A prosthetic device for engaging a residual limb includes a plurality of elongate counters configured to receive at least a portion of the residual limb within a volume defined by the plurality of elongate counters. Each respective elongate counter is configured to counteract forces applied to the residual limb via the prosthetic device. The prosthetic device also includes a socket and a selective adjustment system, and may include an independent counter engaged with the socket. The socket is configured to engage with the residual limb, and may include a lower textile socket coupled to the plurality of elongate counters and an upper textile socket coupled to the lower textile socket. The selective adjustment system is configured to secure the prosthetic device to the residual limb and to provide selective adjustment of compression of the socket and the plurality of elongate counters around the residual limb.

Various embodiments of the present invention generally relate to prosthetic partial finger designs that can mimic the last two joints of the finger. Some embodiments include a proximal phalange, a distal phalange coupled to the proximal phalange, and a knuckle track (e.g., formed in an arc). The knuckle track can be moveably coupled to the proximal phalange an may include multiple teeth formed on which the proximal phalange slides along. A ratcheting mechanism can contact the multiple teeth to allow sliding in only a first direction while the ratcheting mechanism is engaged. Some embodiments include a release mechanism (e.g., a button) configured to disengage the ratcheting mechanism from the multiple teeth to allow the distal phalange to slide in a second direction. In some embodiments, the device may include a spring-back capability that automatically extends the finger after reaching full finger flexion, enabling one-handed use.

Low-cost prosthetic apparatus, methods, kits, and systems with improved force transfer elements are disclosed. For example, the prosthetic apparatus may comprise: a plurality of first components manufactured from a first material to define 3D shapes with exterior surfaces resembling digits of a human hand; and a plurality of second components manufactured from a second material to define 2D shapes that are rotatably engageable with the 3D shapes to define force transfer elements operable to close the digits around an object responsive to a pull force applied to the force transfer elements, wherein the first material is different from the second material. Methods for manufacturing and assembling prosthetic apparatus also are disclosed along with related kits and systems.

The invention relates to a method for producing a three-dimensional objects by means of an additive manufacturing process in which at least one manufacturing material is fed in a free-flowing state from at least one feed-in opening of at least one feed-in needle into a supporting material and then cured, the manufacturing material being introduced in multiple layers one after the other, wherein the feed-in needle comprises at least one tool by which at least one previous layer is machined when a current layer of the manufacturing material is introduced.

A method for making a mould of an amputation stump, in which the amputation stump is inserted into a liner of a moulding aid, the liner having a longitudinal direction and a circumference, and the liner having an expansion coupling such that when the liner is extended in the longitudinal direction, this necessarily results in a reduction of the circumference.

Prosthesis devices can include sockets having adjustable features. In one example, a socket includes one or more panels that can move outwardly or inwardly relative to a receptacle portion of the socket. The panels can be moved by tightening a tensioning line.

Prosthesis devices can include sockets having adjustable features. In one example, a socket includes one or more panels that can move outwardly or inwardly relative to a receptacle portion of the socket. The panels can be moved by tightening a tensioning line.

Various embodiments of the present invention generally relate to prosthetic partial finger designs that can mimic the last two joints of the finger. Some embodiments include a proximal phalange, a distal phalange coupled to the proximal phalange, and a knuckle track (e.g., formed in an arc). The knuckle track can be moveably coupled to the proximal phalange an may include multiple teeth formed on which the proximal phalange slides along. A ratcheting mechanism can contact the multiple teeth to allow sliding in only a first direction while the ratcheting mechanism is engaged. Some embodiments include a release mechanism (e.g., a button) configured to disengage the ratcheting mechanism from the multiple teeth to allow the distal phalange to slide in a second direction. In some embodiments, the device may include a spring-back capability that automatically extends the finger after reaching full finger flexion, enabling one-handed use.

A system and a method for creating prosthetics using a prosthetic machine are disclosed. The method includes creating a three dimensional (3D) shape of a prosthetic using a software. Successively, the 3D shape is sent for printing based at least on an availability of a printer. The printing is achieved by taking the 3D shape and slicing into very thin horizontal slices and thereafter placing a slice upon a slice for the 3D shape. Further, granular polycarbonate material is placed in a cartridge at the top of a compression head. Further, granules are fed through a four stage heating and compression process. Further, a heated plastic is pressurized and forced through an extruder to extrude in a 1 mm×4 mm ribbon. Thereafter, a printed object is formed on a base plate through motion that is controlled by a plurality of linear axes and a rotary axis.

An interchangeable lock-pump prosthetic system that includes a universal dummy, vacuum pump, and mechanical lock. Each of the three objects have similar geometries for the purpose of fitting into a prosthetic, whereupon a user may for instance, swap the vacuum pump with the lock, depending on the needs of the user and without changing to a separate prosthetic. The universal dummy is an inactive component and acts as a placeholder during manufacturing of the socket, for the eventual inclusion of the vacuum pump or mechanical lock. The vacuum pump is a pressure dependent object that acts to remove any residual air between the socket and the elastomeric liner. The lock takes advantage of a mechanical locking pin which receives a properly configured liner, thus securing the user within the prosthetic socket.