SU1110447A1 - Compressing fixative - Google Patents

Abstract

i. A COMPRESSING FIXER, made of titanium nickelide in the form of a rod with a curved end, is about that, in order to simplify the operation of osteosynthesis and ensure a constant compression of fragments, the rod is complete with longitudinal edges and curved along spirals. 2. The fixator according to claim 1, characterized in that the spiral-shaped bends are made at one end of the rod. 3. The latching device according to claim 1, of which is a linear one in the middle of its length. /

Description

The invention relates to medicine, namely to traumatology and orthopedics, and can be used in the treatment of marginal and comminuted metaepiphyseal fractures of the long tubular bones, as well as fractures of the ulnar and femoral bones.

A compressing fixer is known for osheosynthesis of metaepiphysary fractures of tubular bones made of titanium nickelrad as a rod with one curved condom and the other end split and longitudinally.

However, this clamp does not provide the necessary strength of osteosynthesis and constant compression of fragments due to the absence of edges and bends along the length of the rod. In addition, the installation and subsequent removal of the lock is difficult.

The purpose of the invention is to simplify the operation of osteosynthesis and ensure the constant compression of fragments.

This goal is achieved by the fact that in a compressing clamp made of titanium nickelide in the form of a rod with a curved end, the rod is made with longitudinal edges and isonut, in a spiral.

In addition, the spiral-shaped bends are made at one end of the rod, which is linear in the middle of its length.

Fig, 1 shows the proposed compressive retainer, equipped with spiral bends along the entire length of the rod, in Fig. 1. 2 shows the retainer, side view i in FIG. 3 - the same view in working condition; in fig. 4 - compressive retainer in the form of a rod with spiral-shaped bends at one of its ends; in fig. 5 - the same side view; in fig. 6 - lock in the working position; in fig. 7 is a compressing retainer having a straight portion in the middle of its length; in fig. 8 - the same, side view in working position.

Compressive retainer is made in the form of a rod, which has spiral-shaped bends 1, longitudinal edges 2 and a curved end 3.

The performance of the compressing retainer from nicr-titanium titanium, which has the effect of a hermetic-mechanical memory, ensures the restoration of the original

of the preset shape of the retainer in the working state after the preliminary deformation of the spiral-shaped bends 1, the longitudinal edges 2 and the bent end of the 3 rod at a temperature below -30 ° C,

Osteosynthesis with a titanium nickelide-specific fixative is performed as follows.

In case of a metaepiphyseal fracture, for example, the capitate of the humerus (Figures 1, 2 and 3) during the operation, the fracture site is exposed and the bone fragments are compared. From the side of the external pads, a 5 mm diameter channel is drilled through the broken metaepiphyseal roller of the capitate and block. Then, the compressing retainer (Fig. 1), the rod of which has helical bends with an outer diameter of 8 mm throughout, is sprayed with chloroethyl for 10-15 seconds, cooling it to a temperature below -30. Using crampon forceps, unbend the end 3, and spiral-shaped bends. 1 rods are deformed, reducing their outer diameter to 4-5 mm, due to which the total

 the length of the latch (Fig. 2). The retainer is then inserted into a previously drilled hole in the bone 4 and held for 20-40 seconds. During this time, in connection with a reverse phase transition, occurring upon contact heating of titanium nickelide to 37 ° C, the latch tends to assume a predetermined (original) shape, thereby ensuring that its spiral-shaped coils 1 are firmly seized in the bone canal and constant compress fragments (Fig. 3). .

In case of a fracture, for example, the upper 5 thirds of the ulnar diaphysis, during surgery, fragments are compared and using an awl with a diameter equal to the diameter of the medullary canal, for example, 9 mm, the latter is dissected from the ulnar process. Then, the compressing retainer, the core of which has spiral-shaped bends 1 at one of the ends (Fig. 4), the outer diameter of the spiral-shaped bends being equal to 12 mm, irrigated with chlorostil 10-15 s. At temperatures below -30 ° C, the end of the 3 rods are partially straightened with the help of crumbled tongs, and the spiral-shaped coils 1 are deformed, reducing the outer diameter of their 10 mm diameter to 8 mm, due to which the total length of the clamp increases by 7-10 mm Fig. 5). Then, the fixative is transferred to the surgical wound, inserted from the side of the olecranon 5 into the bone marrow canal of both fragments, and held for 20-40 seconds. During this time, in connection with the reverse phase transition, occurring upon contact heating of nickelide titanium up to 37 ° C, the fixative tends to assume a given (original) shape. As a result, the spiral-shaped bends 1 of the proximal part of the fixer are tightly wedged at the level of the trochanteric region of the femur, and the corresponding bends of the 4474 distal part of it are in the bone-brain channel of the distal fragment (Fig. 8), thereby ensuring stability of the osteosynthesis and constant compression of the fragments. Thus, the proposed compression fixator made of titanium nickelide in the form of a rod with a curved end, in comparison with the prototype, due to the presence of longitudinal edges and spiral bends along the length of the rod greatly simplifies the operation, increases the strength of osteosynthesis and provides constant compression of fragments, as a result which shortens the terms of treatment of patients, improves outcomes.

FIG. 2

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Claims (3)

1. COMPRESSING FIXATOR made of titanium nickelide in the form of a rod with a bent end, which is made with the fact that, in order to simplify the process of osteosynthesis and ensure constant compression of fragments, the rod is made with longitudinal faces and curved in a spiral. 2. The latch according to claim 1, from the point that the spiral-shaped bends are made at ¹ one end of the rod. 3. The latch according to claim 1, with the fact that the rod in the middle of its length is made directly linear. 1 1,111