element for connecting the deformable measuring bag to a prosthetic limb.

A system for creating a prosthesis includes a deformable measuring bag fillable with beads or pellets, an air evacuation tube coupled to the deformable measuring bag and connectable to a vacuum source, supports coupled to the deformable measuring bag for supporting the deformable measuring bag, and a connection element for connecting the deformable measuring bag to a prosthetic limb.

A prosthetic appendage for attachment to an outer extremity of an amputated limb that is composed of modular elements fabricated by three-dimensional printing. In one embodiment the prosthetic appendage is a leg. The prosthetic leg includes a foot portion and a plurality of modular and three-dimensionally printed limb elements. One of the plurality of limb elements is pivotally coupled to the foot portion and another of the limb elements is configured at one end to receive the outer extremity of the amputated leg. In another embodiment of the present invention the prosthetic appendage is a hand. The prosthetic hand includes a wrist element with one end configured to receive the outer extremity of an amputated hand, a base portion attached to the wrist element and a plurality of modular and three-dimensionally printed finger elements selectively coupled to adjacent finger elements or the base to form prosthetic fingers.

A passive prosthetic foot enables a below-knee amputee to walk with near able-body walking motions. The prosthetic foot includes a resilient heel that enables the heel to strike a walking surface more softly than in the prior art and more accurately transition the leg from swing phase to stance phase. The prosthetic foot is modeled generally as a wide Bézier curve, and the foot is characterized according to a set of at least 12 variables, including h, C1d, C2x, C2y, C2d, C3x, C3y, C3d, C4x, C4d, C5d and C6d, where C3y is heel size, C4x is heel geometry and C6d is curve intersection location. The variables are optimized to minimize a difference between a normal lower leg trajectory during gait and a modeled trajectory that includes the prosthetic foot.

A method for manufacturing a custom wearable and/or implantable medical device, such as an orthosis (e.g., an ankle brace, etc.), a prosthesis or the like, includes use of scanning processes. A digital model of a surface may be applied to a digital device model to define a custom digital device model. The digital model and, thus, the custom digital device model may include one or more standard features. The custom digital device model may be used with an automated manufacturing process to make some or all of the custom wearable and/or implantable medical device. In some embodiments, additive manufacturing processes may be used to form a portion or all of the custom wearable and/or implantable medical device.

An external breast prosthesis (12) includes a main body made from a polymer, the body having an inner surface (13) for coinciding with an outer chest surface of a person wearing the breast prosthesis and an opposing outer surface (14), wherein the main body includes multiple elongated thermal conductors (15) that extend from a position adjacent the inner surface of the breast prosthesis to a position adjacent the outer surface of the breast prosthesis.

A prosthetic knee includes a hydraulic resistance system with an extension hydraulic circuit and a flexion hydraulic circuit. The flexion hydraulic circuit includes a switchable resistance assembly with a mechanical switch. The mechanical switch has an engaged position and a released position. The switchable resistance assembly provides a first level of hydraulic resistance when the mechanical switch is in the released position and a second level of hydraulic resistance when the mechanical switch is in the engaged position, the second level being less than the first level. The mechanical switch moves to the engaged position when the hydraulic resistance element reaches a predetermined extension position and moves back to the released position when fluid flow falls below a predetermined threshold.

Artificial muscle device and method of manufacturing the same for the treatment or control of an organ such as the heart. The artificial muscle device comprises artificial polymer actuators or fibers that can work together to form the artificial muscle structure. The artificial fibers are electrothermally active contractile polymers capable of various characteristics, including increased contractile forces. The artificial actuators are knittable or weavable into patterns and shapes to create unique artificial muscles that can be shaped into implantable devices.

Artificial muscle device and method of manufacturing the same for the treatment or control of an organ such as the heart. The artificial muscle device comprises artificial polymer actuators or fibers that can work together to form the artificial muscle structure. The artificial fibers are electrothermally active contractile polymers capable of various characteristics, including increased contractile forces. The artificial actuators are knittable or weavable into patterns and shapes to create unique artificial muscles that can be shaped into implantable devices.

The present invention relates to a foot prosthesis (1, 61) comprising a heel (6, 71) and a tip (7, 62), both of which can bear on the ground, and an ankle support (2, 67), characterised in that the prosthesis also comprises at least one damping element (10, 76) designed to be at a distance from the ground.