RU2068241C1 - Compression-distraction apparatus - Google Patents

Abstract

FIELD: medicine, in particular, apparatuses for perosseous fixation and reposition of body fragments. SUBSTANCE: compression- distraction apparatus uses rings 1 and 2 with wire holders 4 and wires 3, arched supports 5 and 6 connected to the rings by means of threaded rods 13 and 14 and a reposition assembly made in the form of slide block 8 with holes, having mutually perpendicular axes, in which perosseous retainer 7 is installed; retainer 7 has the shape of a hook, whose working end is bent in the circumference arc. The ends of arched supports 5 and 6 are extended by the value of a doubled radius. EFFECT: reduced traumatism of treatment of fractured and injuries of bones due to exclusion of passage of perosseous retainers through the adjacent formations of soft tissues, preserving their anatomic structure as mush as possible; reduced time spent on mounting and dismantling of the apparatus. 2 cl, 1 dwg

Description

 The invention relates to medicine, namely to devices for transosseous fixation and reposition of bone fragments.

 Known compression and distraction apparatus G.A. Ilizarov (1), consisting of two rings and spokes, mounted on rings and clamps. Each ring consists of two halves pivotally connected to each other, fastened together in an assembled form by a clamp. The rings are interconnected by clamping screws, with the help of which the rings are brought together or removed with the crossing spokes fixed in them, passed through the fused bones into the peripheral and distal fragments.

 Also known is an apparatus for external fixation and reposition of bone fragments (2), consisting of a movable and fixed frame with pivotally mounted holders of bone retainers, a reposition unit associated with a movable frame, threaded ties and a visual inspection unit mounted on retainers. The movable and fixed frames are made in the form of half arcs with holes connected by several radially spaced slats. The reposition unit is made in the form of a half ring with slots.

 The closest analogue is the apparatus (3), which contains a support ring and a reversing ring, which have arc slots for accommodating spoke holders with two intersecting knitting needles. To the rings by means of screw pairs, respectively, a supporting arc-reponator is attached, having on the inner surface a gear rack connected to the corresponding ring by means of a worm pair. The rings are moved relative to each other with the help of drive units made in the form of rack-and-pinion gears, forming a single unit mounted on the arc-reponator. The reference arc and the arc-reponator are interconnected by a threaded rod and a gear rack rigidly connected to it.

 However, the known device has disadvantages.

1. In a known design using cross-knitting needles, while the angle of intersection is from 30-90 ^o . Moreover, the rigidity of fixation of fragments increases with an increase in the angle of intersection of the spokes, and this, in turn, leads to injury to nearby soft tissues, significantly limits the function of movement of the damaged limb.

 2. Crossing needles are passed through large arrays of soft tissues in the area of damage, which leads to purulent complications (from 7 to 30% of cases).

 3. The invasiveness of treatment also increases due to the complexity and duration of installation and dismantling of the apparatus (a large number of introduced spokes, ensuring their sufficient tension and fixation on the supports of the compression-distraction apparatus).

 4. The device using fixing elements in the form of knitting needles does not provide sufficient rigidity for fixing bone fragments.

Based on the current level of technology and the disadvantages inherent in the known compression-distraction apparatus, the task was set:
to reduce the morbidity of treating fractures and damage to bones by eliminating transosseous fixatives through adjacent soft tissue formations, preserving their anatomical structure and movement functions as much as possible, as well as reducing the time required to assemble and disassemble the device.

 The problem is solved as follows.

 New elements have been introduced into the compression-distraction apparatus for reposition and fixation of bone fragments, containing rings with spoke holders and spokes, arcuate supports connected to rings by threaded rods and reposition units connected with supports: the ends of arcuate supports are elongated and connected by a threaded rod which hosts the reposition unit, made in the form of a slider with holes having mutually perpendicular axes, in which a transosseous fixer has the form of a hook, the working end of which is bent a circular arc. In this case, the ends of the arcuate supports are elongated by a value of doubled radius.

 The significance of the distinguishing features lies in the fact that the connection of the ends of the arcuate supports with a threaded rod, on which the reposition unit is placed, made in the form of a slider with holes having mutually perpendicular axes, allows you to move the slider along the rod and eliminate the displacement of bone fragments of the damaged limb segment along width simultaneously or in stages over a period of time.

 The installation of a transosseous fixator in the form of a hook rod, the working end of which is bent along an arc of a circle, ensures its firm fixation and reduction of trauma to bone tissue and intraosseous vascular formations.

 The elongation of the ends of the arcuate supports by the value of the doubled radius is necessary to prevent injury to soft tissue formations in the fracture zone.

The interconnection and interaction of the elements of the technical solution ensures the achievement of a new technical result in solving the task, namely: to reduce the morbidity of treating bone fractures by eliminating transosseous fixators through soft tissues, especially near the joints, with maximum preservation of the anatomical structure and function of adjacent muscle formations, and also reduce the time to install and remove the device. The maximum preservation of the anatomical structure and function of soft tissue formations of the damaged limb is achieved by using one spoke in the distal and proximal ring, i.e. excluded the use of crossing at an angle of 30-90 ^o spokes. And additional intraosseous fixation rods with screw cutting at the ends are inserted parietally in the cortical layer of the damaged bone, without leaving the side from the opposite side of its insertion into the soft tissues, which also reduces their injury, while ensuring rigid fixation of bone fragments. The introduction near the fracture zone of transosseous fixators, made in the form of hooks, the working end of which is bent along an arc of a circle and strengthened in supporting arches. The fixators have only one entrance to the soft tissue and bone, since the hook of the fixer after its insertion is placed inside the medullary canal along its inner diameter, preserving the formation of the medullary cavity as much as possible.

 The compression-distraction apparatus is illustrated by a drawing, in which its general view is presented.

 The apparatus for reposition and fixation of bone fragments contains the distal 1 and proximal 2 rings with 3 spokes and a spoke 4, supporting arches 5 and 6 with transosseous clamps 7 and a reposition unit made in the form of a slider. In this case, the ends of the supporting arcs 5 and 6 are elongated by a value of doubled radius. On the elongated ends of the supporting arcs 5 and 6, holes are made in which threaded rods 9 are placed, fixed with nuts 10 and locknuts 11. On each arc on the threaded rod 9 a slider 8 is mounted with the possibility of movement along the rod. In the hole 12 of the slider 8, a transosseous retainer 7 is mounted with the possibility of movement in the vertical plane. Transosseous clamps 7 have a hook shape, the working end of which is curved in an arc of a circle. Rings 1 and 2, supporting arcs 5 and 6 are interconnected by threaded rods 13, and the arcs are additional screw rods 14. In addition, additional fasteners 15 with intraosseous locking rods 16 with screw thread at the ends are installed on the proximal 2 and distal 1 rings. Transosseous clamps 7, slider 8, screw rods 14, locking rods 16 and fasteners 15 are fixed with nuts 17 and locknuts 18.

 A compression-distraction apparatus with a combination of elements inserted into the bone (knitting needles 3, fixing rods 16 and transosseous fixators 7) is used as follows.

 The apparatus is assembled by connecting the distal 1, proximal 2 and supporting arcs 5 and 6 with threaded rods 13, and the arcs 5 and 6 with additional rods 14. Then, additional fasteners 15 are mounted on the proximal 2 and distal 1 rings. In the holes at the elongated ends threaded rods 9 with a slider 8. Avoiding conflict with muscles and tendons, through the tibia metaphyses in the frontal plane, one spoke 3 is inserted and fixed with tension to the rings 1 and 2 in the spoke holders 4. By rotating the nuts 17 and the locknuts 18, the rings 1 and 2 are moved along the threaded rods 13 until the damaged limb segment in length. After drilling the cortical layer on one side along the front surface of the damaged bone segment near the fracture or damage zone, transosseous fixators 7 are inserted into the fragments, fixing them in the hole 12 of the sliders. Eliminate the displacement of fragments in width by moving the slider 8 with the transosseous retainer 7 along the threaded rod 9 with the help of nuts 10 and fix with lock nuts 11. The displacement of the fragments in the front-back direction is eliminated by moving the transosseous retainer 7 up and down relative to the horizontal plane of the apparatus. Upon reaching the correct standing of bone fragments of the damaged limb, rings 1 and 2 are brought together, creating the necessary compression. After that, transossal-fixing rods 16 are inserted into the bone fragments, placing them parietally in the cortical layer of the tibia, and fixed in the fasteners 15 installed on the rings 1 and 2. In the process of reposition of the fragments, x-ray control is necessary.

 Thus, the compression-distraction apparatus can reduce the morbidity of treating fractures of long bones by reducing damage to adjacent soft tissue formations and preserving the limb, maximizing the preservation of the bone marrow canal and at the same time providing a higher rigidity of fixation of bone fragments (1.5-1.8 times ) The time required for installation and dismantling of the apparatus is also significantly reduced.

Claims (2)

 1. A compression-distraction apparatus comprising rings with spoke holders and knitting needles, arched supports connected to rings by threaded rods and reposition nodes connected to the supports, characterized in that the ends of the arched supports are connected by threaded rods, and the reposition units are made in the form of sliders with holes having mutually perpendicular axes with a threaded rod or transosseous clamp in the form of a hook placed in them, the working end of which is bent along an arc of a circle.  2. The apparatus according to claim 1, characterized in that the ends of the arcuate supports are elongated by a doubled radius.