CZ193391A3 - external fixing device - Google Patents

Abstract

The external fixator is intended for the treatment of fractures with mutual fixation bone fragments with fixed anchors elements (1). It consists of at least one separate pair the clamping heads (2) of the anchoring elements (1), with each pair the individual clamping heads (2) is the least coupled one oscillating coupling member (11).

Description

The invention relates to an external fixator for the fixation of bone fragments to one another in the treatment of fractures, in particular an external fixator of the clamp type.

BACKGROUND OF THE INVENTION

The existing external fixators are generally formed by a rigid base body, at both ends of which clamping surfaces or clamps or holders are formed, for fastening anchoring elements which are anchored from one end of the external fixator in the proximal bone fragment and from the other end in the distal bone fragment. These fixators can be arranged as clamp from one side of the fracture or as frame from multiple sides. The disadvantage of the existing fixators is the fact that they do not allow the development of a controlled cyclic

stress at the fracture plane, since the bonds between the proximal and distal bone fragments realized by these fixators are solid.

SUMMARY OF THE INVENTION

This disadvantage is overcome by the external fixator according to the invention, which consists of at least one pair of individual clamping heads of anchoring elements, each pair of individual clamping heads being coupled by at least one oscillating coupler. Another object of the present invention is to provide a pair of clamping heads of anchoring elements which are attached to fastening arms, one of which is provided with a guide body and the other with an extensible body slidingly mounted in the guide body. it is connected at one end to the withdrawable body and the other end of which has an adjusting nut on the outside of the fixing arm and the guide body, under which the return spring is mounted. A coil is wound on the outer surface of the guide body and the adjusting screw inside the guide body is provided with an electromagnetic core, the adjusting screw being slidably mounted in the fastening arm.

An advantage of the external fixator according to the invention is its ability to induce oscillating motion with optimum amplitude and frequency, which is transmitted through the anchoring elements between the proximal and distal bone fragments. The oscillating movement is effected during the treatment of the fracture, while in the first phase of its treatment the external fixator also allows the solid fragments to bind together. The advantage of the external fixator is the fact that the external fixator thus designed simulates the natural gradual loading of the fracture without the need for patient cooperation, namely regular and optimal loading even when resting on the bed.

BRIEF DESCRIPTION OF THE DRAWINGS

An example of a specific embodiment of the solution according to the invention is shown in the drawing, in which the external fixator of the clamp type is shown in a front view and a partial section.

An example of an embodiment of the invention

The external fixator consists of one pair of separate clamping heads 2 of the anchoring elements 1, which are coupled by one oscillating coupler 11. This oscillating coupler 11 is formed by fastening arms 5 for attaching separate clamping heads 2, one of which is provided with a guide body 4 and the other The guide body further comprises a set screw 6, which is connected at one end to the guide body 3, the other end of which is slidably mounted in the mounting arm 5 with the guide body 4 and is out of its provided with an adjusting nut 9 under which the return spring 10 is mounted.

A coil 7a is wound on the outer surface of the guide body 4, and the adjusting screw 6 inside the guide body 4 is provided with an electromagnetic core 8.

In the first phase of fracture treatment, the coil 7 is disconnected from the power source and the adjusting nut 9 is fully tightened, thereby making the bond between the proximal and distal bone fragments formed by the anchoring elements up clamped in separate clamping heads 2 firm. According to the course of fracture treatment, by connecting the coil 7 to the power source _and releasing the adjusting nut 9, the oscillating movement of the oscillating coupler 11 is effected, the magnitude of the oscillating amplitude being continuously variable by the degree of loosening of the adjusting nut 9. an electro-magnetic core 8, the movement of which is transmitted by the adjusting screw 6 to the extension body 3, the return movement being provided by a return spring 40. Depending on the need and the course of treatment, by disconnecting the coil 7 from the power source, the oscillating movement which is transmitted to the fracture plane by the anchoring elements 1 can be stopped again or fixed again by tightening the adjusting nut 9 and fully compressing the return spring 10.

Industrial applicability

The solution according to the invention can also be used with frame-type external fixators, where the oscillating couplers 11 are inserted into all couplings between separate clamping heads 2 that extend through the fracture plane. In addition to the electromagnetic and mechanical oscillation of the oscillating coupler 11, pneumatic or hydraulic drives or combinations thereof may also be used.

Claims (2)

External fixator for the treatment of fractures with the fixation of bone fragments to each other by means of fixed anchoring elements, characterized in that it consists of at least one pair of individual clamping heads (2) of anchoring elements (1), each pair of individual clamping heads (2) coupled by at least one oscillating coupler (11). External fixator according to claim 1, characterized in that the paired clamping heads (2) of the anchoring elements (1) are fixed to the fixing arms (5), one of which is provided with a guide body (4) and the other with a telescopic body (1). 3), slidably mounted in a guide body (4), in which a set screw (6) is further provided, which is connected at one end to the extension body (3) and the other end of which is slidably mounted in the fixing arm (5) with the guide body (4) and is provided on its outside with a adjusting nut (9) under which the return spring (10) is mounted, the coil (7) and the adjusting screw (6) inside the guide body being wound on the outer surface of the guide body (4) (4) is provided with an electromagnetic core (8).