RU2662419C1 - Set of split endoprostheses for cement-free fixation in bones for mammals - Google Patents

Abstract

FIELD: veterinary.

SUBSTANCE: invention relates to veterinary medicine. Set of split endoprostheses for cement-free fixation in bones for mammals of animals, housed in a container with sections, contains modules of five standard sizes of endoprostheses of hip, knee, elbow joints and endoprostheses of diaphyseal adapters for reconstruction of amputated limbs, as well as the nodes of fixation of endoprostheses in the given position, including bushings with slots, bolts and nuts. Each module of endoprosthesis is made with the ability to connect to the fixation node.

EFFECT: invention provides opportunity to conduct a wide range of operations to replace joints in animals, and endoprostheses of different sizes allow the surgeon to perform an exact anatomical selection for animals of different masses, achieving a positive clinical picture and increasing the effectiveness of surgical interventions due to the effective bearing capacity of implants and stable fixation and simplifying the surgical procedure and reducing the time of operation due to the storage of implants and tools in one set, simply handling them.

8 cl, 29 dwg

Description

The invention relates to veterinary orthopedics and is intended for the formation of artificial joints in the pathology of the hip, elbow, knee joints in animals of different sizes and body weights, as well as for the formation of an implantable attachment during reconstruction of tubular bones after amputation of a limb segment in animals.

In veterinary medicine, replacing a joint with an artificial prosthesis, which has the anatomical shape of a healthy joint and allows you to perform a sufficient range of movements, is the most functional treatment method when it is impossible to restore the function of the natural joint. Search and development of the optimal form of endoprostheses and techniques for fixing endoprostheses is an urgent task. The requirements for this group of medical devices were determined from the very beginning of their appearance: ease of use and sterilization, reliability, chemical neutrality, safety.

Currently, several companies produce endoprostheses for animals: MATHYS, AEUSCULAP, Howmedica, Kyon® / Zurich, Innoplant Helica, etc. As a rule, firms offer different types of endoprostheses and each is accompanied by an individual set of instruments for the operation. The acquisition of a tool, training a surgeon and passing certification require significant financial costs, time-consuming.

Known is the Set of metal fixer implants and instruments for fixing the proximal femur in children (see Pat. No. 79411, A61B 17/58, 2009, RF), developed by the Federal State Budget Institution “CITO named after N.N. Priorova "of the Ministry of Health of Russia in conjunction with the Federal State Unitary Enterprise" CITO "for the surgical treatment of various pathologies of the hip joint in children. The metal fixators included in the proposed set are designed taking into account the age aspect from 1.5 to 15 years. The nomenclature of metal fixators provides for: 38 standard sizes of angular blade plates, 40 standard sizes of angular blade plates medializing L-shaped, clamps for intertrochanteric osteotomy according to Trotsenko - 4 standard sizes, as well as an appropriate set of cortical screws 44 pcs. To ensure the installation of metal fixators, the necessary a set of original medical instruments, including: Kirchner spokes, cannulated mounting bits, extractor-impactors, impactors, cl yuchi for bending plates, tissue protectors, bone holders. The disadvantage of the useful model is that the proposed implants do not take into account the anatomy and biomechanics of animals and are intended only for the treatment of pathologies of the hip joint in children.

Known Endoprosthesis of the hip joint for dogs design Samoshkin-Slesarenko and the method of implantation of the endoprosthesis of the hip joint in dogs (see US Pat. No. 2095033, RF, A61D 7/00). It consists of a bowl of a ball-shaped head, a neck and legs with slotted windows. In the upper part of the legs there is a support platform with a hole for the cotter pin. The cotter pin during the endoprosthetics operation is hammered into the supporting platform, fixing the large trochanter of the femur. The endoprosthesis cup on the outside has the shape of a hemisphere, on which concentrically arranged rows of sharpened shoulder-shaped protrusions, cuts and grooves are made. On the inside of the cup there is a socket for fastening the head with a stabilizing ring. The prosthesis is made of tungsten-titanium and / or cobalt-chromium-molybdenum alloy. The disadvantage of the endoprosthesis is the inability to separate the pelvic and femoral components, which limits the amount of movement of the joint, as well as the absence of a polymer liner as a friction pair, which reduces the durability and life of the joint.

It is known from the prior art that a container is an effective and versatile tool for storing, transporting and presenting tools in a simple and compact form (see WO 2005/016183 A1, US 5732821, WO 2014116229 (A1). A patent search revealed certain types of endoprostheses. for animals However, kits equipped with various types of endoprostheses (hip, knee, elbow, and also diaphyseal adapters) for use in veterinary medicine intended for animals of different sizes and body weights were not identified .

The objective of the invention A set of detachable endoprostheses for cementless fixation in bones for mammals is the creation of a set of implants and universal fixing elements for them, which can eliminate the problems of diseases of the hip, knee, elbow joints and amputated limbs in animals of various sizes and body weights.

The technical result of the claimed invention is:

- the ability to conduct a wide range of operations to replace joints in animals, and endoprostheses of various sizes allow the surgeon to make an accurate anatomical selection for animals of different masses;

- achieving a positive clinical picture and increasing the effectiveness of surgical interventions due to the effective bearing capacity of implants and stable fixation;

- simplification of the surgical procedure and reduction of operation time due to the storage of implants and instruments in one set, simple handling.

The specified technical result is achieved due to the fact that it is proposed a set of detachable endoprostheses placed in a case with sections, containing modules of five standard sizes of hip, knee, elbow joints and endoprostheses of diaphyseal adapters for reconstruction of amputated limbs, as well as nodes for fixing endoprostheses in a given position, including bushings with slots, bolts and nuts, and each endoprosthesis module is made with the possibility of connection with the fixing unit.

In addition, the bushings included in the fixing unit are made with slots on both sides located at an angle of 120 °.

In addition, the bushings included in the fixation assembly are, on the one hand, provided with slots located at an angle of 120 °, and on the other hand, the bushings perform an internal thread.

It is also proposed that the hip joint module, consisting of a cup and a femoral component with a head, is complemented by a spherical insert with an inner spherical surface. The outer surface of the liner is mated to the cup, and the inner surface to the head of the femoral component. Additionally, a limiting protrusion is performed along the lower edge of the cup, blocking the position of the insert in the housing when they are mated. At the distal end of the femoral component, a cone is made with three guide ribs on the outer surface at an angle of 120 ° to connect to the fixation unit and with an internal through axial hole for the fixation unit bolt.

In addition, at the distal end of the femoral component of the hip joint endoprosthesis module for connecting to the fixation unit, a cone with an internal through axial hole for the bolt and a threaded end is made.

The kit also offers a knee joint endoprosthesis module, consisting of a femoral component, a polymer liner, and a shin component. In addition to connecting to the fixation unit, a cone with three guide ribs located at an angle of 120 ° is placed on the inner surface of the femoral component. Non-through grooves are made on the polymer insert for interfacing with the femoral component, and a through oval hole is made in the center of the insert, the major axis of which is parallel to the grooves. The component of the knees is made in the form of a disk platform, in the center of which, on the surface mating with the polymer insert, a rod is made. On the opposite side of the disk platform, integral with the platform, a disk platform stabilizer and a cone with an internal through axial hole for the bolt and three guide ribs on the outer surface of the cone are located at an angle of 120 °.

It is also proposed in the kit that the elbow joint prosthesis module, consisting of the shoulder component, the polymer insert and the forearm component. The shoulder component is carried out with profile runners for sliding along the polymer insert, and the distal end for connection with the fixing unit is provided with a cone with three guide ribs on the outer surface, located at an angle of 120 °, and an internal through axial hole for the bolt. The polymer insert in the cross section has an L-shaped external surface and an inner radius surface on which non-through grooves are made for interfacing with the profile runners of the shoulder component, and a through oval hole is made between the grooves along the insert axis parallel to the grooves. A component of the forearm in the form of a disk platform corresponding to the dimensions of the polymer insert, in the center of which, on the surface mating with the polymer insert, is a rod. On the opposite side of the disk platform in one piece with the platform for connection with the fixing unit, two cones are made with three guide ribs on the outer surface, located at an angle of 120 °, and with an internal through axial hole for the bolt.

And finally, in the diaphyseal adapters proposed in the set, consisting of the adapter body, clamping head and smooth stem, the adapter body with an internal through axial hole is supplemented with a collet and a limiting protrusion on one side, and on the opposite side, for connecting with

fixing unit, perform a cone with an internal through axial hole for the bolt and three guide ribs on the outer surface of the cone, located at an angle of 120 °.

The novelty of the invention lies in the fact that the set contains various types of endoprostheses and universal elements for their fixation in a given position for animals of various weight and body size.

All endoprostheses presented in the kit are original authoring.

The invention is illustrated by a description and illustrative material, which presents:

FIG. 1 - a set of implants for animal arthroplasty, general view;

FIG. 2 - assembly of the hip joint;

FIG. 3 - a cup of the pelvic component of the endoprosthesis of the hip joint;

FIG. 4 - insert of the pelvic component of the hip joint endoprosthesis;

FIG. 5 - connection of the femoral component of the hip joint endoprosthesis with the sleeve through the cone and insert component;

FIG. 6 - connection of the femoral component of the hip joint prosthesis with a sleeve through a cone;

FIG. 7 - connection of the femoral component of the hip joint prosthesis with a sleeve through a threaded end;

FIG. 8 - universal locking sleeve with slots on both sides;

FIG. 9 - universal locking sleeve with internal thread;

FIG. 10 - connecting bolt with nut;

FIG. 11 - Assembly of the knee joint;

FIG. 12 - femoral component of the knee endoprosthesis;

FIG. 13 - polymer insert of the knee endoprosthesis;

FIG. 14 - component of the lower leg of the knee joint endoprosthesis;

FIG. 15 - disk platform component of the lower leg of the knee joint prosthesis with a threaded rod;

FIG. 16 - disk platform component of the lower leg of the knee joint prosthesis with a smooth stem;

FIG. 17 - polymer stabilizer of the articular block of the knee endoprosthesis;

FIG. 18 - endoprosthesis of the elbow joint assembly;

FIG. 19 - shoulder component of the elbow joint endoprosthesis;

FIG. 20 - connection of the shoulder component of the elbow joint endoprosthesis with the sleeve through the cone and insert component;

FIG. 21 - connection of the shoulder component of the endoprosthesis of the elbow joint with the sleeve through a threaded end;

FIG. 22 - polymer insert of the elbow joint endoprosthesis;

FIG. 23 - component of the forearm of the endoprosthesis of the elbow joint;

FIG. 24 - component of the forearm of the endoprosthesis of the elbow joint with a smooth rod on the platform;

FIG. 25 - diaphyseal adapter assembly;

FIG. 26 - adapter body for connection with a sleeve through a cone;

FIG. 27 is an adapter body for connecting to a sleeve through a cone and an insert component;

FIG. 28 - adapter body for connection with a sleeve through a threaded end.

FIG. 29 - clamping head diaphyseal adapter.

A set of endoprostheses for mammals (see Fig. 1) is placed in a container with a lid 1, divided into sections. In section 2 modules of hip joint endoprostheses of 5 sizes are placed; in section 3 - modules of knee joint endoprostheses, 5 sizes; in section 4 - modules of endoprostheses of the elbow joint, 5 sizes; in section 5 - diaphyseal adapters for the reconstruction of amputated limbs in animals, 5 sizes; in section 6 there are knots for fixing implants of 5 sizes: bushings with slots, bolts and nuts, as well as connecting cones; in section 7 - devices for fixing diaphyseal adapters of 5 sizes.

All joint prostheses in the kit are designed for cementless fixation in the bone. The design of endoprostheses makes it possible to perform movements in all possible and necessary planes, as well as perform movements of flexion and extension in the joint, reduction and abduction of the limb.

As shown in FIG. 2, the hip joint prosthesis for animals consists of the pelvic and femoral components. The pelvic component includes a cup 8 (Fig. 3), a polymer insert 9 (Fig. 4), fixing elements consisting of two bushings 10 and threaded rods 11. The threaded rods 11 are integral with the cup 8, and the bushings 10 are made with the outer and internal thread (Fig. 3). Cup 8 has a hemispherical shape with a visor that prevents the insert 9 from falling out of the cup. The outer surface of the cup 8 in contact with the bone has a granular surface, which contributes to a more durable connection of the endoprosthesis with the bone and osseointegration, "implantation" due to the growth of bone tissue in the pores. The inner surface of the cup 8 has a regular smooth spherical shape in which the polymer liner 9 moves (Fig. 4). The diameter of the inner surface of the cup 8 exactly corresponds to the outer diameter of the polymer insert 9. The polymer insert 9 is made in the form of a hemisphere with an internal spherical cavity for interfacing with the head 12 (Fig. 5) of the femoral component. The movement in the endoprosthesis is carried out due to multiaxial rotations of the polymer insert 9 and the head of the femoral component 12. When installing the joint, the pair-insert and the insert-head of the femoral component are mating pairs and friction pairs. The wear of the liner and the femoral component head is reduced, since the load is evenly distributed between the friction pairs.

The femoral component of the endoprosthesis (Fig. 5), made of metal, consists of a head 12, a leg including the body of the leg 13 and a neck with a cone, as well as a universal fixation unit: bushings 14 (Fig. 8) and 15 (Fig. 9), as well as a connecting bolt 16 with a nut 17 (Fig. 10).

The neck with a cone, on which the head 12 fits (Fig. 5), and the body of the leg 13 are made at the same time, forming a cervical-diphysial angle. The distal end 18 of the body of the legs 13 is made in the form of a cone with three guide ribs located at an angle of 120 °. The body of the legs 13 and the cone 18 are made with an internal through axial hole for the bolt 16.

The bushings 14 and 15 for fixing the implant in the bone provide a large contact area of the components of the endoprosthesis with the bone bed, help balance the endoprosthesis and increase the rigidity of fixation of the endoprosthesis. The invention provides two options for the sleeves 14 and 15 for fixing the legs of the endoprosthesis in the bone. The sleeve 14 with three grooves made at an angle of 120 ° from both ends of the sleeve (Fig. 8) for bilateral expansion in the bone. The sleeve 15 for unilateral bursting in the bone, for which three grooves are made on one side of the sleeve at an angle of 120 °, and on the opposite side of the sleeve - internal thread (Fig. 9). The bushings 14 and 15 in the invention enable universal attachment of endoprostheses and diaphyseal adapters to the bones of the animal.

The invention provides three options for connecting the body of the legs 13 with the bushings:

- the body of the legs 13 is connected to the sleeve 14 through a cone with stabilizing ribs 18 and an insert component 19 (Fig. 5);

- the connection of the body of the legs 13 through the cone 18 with stabilizing ribs for a rigid fit of the sleeve 14 (Fig. 6);

- at the distal end of the body of the leg 13, a thread 20 is made for connection with a sleeve 15 having a corresponding internal thread (Fig. 7).

The hip joint endoprosthesis modules in section 2 (Fig. 1) are an assembly that includes the body of the leg 13 with the head 12 in conjunction with the insert 9 and the cup 8 without the fixation unit. In the size line of modules there are implants of five sizes for animals of various weights.

A method of using a hip joint implant is that after cutting the skin in the hip joint and separating the femoral head from the acetabulum, the acetabulum is milled to expose the bone tissue. From the side of the vault of the acetabulum, two parallel channels are drilled, the openings of which extend from the inside of the vault of the acetabulum. The threaded rods 11 of the cup 8 are introduced into the prepared channels and fixed from the outside of the acetabulum by the bushings 10, the cup 8 is installed, tightly pressing the osseointegrated surface of the cup 8 to the inner surface of the acetabulum. After removal of the femoral head, a channel is formed in it under the introduction of the pre-assembled femoral component: the body of the leg 13 is connected to the head 12, as well as the sleeve 14, a bolt 16 is inserted through the through hole in the body of the leg 13 and a nut 17 is screwed onto it, the abutting sleeve 14. After placing the femoral component in the bone channel, rotating the bolt 16 and lifting the nut 17 along the thread of the bolt 16 creates the pressure of the sleeve 14 on the inner wall of the femoral channel, ensuring stable fixation of the femoral component in the bone. The ribs of the body of the legs 13 additionally stabilize and stiffen the entire structure, they also serve as fixators of the femoral component in the bone. Then the polymer insert 9 is inserted into the cavity of the cup 8 and the head 12 of the femoral component is mated with the inner surface of the polymer insert 9. After this, the wound is sutured.

The novelty with respect to the known technical solutions of hip joint endoprostheses is that the insert is movable, as well as the fixation of the endoprosthesis in the bone using a bursting sleeve. A new way is to fasten the cup to the hole of the hip joint using threaded rods made integral with the cup, fixed with threaded bushings. The visor on the cup is new

which prevents the loss of the liner and prevents dislocation of the legs of the joint.

As shown in FIG. 11 knee endoprosthesis consists of a femoral component, a shin component and a polymer insert. The endoprosthesis during installation is fixed by universal bushings 14 (Fig. 8) or 15 (Fig. 9) using a bolt 16 with a nut 17 (Fig. 10).

The femoral component 21 (Fig. 12) is a solid metal structure, the C-shaped cross section of which repeats the anatomical profile of the articular surface of the distal part of the animal’s thigh. On the convex outer surface of the femoral component 21, profile runners 22 are made for sliding along the polymer insert 23 (Fig. 13). On the inner surface of the femoral component 21, a cone 24 is made with three guide ribs located at an angle of 120 °, designed to fit the universal fixing sleeve 14. In the cone 24, an internal through axial hole (Fig. 12) is made under the bolt 16. The femoral component 21 has a polished external surface and internal granular, providing optimal osseointegration.

The tibia component (Fig. 14) consists of a disk platform 26 and, integral with the platform, a cone 27, a stabilizer 28 of the disk platform, a threaded rod 29 (Fig. 15) or a smooth rod 30 (Fig. 16). The rod 29 or rod 30 located in the center of the platform 26 is designed to interface with the insert 23, can be threaded or smooth 30, which allows the surgeon to simulate an integral endoprosthesis (when using a threaded rod 29), or to simulate a detachable endoprosthesis (when using a smooth rod 30 ) The disk platform 26 may have additional through holes 31 (Fig. 14) to improve the processes of osseointegration after the installation of the knee joint prosthesis. The cone 27 and the stabilizer 28 are located on the side of the disk platform, mating with the lower leg, their surface has a granular structure that provides optimal osseointegration. Thanks to the stabilizer 28 of the disk platform, the landing of the component in the shin bone becomes universal. An inner through axial hole 32 (Fig. 14) is made in the cone 27 of the lower leg component for the bolt 16, and the cone 18 is used to fit the bursting sleeve 14 (Fig. 15). The cone 27 is integral with the threaded end 33 to connect to the threaded sleeve 15 (Fig. 14).

The polymer rotary liner 23 (Fig. 13) corresponds to the size of the disk platform 26. On the surface of the liner 23 in contact with the femoral component, non-through grooves 34 are made for interfacing with the profile runners 22 of the femoral component 21. A through oval hole 35 is made in the center of the liner 23, a large the axis of which is parallel to the grooves 34. The stem 29 (or 30) of the drum platform 26 of the lower leg component is inserted into the opening 35 of the insert 23 and the connection of the femoral component 21 and the disk platform 26 is fixed by the joint articulator 36 th block with a head (Fig. 17). The stabilizer head 36 is larger than the oval hole 35 and ensures connection. Orienting the runners 22 along the grooves 34 and, leading the runners 22 under the head of the stabilizer 36, the femoral component, liner and lower leg component are assembled together. In assembled form, the insert 23 acquires a shuttle stroke relative to the platform 26 of the tibia component 26, transmitted to the femoral component 21, which in turn acquires an amplitude of motion relative to the platform 26 and the insert 23, which provides bending and bending movement of the knee joint. Polymer liner increases the reliability of the joint through the implementation of the compensatory and rotary motion.

The knee joint endoprosthesis module in section 3 (Fig. 1) is an assembly unit including a femoral component, an insert, and a shin component without a knot for fixing the artificial joint in the bones. Five sizes for animals of various weights are presented in the size line of modules.

A knee replacement method includes the following. After cutting the skin and muscles, the surface of the knee joint is exposed. The menisci and the ligamentous apparatus inside the joint are removed, the ligaments and muscles that bound the joint are not removed. The saw then removes the natural articular platform of the tibia. The articular surface is removed from the side of the femur with the subsequent formation of a surface corresponding to the contour of the femoral component 21. In the diaphysis of the femur of the animal, a channel is formed for insertion of the sleeve 14. The femoral component is connected with a bolt 16 to the sleeve 14 and fixed with a nut 17. The completed assembly is tightly seated in the prepared channel , and by rotating the bolt 16 and lifting the nut 17 along the thread of the bolt 16, create pressure of the sleeve 14 on the inner wall of the femoral canal, ensuring stable fixation of the femoral component in the bone.

Next, in the prepared surface of the lower leg, a channel is formed in the tibia under the sleeves 14 or 15. The shank component is assembled: a bolt 16 is inserted through the hole 32 in the cone 27 of the platform 26. The bolt 16 is immersed in the sleeve 14, aligning the slots of the sleeve 14 with the guide ribs of the cone 18, and nut 17 is screwed onto the bolt 16. To connect to the threaded sleeve 15, use the platform 26 with the threaded end 33 of the cone 27. The assembled shin component is placed on the prepared tibia saw: the stabilizer 28 of the disk platform is inserted into the saw and immersed tulkus 14 or 15 into the prepared canal. Further rotation of the bolt 16 and the nut 17 bursts the sleeve 14 or 15, tightly pressing the platform 26 to the surface of the tibia saw. After the installation of all elements of the knee endoprosthesis, the surgical wound is sutured.

The novelty of knee joint endoprostheses is:

- the implementation of the platform of the knee joint (component of the leg) in the form of a disk;

- making an oval-shaped hole in the plastic insert into which the stock of the leg component is inserted, fixed by the stabilizer of the joint block, which allows the insert to move relative to the leg component, transmitted to the femoral component;

- execution on the tibia component of the cone for stabilization of the articular block, as well as fastening in the bone channels with universal locking bushings with a bolt;

As shown in FIG. 18, the elbow joint prosthesis consists of the shoulder component 37, the polymer insert 38 and the forearm component 39. The elbow joint prosthesis during installation is fixed with universal bushings 14 (Fig. 8) or 15 (Fig. 9) using a bolt 16 with nut 17 (Fig. 10).

The humeral component 37 (Fig. 19) is a solid metal construction, the cross section of which repeats the anatomical profile of the articular surface of the distal part of the humerus. The humeral component 37 has a polished outer surface and an inner granular one, contributing to effective osseointegration. The shoulder component 37 contains profile skids 40 for sliding along the polymer insert 38 (Fig. 22), as well as a cone 41 with an internal through axial hole 42 for the bolt 16. On the outer surface of the cone 41 there are three guiding and stabilizing ribs 43 located at an angle of 120 °.

The invention provides three options for connecting the cone 41 of the shoulder component with the bushings 14 and 15:

- the cone 41 with stabilizing ribs 43 is connected to the sleeve 14 by means of a rigid fit (Fig. 19);

- the cone 41 is connected to the sleeve 14 through the insert component 18 and the cone with stabilizing ribs 19 (Fig. 20);

- the cone 41 is made with a threaded shank 44 and is connected to a sleeve 15 having a corresponding internal thread (Fig. 21).

The polymer insert 38 of the elbow joint prosthesis (Fig. 22) is a three-dimensional structure in which the outer surface in the cross section is L-shaped, and the inner surface has a radius shape. On the inner surface of the insert 38, non-through grooves 45 are made for interfacing with the profile runners 40 of the shoulder component 37. A through oval hole 46 is made between the grooves 45 along the axis of the insert 38 parallel to the grooves 45.

The component of the forearm 39 (Fig. 23) consists of a disk platform corresponding to the dimensions of the liner 38, on which at the same time there are two cones 47.48 and a rod located in the center of the disk platform of the component of the forearm 39, which can be threaded 49 or smooth 50 (Fig. . 24). This allows the surgeon to simulate an endoprosthesis detachable or integral. The cones 47 and 48 are placed on the side of the platform 49 adjacent to the forearm, and the stem 49 or 50 is placed on the opposite side, mating with the liner 38. The cones 47 and 48, designed to fit bursting universal bushings 14, have an internal through hole 51 and 52 for the bolt 16. On the disk platform of the component of the forearm 39, additional through holes 53 are made to improve the processes of osseointegration after the installation of the endoprosthesis. The surface of the disk platform 49, facing the forearm, has a granular structure that improves the processes of osseointegration after the installation of the endoprosthesis.

When assembling the liner 38 and the component of the forearm 39, the liner 38 is mounted on the disk platform by inserting the rod 49 into the oval hole 46 and fixed with a polymer stabilizer 36 (Fig. 17). In this position, the insert 38 is capable of up and down movement relative to the stabilizer 36, as well as circular movements relative to the platform of the component of the forearm 39.

The elbow joint endoprosthesis module in section 4 (Fig. 1) is an assembly that includes the shoulder component, the polymer insert and the forearm component, without an artificial joint fixation unit in the bones. There are five standard sizes of implants for animals of various weights in the size line of modules

The elbow joint endoprosthesis described above is used as follows. After cutting the skin and muscles, the surface of the elbow joint is exposed, the ligaments and muscles that limit the joint are not removed. Using a saw, a seat is prepared in the region of the ulnar process of the ulna, and the articular surface of the ulna and radius is removed for subsequent mounting of the disk platform of the forearm component 39. Then, on the joint block of the humerus, a surface is prepared using the saw for the installation of the humerus component 37. The shoulder component 37 is connected to the sleeve and the bolt 16. The surgeon selects one of three possible types of connection between the shoulder component 37 and the fixing sleeves 14 or 15. For example, when choosing the shoulder about component 37 with a cone 41 and with a threaded shank 44, a sleeve 15 can be used. Through a through hole 42 of the cone 40, and then through the sleeve 15, a bolt 16 is inserted, onto which a nut 17 is screwed, which ensures the expansion of the slots on the sleeve 15. Then, in the shoulder diaphysis the bones form a channel for insertion of the sleeve 15. The humerus component is assembled into the prepared channel and tightly mounted on the prepared surface of the humerus. Rotating the bolt 16 and the nut 17, the sleeve 15 is extended to the inner walls of the channel in the humerus.

At the next stage of the operation, the forearm component 37 is installed. Preparation for installation involves connecting the cones 47 and 48 of the disk platform with the bushings 14, and the bolts 16 are inserted into the holes 51 and 52, onto which the nuts 17 are screwed. The assembled component of the forearm with the bushings 14 is inserted into the prepared elbow channels and the radius, while the platform of the component of the forearm 37 is installed on the prepared surface of the saw. When the bolts 16 are turned, the nuts 17 are bursting with the bushings 14 and the component of the forearm 37 is pressed firmly against the cut of the bones of the forearm. Next, an insert 38 is installed on the component of the forearm 37, introducing the rod 49 into the hole 46 and pressed by the stabilizer 36. After this, the insert 38 connected to the component of the forearm 37 is mated with the profile runners 40 of the shoulder component. To do this, the profile runners 40 are brought under the stabilizer 36, orienting along the grooves 45 of the insert 38. Next, the surgical wound is sutured.

The novelty of the elbow joint prosthesis is:

- the implementation of the platform component of the forearm of the elbow joint in the form of a disk;

- making an oval-shaped hole in a plastic insert into which the stock of the forearm component is inserted, fixed by the stabilizer of the articular block, which allows the insert to move relative to the stem and platform of the forearm component of the elbow joint;

- universal fixation of the endoprosthesis in the bone channels with bursting bushings.

In the invention, a Set of detachable endoprostheses for cementless fixation in bones for mammals contains endoprostheses - diaphyseal adapters for replacing an amputated limb and fixing prostheses. As shown in FIG. 25 diaphyseal adapter consists of the body of the adapter 54, the clamping head 55, as well as a smooth rod 56, designed for mounting prosthetic structures. The body of the adapter 54 is made with an internal through axial hole. On the body of the adapter 54 (Fig. 26) at the same time made a whole bounding protrusion 57, designed to be placed on the bone cut. One end of the body of the adapter 54 contains a collet 58 with a tapered thread with slots, and the other is connected to the sleeves 14 or 15. This end of the body of the adapter, designed to be placed in the bones of the animal, has the shape of a cone with three ribs 59, the surface of which is made granular to provide better osseointegration. The adapter body is connected to the sleeve 14 through a cone with ribs 59 (Fig. 26) or an insertion cone 18 (Fig. 27). The connection of the adapter body to the sleeve 15 is carried out through the threaded end 60 of the adapter body 54 (Fig. 28). The clamping head 55 (Fig. 29) has an internal thread for threaded connection with a collet 58 grooves for a wrench. Collet 58 is designed to hold a smooth rod 56.

The diaphyseal adapter in section 5 (Fig. 1) is a module consisting of the adapter body, without a fixation unit in the bones, a clamping nut, and a smooth stem. In the size line of modules there are diaphyseal adapters of five sizes for animals of various weights.

The diaphyseal adapter described above is used as follows. After removal of a limb fragment, in the diaphysis of the remaining part of the bone, an intraosseous channel corresponding to the sleeve 14 or 15 is formed. After assembly. Connect the body of the adapter 54 with the sleeve 14 through a cone with ribs 59 and insert a bolt 16 into the through hole, onto which the nut 17 is screwed. When choosing the sleeve 15, the body of the adapter 54 with a threaded end 60 is used for assembly. The assembled structure is installed in the formed bone channel with a tight landing of the protrusion 57 to the bone cut. Then, rotating the bolt 16, the nut 17, which enters the grooves of the sleeve 14 or 15, unclenches the sleeve in the diaphysis, tightly fixing the structure. After that, soft tissue is sutured over the protrusion 57, leaving the collet 58 outside. A smooth stem 56 is inserted into the collet 58 and fixed with the clamping head 55. In this form, the diaphyseal adapter is ready to install an impromptu prosthesis on it, corresponding to an amputated limb fragment. The advantages are a denser fit into the diaphysis of the bones, which have various deviations in the inner diameter without milling the channel, without fear of bone fracture during installation; collet fastening provides quick removal of the prosthesis; the granular surface of the diaphyseal adapter increases the area of contact between the endoprosthesis and the bone and skin.

The novelty of the diaphyseal adapter is the universal fixation of the endoprosthesis in the bone channels with bursting sleeves with slots, as well as a collet fastening and clamping nut, as a condition for guaranteeing the fixation of a smooth rod.

Claims (8)

1. A set of detachable endoprostheses for cementless fixation in the bones for mammals, placed in a container with sections, characterized in that the kit contains modules of five sizes of hip, knee, elbow joints and endoprostheses of diaphyseal adapters for reconstruction of amputated limbs, as well as endoprosthesis fixation nodes in a predetermined position, including bushings with slots, bolts and nuts, and each endoprosthesis module is made with the possibility of connection with the fixing unit. 2. The set according to claim 1, characterized in that for the bushings included in the fixing unit, three slots are placed on both sides, located at an angle of 120 °. 3. The set according to claim 1, characterized in that for the bushings included in the fixation unit, on the one hand there are three slots located at an angle of 120 °, and on the other hand, an internal thread is made. 4. The kit according to claim 1, characterized in that the hip joint endoprosthesis module, consisting of a cup and a femoral component with a head, is supplemented with a spherical insert with an internal spherical surface and mates the outer surface of the insert with a cup, and the inner surface with the head of the femoral component, in addition, a limiting protrusion is performed along the lower edge of the cup, blocking the position of the liner in the housing when they are mated, and a cone is made at the distal end of the femoral component to connect to the fixation unit with three guide ribs on the outer surface, located at an angle of 120 °, and with an internal through axial hole for the bolt of the fixing unit. 5. Set for PP. 1, 4, characterized in that at the distal end of the femoral component of the hip joint endoprosthesis module for connection with the fixation unit, a cone is made with an internal through axial hole for the bolt and a threaded end. 6. The kit according to claim 1, characterized in that the knee joint endoprosthesis module, comprising a femoral component, a polymer insert and a shin component, moreover, on the inner surface of the femoral component, in addition to connecting to the fixation unit, a cone with three guide ribs located at an angle of 120 °, non-through grooves are made on the polymer insert for mating with the femoral component, and a through oval hole is made in the center of the insert, the major axis of which is parallel to the grooves, and the tibia component is in the form of a disk platform, in the center of which, on the surface mating with the polymer insert, a rod is made, and on the opposite side of the disk platform the disk platform stabilizer and cone with an internal through axial hole for the bolt and three guide ribs on the outer surface of the cone, located at an angle of 120 °, for connection with the fixing unit. 7. The kit according to claim 1, characterized in that the module of the elbow joint prosthesis consisting of a shoulder component, a polymer insert and a component of the forearm, the shoulder component being made with profile runners for sliding along the polymer insert, and the distal end for connecting to the fixation unit is provided a cone with three guide ribs on the outer surface, located at an angle of 120 °, and an internal through axial hole for the bolt; the cross-section of the polymer liner has an L-shaped outer surface and an inner radius surface on which non-through grooves are made to interface with the profile runners of the shoulder component, and a through oval hole is made between the grooves along the insert axis parallel to the grooves; a forearm component in the form of a disk platform corresponding to the dimensions of the polymer insert, in the center of which, on the surface mating with the polymer insert, a rod is located, and on the opposite side of the disk platform, in one piece with the platform, two cones with an internal through axial are made to connect with the fixing unit bolt hole and with three guide ribs on the outer surface, located at an angle of 120 °. 8. The kit according to claim 1, characterized in that in diaphyseal adapters consisting of an adapter body, a clamping head and a smooth stem, the adapter body with an internal through axial hole is supplemented on one side with a collet and a limiting protrusion, and on the opposite side for connection with the fixing unit performs a cone with an internal through axial hole for the bolt and three guide ribs on the outer surface of the cone, located at an angle of 120 °.

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