RU226608U1 - Device for compression loading of an implant for the medullary canal of the stump of the humerus with a rod for the prosthesis of an amputated limb - Google Patents

Abstract

The utility model is intended for use in prosthetics of an amputated limb in traumatology and orthopedics, contains a shoulder support, an orthosis, a bushing secured with screws in the orthosis, a spring and an adjusting screw with a locking lock nut, while the bushing with a pre-installed spring, an adjusting screw and a locking lock nut can be put on on a rod for the prosthesis of an amputated limb. Provides a reduction in the time of osseointegration. 2 ill.

Description

The utility model relates to the field of medicine, namely to traumatology and orthopedics, and can be used for osseointegration of implants with a compressive load on the bone during prosthetics of an amputated limb.

There is a known method of stimulating bone formation during intraosseous implantation, which includes creating a bed and introducing an implant. The intraosseous implant has a triangular profile thread with an angle of 30-55° and a pitch from 0.3 to 2.0. Regeneration and raising the level of bone tissue around the implant is achieved through the use of an intraosseous implant, the threads of which, under the action of chewing load, undergo elastic deformation with the formation of compression and tension zones in the bone tissue (invention patent RU No. 2226080).

The method is applicable for dental implants and provides for a chewing load, which is of an empirical nature.

The disadvantage of this method is that mechanical action on the implant does not always ensure the rigidity of its fixation in the bone and primary stability, which leads to subsequent resorption of bone tissue, a decrease in the quality of osseointegration and re-installation of the implant.

The closest is a system (RU patent for invention No. 2631631) for osseointegration of an implant with a compressive load on the prosthetic bone, which includes a tubular bone implant (RU patent for utility model No. 152558) containing a rod with a through channel and a head. The system with a compression load contains a device for regulating compression fixed in the orthosis, containing a lower glass secured with a screw on the head of the implant, in which a spring is installed, closed by an upper glass, in which an adjusting screw is installed, fixed with a lock nut.

When replacing a hand, in order to accelerate the osseointegration of the implant with bone tissue and the formation of osteoblasts on the surface of the implants, it is necessary to create controlled compressive stresses in the humerus in the longitudinal direction under conditions of rigid fixation of the implant. In the absence of primary stability of the implant, bone tissue resorption occurs, which leads to loss of its stability in the medullary canal until it falls out.

To reduce the time of osseointegration of the implant by compression load by creating compressive stresses in the longitudinal direction and increasing blood supply in the amputated bone, a device for compression loading of the implant for the medullary canal of the stump of the humerus with a rod for the prosthesis of the amputated limb is proposed, containing a shoulder support, an orthosis, a sleeve secured with screws in the orthosis , a spring and an adjusting screw with a locking locknut, wherein the sleeve with a pre-installed spring, an adjusting screw and a locking locknut can be put on the rod under the prosthesis of the amputated limb.

It is proposed to install a tubular bone implant of a more advanced design (invention patent RU No. 207637). A tubular bone stump implant with a through channel inside contains a head, holes, chip grooves, a rod with an internal thread has a lead-in stepped part with cutting cylindrical teeth, in the grooves of which there are holes connected to the through channel, and the diameter of each subsequent tooth of the lead-in step part is direction from the edge to the head increases by an amount Δ=0.10...0.15 mm and the calibrating part with cylindrical teeth, the diameter of which is equal to the diameter of the latter towards the tooth head of the lead-in stepped part, the ratio of the height of the calibrating part Hk and the height of the lead-in step parts Нз is Нк:Нз = 1:4, four chip grooves from the head to the leading part are made with a porous cellular surface structure, the cells of which are filled with bone material of the amputee (RU patent for utility model No. 207637 instead of the implant according to RU patent No. 2631631).

In fig. Figure 1 shows a device for compression loading of an implant for the medullary canal of the stump of the humerus with a rod for the prosthesis of an amputated limb (in section).

In fig. Figure 2 shows a general view of the device for compression loading of the implant for the medullary canal of the stump of the humerus with a rod for the prosthesis of the amputated limb.

A device for compression loading of an implant for the medullary canal of the stump of the humerus with a rod for the prosthesis of an amputated limb includes a tubular bone implant 1, a device for regulating compression, consisting of a sleeve 2 with a hole, secured with two screws 3 in the orthosis 4, a spring 5 is installed in the hole of the sleeve 2, creating a compression load on the implant 1 and the end of the bone 6 with an adjusting screw 7 secured by a lock nut 8. The device also contains a shoulder support 9. The sleeve 2 is made of caprolon with a hole corresponding to the diameter and length of the implant rod. Orthosis 4 is made individually for the prosthetic limb from low-temperature thermoplastic type turboplast, and provides protection of the implant from bending and torsion loads, as well as stable fixation of the compression device when regulating the load on the bone.

A device for compressive loading of an implant for the medullary canal of the stump of the humerus with a rod for the prosthesis of an amputated limb works as follows:

1. Install implant 1 in the following sequence. The soft tissues of the truncated limb segment are treated with an antiseptic. At the top of the stump, a skin incision is made sufficient to expose the bony part of the stump. It is freed from soft tissues and in the central part, in the area of the medullary canal, a hole is drilled according to the length and diameter of the implant being inserted. After this, the implant is pressed into the bone canal so that the edge of the amputated bone fits tightly to the head of the implant. Then the soft tissues under the head in the groove of the implant are sutured.

2. An antiseptic drug, 0.05% solution of chlorhexidine digluconate, is injected through the channel in the implant.

3. Put on the orthosis 4.

4. Install a device to regulate the compression load. A sleeve 2 with a pre-installed spring 5, an adjusting screw 7 and a fixing lock nut 8 is placed on the implant shaft 1.

5. The compression force is set by rotating the adjusting screw 6, which acts on a pre-tarred spring 5, which exerts pressure on the end of the implant and the bones.

6. In the postoperative period, dressings of the stump with the immersed implant are carried out until the sutures are removed. The loading device can be removed 2-3 weeks after surgery.

After the sutures are removed, the wound is healed, and X-ray control, which shows the area of bone tissue around the implant and the absence of resorption, the support mount is released, the orthosis and the compression loading device are removed. An external prosthetic limb is installed on the shaft of implant 1. The patient is offered a gradual functional load on the limb with the external prosthesis installed, excluding lateral (tangential) influences at the level of the protruding part of the implant and external prosthesis.

The use of the proposed device for compression loading of an implant for the medullary canal of the stump of the humerus with a rod for the prosthesis of an amputated limb makes it possible to reduce the time of osseointegration of the implant with a compression load by creating compressive stresses in the longitudinal direction and increasing blood supply in the amputated bone.

Claims (1)

A device for compression loading of an implant for the medullary canal of the stump of the humerus with a rod for the prosthesis of an amputated limb, containing a shoulder support, an orthosis, a bushing secured with screws in the orthosis, a spring and an adjusting screw with a locking lock nut, wherein the bushing has a pre-installed spring, an adjusting screw and a locking lock nut has the ability to be placed on a rod under the prosthesis of an amputated limb.