A mechanical interface connecting a biological body segment, such as a limb, portion of a limb or other body segment, to a wearable device such as a prosthetic, orthotic or exoskeletal device, is fabricated by quantitatively mapping a characterized representation of the body segment to form a digital representation of the mechanical interface shape and mechanical interface impedance. The mechanical interface includes a continuous socket defining a contoured inside surface and a contoured outside surface, and includes a material having an intrinsic impedance that varies through the material, so that the intrinsic impedance varies along the contoured inside surface.

The present disclosure is related to systems and methods for orthosis design. The method includes obtaining a three-dimensional (3D) model associated with a subject. The method includes obtaining one or more reference images associated with the subject. The method includes determining, based on the 3D model and the one or more reference images, orthosis design data for the subject. The orthosis design data may be used to determine an orthosis for the subject.

A method for reducing motion of a skeletal structure in a limb towards a wall of an interface is described. The interface comprises a plurality of compression areas that are longitudinally-shaped and oriented longitudinally along the length of limb. The method comprises selecting, during a process of creating the interface, a compression level for the compression areas that compresses soft tissue against the skeletal structure. The method also comprises donning the interface over the limb to apply a plurality of compressive forces that is sufficient to aid in suspension of the interface on the limb and reduce motion of the skeletal structure toward a wall of the interface.

To quickly and economically manufacture a prosthesis that fits the shape of a stump of a prosthesis user. A prosthesis shape data generation system provided includes: a stump shape data acquisition unit that acquires stump shape data, which is shape data on a stump of a living body; and an estimated prosthesis shape data generation unit that performs an estimation processing by inputting the stump shape data to a machine learning model that has previously learnt a correspondence between a stump shape and a shape of a part or a whole of a prosthesis that fits the stump shape, thereby generating estimated prosthesis shape data that is shape data on a part or a whole of a prosthesis that fits the stump of the living body.

A hand orthosis for bending and/or stretching at least one finger of a patient's hand, comprising a force-introducing device fastened to a splint, which is coupled with at least one finger segment paired with the finger of the patient's hand, wherein the at least one finger segment comprises a plurality of modular members interconnected in an articulated manner. The modular members each have at least one bayonet link on a first front side and at least one bayonet hook, corresponding to the bayonet link, on a second front side for the formation of a bayonet connection between adjacent modular members providing a bayonet joint. In addition, the invention relates to a modular member for using in a hand orthosis and a method of producing a hand orthosis.

A prosthetic device includes an internal frame assembled from multiple longitudinal members and multiple transverse members that are substantially planar in character and are arranged to be joined together. A medially arranged opening is defined in each transverse member, and is substantially registered with openings of adjacent transverse members to form a longitudinal passage, such as may be useful to receive an actuator and/or other items. At least some transverse members differ from one another in one or more of shape, length, or width. A covering member may be provided over the internal frame. Rear-facing gaps in transverse members may receive one or more elements such as dampers, batteries, or the like.

A two-part prosthetic socket which includes an inner socket component having an inner profile substantially complementary to a profile of a residual limb of a patient, and an outer socket component configured to releasably attach about an outer surface of the inner socket component is disclosed. The inner profile of the inner socket component may be determined from digital data output from a medical imaging scan of the residual limb, which provides a three-dimensional digital profile of the residual limb that includes information on the size and location of at least bone and bone spurs, muscle, scar tissue, and neuroma. The digital data may further include a designed operating range for the size and shape of the three-dimensional digital profile of the residual limb based on such information. The two-part prosthetic socket may be manufactured using additive manufacturing, wherein the inner socket may be formed of a flexible material and the outer socket may be formed of a rigid material.

A prosthetic joint system for users comprising a housing having an interior cavity, a center axis in said interior cavity, and an attachment means for fixedly connecting said housing to said user; an inner cylinder disposed in said housing interior cavity wherein said inner cylinder rotates around said center axis of said housing; an appendage attached to said inner cylinder; a sensor system attached to said appendage; and a dampening system, having a power source, in communication with said sensor system, said inner cylinder, and said housing for controlling dampening of the rotation of said inner cylinder around said center axis of said housing.

A compression stabilized prosthetic device for a patient having an amputated limb includes a first socket portion for contacting a patient's limb, and a second portion for the attachment of a prosthetic component. The first socket portion has compression portions configured for compressing portions of the patient's limb, and relief portions for receiving other portions of the patient's limb which bulge upon the compression applied by the compression portions. The relief portions may be formed as openings or as enlarged radius portions of the first socket portion.

A method for producing an orthosis includes at least the steps of receiving patient data of at least one body part of a patient, wherein the body part is borne substantially without a holding apparatus during the reception, ascertaining and/or receiving reference coordinates of virtual and/or physical target objects on the body part, wherein the body part is borne substantially without a holding apparatus during the ascertainment and/or reception and wherein the target objects represent at least one location on the surface of the body part that is representative for attaching the orthosis on the body part, individually fitting a digital orthosis model on the basis of the patient data and the reference coordinates, and manufacturing the orthosis on the basis of the digital orthosis model that is fitted in this way.