PL232476B1 - Prosthesis of a limb, bionic implant for animals - Google Patents

Description

Description of the invention

The subject of the invention is a limb prosthesis, a bionic implant for animals, replacing a diseased, accidentally damaged or amputated limb in animals.

Various designs of external prostheses are used to replace missing body parts, particularly limbs, in animals.

For example, limb prostheses are known in the form of mechanical structures, on one side ending with a funnel placed on the left part of the limb - the stump, and on the other side with a foot in contact with the ground.

Another embodiment of the prosthesis is a structure attached to the animal's torso, equipped with wheels to facilitate its movement.

In yet another version, the prosthesis is made of elastic, springy components and attached to the torso with adjustable straps. When the animal moves, the prosthesis is a flexible support that helps to maintain balance.

There are also known prosthetic limbs that are partially fixed in the bone for stable anchoring, and the other outer part acts as an artificial limb.

All known solutions only partially replace the missing limbs. Prostheses fixed with funnels and belts cause high pressure on the skin at the points of contact, resulting in irritation, purulent wounds or skin cracks. They are also a disadvantageous solution in terms of biomechanics, as they force the work of muscles that are not involved in the movement of a healthy limb. The movement of the prosthesis is then less effective.

Another disadvantage is the need to make components individually shaped to the anatomy of the animal.

The known limb prostheses fixed inside the bone result in postoperative complications immediately after surgery or during intensive rehabilitation. These include, for example, loosening of the prosthesis in the medullary canal, causing pain and loss of stability during movement. Another complication is infection in the area where the prosthesis connects to the bone at the site where the bone passes into the prosthesis and the lack of healing leading to necrotic changes. Yet another disadvantageous result is bone fractures above the fixed prosthesis due to the bone stiffening with the inserted prosthesis.

The limb prosthesis, a bionic implant for animals according to the invention, fixed to the left bone fragment in an intramedullary manner, forms an artificial limb of an animal.

The limb prosthesis according to the invention is characterized by the fact that it consists of at least two non-rotationally connected components, one of which is implanted in the bone, and the other is its external extension to contact with the ground.

An advantage of a limb prosthesis is that the structure of the bone implanted component has an elastic-elastic structure preventing the introduction of unnatural bone stiffness leading to bone fracture.

Another advantage of the invention is that the component is firmly seated in the bone canal due to the threaded outer surface of the implant.

Yet another advantage is the ability to perceive rotation of the prosthesis around the bone by inserting at least one orthopedic screw into at least one orifice disposed transversely to the longitudinal axis of the bone embedded component.

Another feature of the limb prosthesis is the absence of inflammation at the site of the implant protruding from the bone through the areas facilitating the growth and healing of soft tissues around the implant.

The subject of the invention is shown in the embodiment in the drawing, in which: Fig. 1 shows the prosthesis of the limb in an isometric view, Fig. 2 shows the external module in an isometric view, Fig. 3 shows the internal module implanted in the bone in a top view, Fig. 4 Bone-implanted inner module in front view, Fig. 5 Bone-implanted inner module in side view.

The limb prosthesis, bionic implant 1 according to the invention consists of an inner module 1.1 implanted in the bone, an outer module 1.2 placed non-rotatably on the inner module 1.1 and blocked against movement by a locking element 13.

The internal module 1.1 has a bone contact zone 1.1.1 and a zone 1.1.2 in contact with the external module 12. The zone 1.1.1 has the shape of a cone with a taper of 1 ° + 10 °, with a thread, preferably with a contour, on its outer walls. similar to the thread on known orthopedic screws, where the zone 1.1.1 has transverse through holes 1.1.1.3 split PL 232 476 B1 located along the longitudinal axis of module 1.1 increasing the elasticity of the internal module 1.1, while the through holes 1.1.1.3 are separated longitudinally by reinforcing bridges 1.1 .1.4 and circumferential relief 1.1.1.1 to improve the spring effect.

The internal module 1.1 is provided with at least 1 transverse opening 1.1.1.2, preferably having threads cooperating with the threads of known orthopedic screws.

The zone 1.1.2 is equipped with the area 1.1.2.1 receiving the rotary and sliding motion of the external module 12 cooperating with the internal module 1.1.

The inner module 1.1 has segments 1.1.3 defining the boundary of the zone 1.1.1 enabling favorable soft tissue overgrowth, preferably provided with at least one radius 1.1.3.1, at least one radius 1.1.3.1 may have at least one recess 1.1.3.1 .

External module 1.2 of limb 1 prostheses of shaft 1.2.2 and zones of contact with the ground 1.2.1, the shaft 1.2.2 is equipped with socket 1.2.2.1 having an area 1.2.2.2 receiving rotation and sliding movement of the external module 1.2 cooperating with the internal module 1.1. The outdoor module 1.2 may have an articulation structure to imitate the movement of a limb.

Claims (7)

Patent claims 1. Prosthetic limb (1), a bionic implant for animals, replacing a sick, accidentally damaged or amputated limb in animals, characterized in that the internal module (1.1) implanted in the bone has a bone contact zone (1.1.1) equipped with a thread, preferably with a profile similar to the thread on known orthopedic screws. 2. A prosthetic limb (1), an animal bionic implant according to claim 1, 2. A method according to claim 1, characterized in that the zone (1.1.1) has the shape of a cone with a taper of 1 ° + 10 °. 3. A prosthetic limb (1), an animal bionic implant according to claim 1, 1. A method as claimed in claim 1, characterized in that the zone (1.1.1) has transverse through holes (1.1.1.3). 4. A prosthetic limb (1), an animal bionic implant according to claim 1; A device as claimed in claim 1, characterized in that the zone (1.1.1) is provided with at least 1 transverse hole (1.1.1.2), preferably having a thread mating with the threads of known orthopedic screws. 5. Prosthetic limb (1), a bionic implant for animals, characterized in that the inner module (1.1) has segments (1.1.3) provided with at least one radial projection (1.1.3.1). A limb prosthesis (1), a bionic implant for animals according to claim 1, 3. The apparatus according to claim 5, characterized in that the at least one radial projection (1.1.3.1) may have at least one recess. 7. Prosthetic limb (1), a bionic implant for animals, characterized in that the outer module (1.2) placed non-rotatingly on the inner module (1.1) has an articulated structure.