RU2327431C1 - Apparatus for reduction and fixation of leg fracture - Google Patents

Abstract

FIELD: medicine; traumatology.

SUBSTANCE: apparatus comprises base, pin installation mechanism, pinned clip for thigh condyle and pinned clip for heel bone, two reduction detachable frames equipped with reponator fixators. Base is furnished with long slot. Pin installation mechanism consists of slotted half-arc, slotted slider, stand in telescopic bush with retainer nut, angle gage scale and arrow indicating pin direction. Slider is movable within slotted half-arc retainer nut. Half-arc is fixed on stand in telescopic bush to base. Angle gage scale is applied on horizontal platform fixed to element base. Pinned clip for thigh condyle is permanently joined with stand; the latter is movable within bush and screw fixation. Bush is movable within base slot. Pinned clip for heel bone is permanently joined with screw; the latter moves not rotating by nuts in bush; the latter is fixed with bolt in bush; the latter is permanently joined with stand; the latter is movable within bush and screw fixation, while latter bush is movable within base long slot. Detachable frames is furnished with arc slots for reponator fixators with screw sockets and fixed to base. Screw sockets are threaded on reponator fixators. Reponator fixators consists of thread segment and smooth body. Body end is cone-shaped with base smaller then body diameter.

EFFECT: reduced operation time; elimination of various bone fracture fragment displacements.

4 dwg

Description

The invention relates to medical equipment, namely to traumatology and orthopedics.

A known apparatus for reposition and extra-focal osteosynthesis of lower leg bones, containing a frame with rods and carriages in which frames with grooves and adjusting screws are installed, rings with knitting needles are placed within the framework [1].

A disadvantage of the known device is the inability to eliminate rotational displacements of bone fragments.

A known apparatus for reposition and fixation of bone fragments, containing staples with needles and needle holders, associated with extractors with reponing devices, and fasteners [2].

A disadvantage of the known apparatus is the inability to quickly reposition bone fragments in all planes as a result of the fact that reposition is performed separately in each plane using screw devices.

There are also a number of devices for reposition and fixation of bone fragments of the leg, supports for applying a compression-distraction apparatus [3].

The disadvantage of the latest inventions is the bulkiness, difficulties in sterilization and basically their possibilities are narrowed in solving only a few problems in the application of only one method of osteosynthesis.

The closest technical solution to the claimed one is the prototype device for reposition and fixation of fractures of the lower leg [4], which contains the base and the mechanisms of movement and fixation of the proximal and distal fragments placed on it, including staples with elements of bone fixation in order to simplify the combination of bone fragments in the horizontal plane, the bracket of the mechanism for moving the distal fragment is equipped with jaws made with the possibility of longitudinal movement. However, despite the advantage of this device compared to the above counterparts, it in turn also has a number of disadvantages. The device is bulky, which causes significant inconvenience to the patient. The essence of the invention lies in the combination of essential features sufficient to achieve the desired technical result, namely, to reduce the invasiveness of the operation, its simplification, improve the repositional qualities of the apparatus, which increase the efficiency of surgical treatment. The essence of the invention lies in the fact that the repair-fixing elements are metered into the cortical plate of the tubular bone without penetrating into the medullary canal, this makes it possible to make a controlled reposition of bone fragments. The purpose of the invention is to reduce the time of surgery, the elimination of all types of displacement of bone fragments, reliable retention of the tibia and free access to it throughout during the primary surgical treatment of open fractures, and when conducting knitting needles or rods and further installation of spoke, spoke-rod and rod extrafocal devices, in case of bone osteosynthesis of lower leg bones with screws and plates, i.e. the creation of the most versatile apparatus with various methods of osteosynthesis, which are currently widely used in traumatology and orthopedics, is at the same time simple in technical performance, simple and convenient during surgery. This essence lies in the fact that the apparatus for reposition and fixation of fractures of the lower leg bones, containing a base, characterized in that it is equipped with a device for holding knitting needles, a bracket with knitting needles for the condyles of the thigh and a bracket with knitting needles for the calcaneus, two repositionable detachable frames with reponators -fixers, the base is made with a longitudinal groove, the device for holding the knitting needle consists of a half-arc with a slot, a slider with a hole for the spoke, a stand in the telescopic sleeve with a fixing nut, a goniometric scale and an arrow , indicating the direction of the spoke, the slider has the ability to move in the half-arc slot and fix it with a nut, the half-arc is fixed on the stand in the telescopic sleeve to the base, the goniometer scale is applied on a horizontal platform fixed to the base of the element, the bracket with knitting needles for the femoral condyles is inseparably connected to the rack, the latter has the ability to move in the sleeve and fixation with screws, and the sleeve has the ability to be placed in the groove of the base, the bracket with the needles for the calcaneus is inextricably connected to the screw, after the bottom is moved without rotation using nuts in the sleeve, the latter is fixed with a bolt in the sleeve, the latter is connected inseparably to the stand, the latter has the ability to move in the sleeve and fixed with screws, while the last sleeve has the ability to be placed in the longitudinal groove of the base, split frames are made with arcuate slots for retainer-clamps with threaded couplings and are attached to the base, threaded couplings are screwed onto the clamps-fasteners, the clamp-on-turn consists of a threaded part and a smooth barrel part, the end of the working part is made in the form of a cone with a base smaller than the diameter of the working part.

Figure 1 shows the apparatus for reposition and fixation of fractures of the tibia, figure 2 shows the cross section of the screw 6, the bushings 10 and 12, the locking bolt 21, figure 3 shows a detachable frame with repaires-retainers, figure 4 shows reponator-latch. The apparatus of figure 1 is equipped with a device for holding the knitting needle, which provides high accuracy of the direction of movement of the knitting needle when applying the Ilizarov apparatus or spoke-rod apparatus. The knitting device consists of a half-arc 22 with a slot 34 and a slider 24 with a hole for the knitting needles to guide the needle in the desired direction, the slider 24 has the ability to move in the slot 34 of the half-arc 22 while loosening the nut 35 and is fixed by tightening the nut at the required level. The semi-arc 22 is fixed on the stand 26 in the telescopic sleeve 25 to the base, if necessary, you can change the height of the half-arc 22 by moving the stand 26 in the telescopic sleeve 25. The telescopic sleeve can be moved in the desired direction by loosening the locking nut 16 to the base 1. The device for holding the spoke is equipped with a goniometer a scale 19 applied on a horizontal platform fixed to the base of the element 9, which allows you to hold the needle at the required angle and an arrow 32 indicating the angle of the direction of the spoke. This device can be moved on the base 1 to the desired level of the leg. The apparatus (Fig. 1) consists of a base 1, at the base there are longitudinal grooves 23 in which there are bushings 2 with uprights 3 and 8, connected by brackets 4 and 5 with the possibility of longitudinal movement in order to simplify the comparison of oblique fragments, two split frames 31 ( Figure 3), interconnected by a tube 30, are also devices for holding knitting needles and are attached to the base 1. The design of the grooves, bushings and split frames is such that it excludes the rotation of the latter around its axis. The bushings 2 are mounted in the grooves 23 of the base 1 with a nut 16. The straps 13 with legs 14 are fixed on the base 1 with screws 17.

Racks 3 and 8 are moved vertically in the bushings 2 and are fixed in position by screws 18. The rack 3 is one-piece connected to the bracket 4. The column 8 is one-piece connected to the sleeve 12. In the sleeve 12 (Fig. 2), the sleeve 10 is fixed by means of a bolt 21 in which the screw 6 is moved horizontally by rotating the curly nuts 7 to eliminate the displacement of bone fragments along the length. The screw 6 does not rotate around its axis, since the sleeve 10 has a recess for the protrusion 11 of the screw 6. It is permanently connected to the bracket 5.

The technical solution of the described nodes of the apparatus allows accurate reponition and fixation of bone fragments of the lower leg, taking into account the anthropometric data of the patient, is used in both children and adults.

The device is used as follows: the device is sterilized by traditional methods: autoclaving, disassembled sterilization in dry heat cabinets. The device is easy to install, installation time is not more than 4-5 minutes. Kirschner’s spokes 15 are held through the condyles of the thigh and the calcaneus. These knitting needles are pulled and fixed with the help of retainers 20 in brackets 4 and 5. In the bracket 4, the hip is fixed, and in the bracket 5 the heel is fixed. The sleeve 2 and the stand 3 with the bracket 4 is rigidly fixed to the base 1 with the nut 16. Subsequently, the heel bone is pulled by moving the sleeve 2 with the stand 8 in the peripheral direction along the longitudinal groove 23 and fixation to the base 1 with the nut 16.

Taking into account the existing types of displacements of bone fragments, the displacement along the length and width by the rotation of the figured nut 7 is first eliminated. The bracket 5 and screw 6 are thus moved along the limb axis in the peripheral direction. Then, the rotational displacement is eliminated by turning the sleeve 10 and the screw 6. After that, the repositionable split frames 31 are installed in the fracture zone with three retainer-retainers 27 with screwed couplings 28 (Fig. 4). On each side of the frame are arcuate slots 33, where reponator-retainers 27 are mounted with screwed couplings 28 screwed on them and secured with locking bolts 21. The reponator-retainer 27 consists of a threaded part and a smooth working part 29 with a diameter of 3 mm. The end of the working part is made in the form of a cone with a base smaller than the diameter of the working part of about 2 mm. In this case, the resulting step prevents the penetration of the reponator-retainer 27 into the bone marrow cavity, they are inserted all the way with a pointed end first into the central fragment, the reponator-clamps are clamped by bolts 21, are inserted into the cortical layer of the bone in counter-rotation, then three reponator-fixators are inserted up to stop in the peripheral fragment and clamped with bolts. The rotation of the reponators-fixators correlate fragments first in one, then in another plane. An indicator of the accuracy of the reposition is the same height of the extremities of the ends of the retainer-retainers 27 in the repositionable split frames 31. Control radiography is performed with comminuted fractures and in case of doubt about the accuracy of the reposition. If necessary, focusing on radiographs, additional correction of fragments is performed by rotation of the corresponding reponator-clamps. After eliminating the displacement of bone fragments, the sleeve 10 is rigidly fixed in the sleeve 12 by a bolt 21. The size of the frames can be changed by moving the half-arches in the telescopic tube 30 depending on the individual dimensions of the lower leg of the patient, the height is also changed by moving the racks in the telescopic sleeves 2.

In the future, with open fractures, primary surgical treatment of the wound is performed or bone osteosynthesis is performed. In case of extra focal osteosynthesis by external fixation devices, spokes or rods are held in each of the fragments, taking into account the type and nature of the fracture using a device for holding the spokes. Closed intramedullary osteosynthesis with pins and rods is also possible.

The fulfillment of all the above conditions during surgery using this apparatus provides a sufficiently high positive result in the treatment of patients with injuries of long tubular bones.

Compliance with all the rules of extra focal osteosynthesis by external fixation devices creates undeniable conditions for reducing the time of surgery and increases the accuracy of reposition of fragments.

Information sources

1. SU 1074512, A61B 17/18.

2. SU 1068113, A61B 17/18.

3. A.I. No. 98069, Bulletin No. 461982.

4. SU 1024072, A61B 17/18.

Claims (1)

Apparatus for reposition and fixation of fractures of the lower leg bones, containing a base, characterized in that it is equipped with a knitting device, a bracket with knitting needles for the condyles of the thigh and a bracket with knitting needles for the calcaneus, two repositionable split frames with retainer-clamps, the base is made with longitudinal the groove, the device for holding the knitting needle consists of a half-arc with a slot, a slider with a hole for the knitting needle, a stand in the telescopic sleeve with a fixing nut, a goniometer and an arrow indicating the direction of the spoke the slider has the ability to move in the half-arc slot and be fixed with a nut, the half-arc is fixed on the stand in the telescopic sleeve to the base, the goniometer scale is applied on a horizontal platform fixed to the base of the element, the bracket with knitting needles for the condyles of the thigh is inseparably connected to the rack, the latter has the ability to move in the sleeve and fixing with screws, and the sleeve has the ability to be placed in the groove of the base, the bracket with the needles for the calcaneus is inseparably connected to the screw, the latter moves without rotation with by the power of nuts in the sleeve, the latter is fixedly connected with the bolt, the latter is permanently connected to the rack, the latter has the ability to move in the sleeve and fixed with screws, while the last sleeve has the ability to be placed in the longitudinal groove of the base, detachable frames are made with arcuate slots for reponators - fasteners with threaded couplings and are attached to the base, threaded couplings are screwed onto reponators-clamps, the reponator-clamp consists of a threaded part and a smooth working part, the end of the working part is olnen cone shaped with the base is less than the diameter of the working part.

Images