RU2549308C1 - Combined transosseous rod-type fixation apparatus for treating bone fractures with rigid connection joint - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: apparatus comprises the first transosseous rod-type fixation apparatus and transosseous elements. The first transosseous rod-type fixation apparatus comprises a long threaded rod, the first slides with two mutually perpendicular holes at a certain distance from each other, and configured to be fixed on the long threaded rod, e.g. by screw nuts in one of the holes of the first slides and to be fixed, e.g. by screw nuts of the first threaded cross rods in the second hole of the first slides. The apparatus has the second slides provided with two mutually perpendicular holes at a certain space from each other, fixed in the first hole, e.g. by screw nuts on the opposite ends of the first cross rods. In the second hole of the second slides, there are the first transosseous elements fixed, e.g. by screw nuts and arranged in one or more planes crossing at an angle of 0 to 30 degrees, and forming the first reposition and fixation joints together with the slides and threaded cross rod. The apparatus has the second reposition and fixation joints in the form of the third slides with two mutually perpendicular holes at a certain distance from each other, and configured to be fixed on the long threaded rod, e.g. by screw nuts in one of the holes of the third slides and to be fixed, e.g. by screw nuts of the second threaded cross rods in the second holes of the third slides. The apparatus has the fourth slides provided with two mutually perpendicular holes at a certain space from each other, fixed in the first hole, e.g. by screw nuts on the opposite ends of the second cross rods. In the second hole of the fourth slides, there are the second transosseous elements fixed, e.g. by screw nuts and arranged in one or more planes at an angle of 0 to 30 degrees. The planes of the second transosseous elements are arranged in relation to the plane of the first transosseous elements at an angle of 70 to 120 degrees. The apparatus has the second transosseous fixation apparatus similar to the first one, mounted on a bone of adjoining segments, two cross rods and four slides with two mutually perpendicular holes at a certain distance from each other, the first and second of which are attached through the first holes on the connected end of the long threaded rod of the first transosseous fixation apparatus. The third and fourth newly introduced slides are fixed through the first holes, e.g. by screw nuts on the connected end of the long threaded rod of the second transosseous apparatus. In the second holes of the first and third slides, there is the newly introduced first threaded cross rod fixed, e.g. by screw nuts. In the second holes of the second and fourth slides, there is the newly introduced second threaded cross rod fixed, e.g. by screw nuts.

EFFECT: more effective reposition and stabilisation of bone fragments and joints in extrafocal transosseous osteosynthesis, reduced length of operation, labour input of surgical and postoperative management, ensured delayed reposition, eliminated joint contracture, reduced length of postoperative rehabilitation and improved patient's quality of life.

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Description

A combined rod-type transosseous fixation device for treating bone fractures with a rigid connecting unit, comprising a rod-type transosseous fixation apparatus consisting of a longitudinal threaded rod, first sliders with two mutually perpendicular openings at some distance relative to each other, with the possibility of fixation on a longitudinal threaded rod , for example, with nuts in one of the holes of the first sliders and fixing, for example, with nuts of the first transverse threaded rods in the second from versts of the first sliders, transosseous elements. What is new is that the second sliders are introduced, made with two mutually perpendicular holes at a certain distance relative to each other, fixed in the first hole, for example, with nuts at the opposite ends of the first transverse rods, in the second hole of the second sliders, for example, the first transosseous elements are fixed with nuts located in one or more planes intersecting at an angle from 0 to 30 degrees, and together with the sliders and the transverse threaded rod constitute the first reposition-fixi knots, the second reposition-fixing knots, made in the form of third sliders with two mutually perpendicular holes at a certain distance relative to each other, with the possibility of fixing on a longitudinal threaded rod, for example, nuts in one of the holes of the third sliders and fixing, for example, nuts of the second transverse threaded rods in the second holes of the third sliders, the fourth sliders made with two mutually perpendicular holes at a certain distance relative to each other, is fixed in the first hole, for example, with nuts at the opposite ends of the second transverse rods, in the second hole of the fourth sliders are secured, for example, with nuts, the second transosseous elements located in one or more planes at an angle from 0 to 30 degrees, and the planes of the second transosseous elements are located relative to the plane of the first transosseous elements at an angle of 70 to 120 degrees, a second transosseous fixation device similar to the first, installed on the bones of adjacent segments, two transverse erasers were introduced nya and four sliders with two mutually perpendicular holes at some distance relative to each other, the first and second of which are fixed through the first holes on the connecting end of the longitudinal threaded rod of the first transosseous fixation device, and the third and fourth of the newly introduced sliders are fixed through the first holes, for example , with nuts on the connecting end of the longitudinal threaded rod of the second transosseous device, in the second holes of the first and third sliders is fixed, for example, with nuts the first a newly introduced transverse threaded rod, and in the second holes of the second and fourth sliders is secured, for example, with nuts, a second newly introduced transverse threaded rod.

DESCRIPTION OF THE INVENTION.

The device relates to medicine, traumatology and orthopedics, namely to the field of osteosynthesis, and can be used in the treatment of fractures and deformations of long tubular bones, injuries and diseases of the joints with an external fixation device.

The known method G.A. Ilizarova “The method of bone splicing during fractures and the apparatus for implementing this method” (VV Klyuchevsky “Surgery of injuries.” Rybinsk Press House. Yaroslavl - Rybinsk. 2004, p. 264). The Ilizarov apparatus, which implements a method consisting of rings with holes interconnected by longitudinal threaded rods, from mutually crossed spokes drawn through bone fragments, which are attached to the rings and then stretched.

The Ilizarov apparatus, which implements a method for fixing bone fragments to the apparatus rings with spokes and reposition in the apparatus, despite its widespread use, has drawbacks: kit complexity, complexity of assembly and application processes, the possibility of secondary displacements in the apparatus, difficulties in eliminating rotational displacements, limited possibilities of precisely controlled and strictly dosed hardware reduction. Also a drawback of all spoke devices is the intersegment passage of the spokes through the muscle arrays (muscles and tendons are fixed on both sides at the entrance of the spoke and at the exit), this leads to restriction of movements in adjacent joints, frequent inflammation of the tissues of the spoke canal, as the connection with the external the medium has knitting needles on both sides. Bulky ring supports with long-term treatment cause inconvenience to patients. After performing osteosynthesis with the Ilizarov apparatus, access to the wound is difficult in order to perform primary surgical treatment (PCP) or dressings, not to mention the stitching of blood vessels and nerves. The Ilizarov apparatus has the ability to rigidly fix the bones of adjacent segments by means of threaded rods with hinges, but this process is significantly time-consuming, the design is bulky and uncontrollable.

The well-known apparatus of the association of osteosynthesis (AO) of the pivotal type ("Traumatology and Orthopedics" in 4 volumes, edited by N.V. Kornilov. St. Petersburg, publishing house "Hippocrates", 2004, volume 1, s.339-340) . The AO device is of the rod type, consisting of a longitudinal smooth rod, sliders located on it, in which transosseous elements are made, made in the form of rods with a thread on the working end. The sliders have the ability to move along the rod and be fixed on it like clips with a clamp bolt, which simultaneously secures and transosseous elements.

The disadvantages of this apparatus is that it mainly performs the function of stabilization (fixation) of fragments. This apparatus makes reposition and correction of fragments difficult, as well as distraction, compression and stimulation of osteogenesis according to Ilizarov. This unit has the ability to fix two adjacent segments, but the fixation is very unstable and not controllable, and can only be temporary (such as transport immobilization).

Known rod compression and distraction apparatus (SKDA), a reposition unit for SKDA and a tool for axial movement of transosseous rods SKDA (RF Patent 2140224, authors Yugay V.P., Shepel AM, Kim O.P., publication date 1999.10.27, registration application number: 98122316/14, application filing date 1998.12.16). A rod compression and distraction apparatus containing a movable and fixed frame in the form of arcs with holes connected by longitudinal threaded rods, on which sliders are attached with fixed transosseous rods, each slide made of two latches connected by a fastening element, one of which is a transosseous rod retainer and the other with a rod retainer on the rod, as well as a reposition unit located between the frames.

The disadvantages of this apparatus are the complexity and bulkiness of the design, the complexity and duration of the operation, it is difficult to access the limbs in order to perform dressings and other manipulations. It is impossible for this unit to fix two adjacent segments in a rigidly unified design.

It is known "Device for external transosseous osteosynthesis" (USSR author's certificate No. 1090378 of 1982, I. A. Kataev and A. P. Predein, application 3484779 dated 07/07/1982, published 05/07/1984), containing a longitudinal threaded rod having the search, the sliders located on it with an opening for a longitudinal rod corresponding to its profile, and transosseous elements in the form of threaded rods associated with them with the possibility of lateral movement.

The disadvantages of this apparatus is that the fixation is made in one plane, this significantly reduces the stability of the fragments; the technique of fixing and reposition of fragments in the apparatus is quite laborious; design complexity; inability to eliminate rotational displacement. It is impossible to fix the joint and two adjacent segments with a rigidly unified design with this unit.

Known rod apparatus of external fixation (RF Patent 2071741, Voronov V.F., Borovchenkov V.V., publication date: 1997.01.20, registration number of the application: 94044078/14, filing date 1994.12.16), containing a longitudinal threaded rod, reposition-fixing knots installed on it with transosseous elements, each reposition-fixing knot is made in the form of a slider with holes for a longitudinal threaded rod and a transverse cavity made in the form of a “P” -shaped groove, the axis of which is perpendicular to the axis of the hole placed in the cavity of the butt river threaded rod with a hole at one end to accommodate the transosseous element and fixing nuts, each transosseous element made in the form of a rod with thread on the mounting end and smooth on the working end. This device has the following disadvantages - transosseous element is a rod, smooth at the working end. For this reason, it is unstable in the bone, there is a high probability of its migration. Fixation of fragments is made only in one plane. For this reason, fracture fixation is not stable enough. In the apparatus, the transverse rod is attached to the longitudinal using a slider in which there is a cavity (groove "P" -shaped). At its core, the slider is a modified double U-shaped equally directed frame (S. S. Tkachenko "Osteosynthesis". Leningrad, Medicine, 1987, p.204). Angular displacement is eliminated by rotating the nuts on the transverse shaft. When the nut loosens, the rod can move in the cavity (U-shaped groove) of the slider or jump out of it, that is, when the angular displacement is corrected, there is a high probability of a shift in width. Other disadvantages are that the transosseous element is fixed to the transverse rod in the hole drilled in the rod itself. This limits the maneuverability of fixation of the transosseous element and makes it impossible to fix the transosseous elements held at the same level (for example, a short bone fragment). If during reposition the angle of fixation of the transosseous element to the transverse rod changes, then to carry out the correction, it is necessary to loosen the nut, which also leads to a shift in width. It is impossible with this device to fix the joint and bones of two adjacent segments with a rigidly unified design.

Known apparatus for non-focal fixation of the rod type RU 2009103190 A (Salaev A.V.) from 01/30/2009, published on 08/10/2010.

Non-focal fixation apparatus, consisting of a longitudinal rod with repositionally fixing nodes, including transverse rods and hinges in which Shants screws are attached, repositionally fixing node includes two hinges, which allows multi-plane movement and fixation of fragments in an accessible position, Shants screws installed in a sagittal planes are fixed in a repositionally fixing unit, which is connected to the longitudinal rod by a hinge.

This device is the closest prototype, it has the following disadvantages: the device fixes bone fragments of only one segment. If two adjacent segments are damaged, then this unit is superimposed individually on the bones of each segment. But these two devices are not interconnected, as a result of which there is no single rigid design. Also, there is a need to fix the bones of two adjacent segments with: intraarticular damage to the bones, with periarticular fractures, with damage to the joints, with infection of the joints, with diseases of the joints, with damage to the ligaments of the joints. This unit does not allow to fix the joint rigidly and two adjacent segments. Also, this device does not allow to eliminate joint contracture.

Eliminate the above disadvantages will allow the proposed "Combined device transosseous fixation of the rod type for the treatment of bone fractures with a rigid connecting node."

The inventive device is aimed at increasing the efficiency of reposition and stabilization of bone fragments (both of one segment and adjacent segments) and joints with extrafocal transosseous osteosynthesis, to reduce the time for surgery, to reduce the complexity of surgical and postoperative treatment, to the possibility of delayed reposition, to eliminate joint contracture , to reduce the time of postoperative recovery and to improve the quality of life of the patient.

The task is carried out using a combined apparatus of transosseous fixation of the rod type for the treatment of bone fractures with a rigid connecting node.

A combined rod-type transosseous fixation device for treating bone fractures with a rigid connecting unit, comprising a rod-type transosseous fixation apparatus consisting of a longitudinal threaded rod, first sliders with two mutually perpendicular holes at some distance relative to each other, with the possibility of fixation on a longitudinal threaded rod , for example, with nuts in one of the holes of the first sliders and fixing, for example, with nuts of the first transverse threaded rods in the second from versts of the first sliders, transosseous elements. What is new is that the second sliders are introduced, made with two mutually perpendicular holes at a certain distance relative to each other, fixed in the first hole, for example, with nuts at the opposite ends of the first transverse rods, in the second hole of the second sliders, for example, the first transosseous elements are fixed with nuts located in one or more planes intersecting at an angle from 0 to 30 degrees, and together with the sliders and the transverse threaded rod constitute the first reposition-fixi knots, the second reposition-fixing knots, made in the form of third sliders with two mutually perpendicular holes at a certain distance relative to each other, with the possibility of fixing on a longitudinal threaded rod, for example, nuts in one of the holes of the third sliders and fixing, for example, nuts of the second transverse threaded rods in the second holes of the third sliders, the fourth sliders made with two mutually perpendicular holes at a certain distance relative to each other, is fixed in the first hole, for example, with nuts at the opposite ends of the second transverse rods, in the second hole of the fourth sliders are secured, for example, with nuts, the second transosseous elements located in one or more planes at an angle from 0 to 30 degrees, and the planes of the second transosseous elements are located relative to the plane of the first transosseous elements at an angle of 70 to 120 degrees, a second transosseous fixation device similar to the first, installed on the bones of adjacent segments, two transverse erasers were introduced nya and four sliders with two mutually perpendicular holes at some distance relative to each other, the first and second of which are fixed through the first holes on the connecting end of the longitudinal threaded rod of the first transosseous fixation device, and the third and fourth of the newly introduced sliders are fixed through the first holes, for example , with nuts on the connecting end of the longitudinal threaded rod of the second transosseous device, in the second holes of the first and third sliders is fixed, for example, with nuts the first a newly introduced transverse threaded rod, and in the second holes of the second and fourth sliders is secured, for example, with nuts, a second newly introduced transverse threaded rod.

The essence of the claimed object of the invention is illustrated: figure 1 - diagram of a combined apparatus for transosseous fixation of the rod type for the treatment of bone fractures with a rigid connecting node.

Figure

Figure 1 - diagram of the reinforced mounting between two parallel devices that fix the bones of two adjacent segments: 1 - a longitudinal threaded rod of the first transosseous fixation device; 2 - transverse threaded rod (first reposition and fixing nodes); 3 - transosseous element (Shants screw) (the first reposition-fixing nodes); 4 - a slider located on a longitudinal threaded rod (first reposition-fixing nodes); 5 - nut fixing the transosseous element in the slider 11; 6 - nut fixing the slider 11 on the transverse threaded rod; 7 - nut fixing the slider 4 on the longitudinal threaded rod; 8 - nut, fixing the transverse rod in the slider 4; 9 - bone of the first segment; 10 - transverse threaded rod (second reposition and fixing nodes); 11 - the second slider located on the transverse threaded rod and fixing the transosseous element (Shants screw) in the second hole (first reposition-fixing nodes); 12 - a slider located on a longitudinal threaded rod (second reposition and fixing nodes); 13 - transosseous element (Shants screw) (second reposition and fixing nodes); 14 - the fourth slider located on the transverse threaded rod and fixing the transosseous element (second reposition-fixing nodes); 15 is a longitudinal threaded rod of the second transosseous fixation apparatus; 16 - bone of the second segment; 17 - transverse threaded rod of the second connecting node; 18 - slider of the connecting node mounted on the longitudinal threaded rod 15 of the second transosseous fixation device; 19 is a slider of the connecting node mounted on a longitudinal threaded rod 1 of the first transosseous fixation apparatus; 20 - transverse threaded rod of the first connecting node; 21 - nut fixing the transverse threaded rod in the slider of the connecting node; 22 - nut fixing the slider of the connecting node on the longitudinal threaded rod of the second transosseous fixation device; 23 - a slider of the second connecting node mounted on a longitudinal threaded rod of the second transosseous fixation apparatus; 24 - slider of the second connecting node mounted on a longitudinal threaded rod of the first transosseous fixation device.

A combined rod-type transosseous fixation device for treating bone fractures with a rigid connecting unit, comprising a rod-type transosseous fixation apparatus consisting of a longitudinal threaded rod 1, first sliders 4 with two mutually perpendicular holes at a certain distance relative to each other, with the possibility of fixation on the longitudinal a threaded rod 1, for example, with nuts 7 in one of the holes of the first sliders 4 and fixing, for example, with nuts 8 of the first transverse threaded rods 2 in The second slider 11, made with two mutually perpendicular holes at some distance relative to each other, secured in the first hole, for example, nuts 6 at opposite ends of the first transverse rods, is introduced into the hole of the first sliders 4, transosseous elements 3. the second hole and the second sliders 11 are fixed, for example, with nuts 5, the first transosseous elements 3 located in one or more planes intersecting at an angle from 0 to 30 degrees, and together with the crawl by us and the transverse threaded rod, the first reposition-fixing nodes, the second reposition-fixing nodes, made in the form of third sliders 12 with two mutually perpendicular holes at a certain distance relative to each other, with the possibility of fixing on a longitudinal threaded rod 1, for example, nuts in one of the holes of the third sliders 12 and fixing, for example, nuts of the second transverse threaded rods 10 in the second holes of the third sliders 12, the fourth sliders 14, made with two mutually perpendicular and holes at a certain distance relative to each other, fixed in the first hole, for example, with nuts at opposite ends of the second transverse rods 10, in the second hole of the fourth sliders, for example, secured the second transosseous elements 13 located in one or more planes at an angle from 0 up to 30 degrees, with the planes of the second transosseous elements located relative to the plane of the first transosseous elements at an angle of 70 to 120 degrees, a second transosseous device similar to the first was introduced second fixation, mounted on the bones of adjacent segments, two transverse rods and four sliders with two mutually perpendicular holes at a certain distance relative to each other, the first 19 and second 24 of which are fixed through the first holes on the connected end of the longitudinal threaded rod 1 of the first transosseous fixation device, and the third 18 and fourth 23 of the newly introduced sliders through the first holes are fixed, for example, with nuts on the connected end of the longitudinal threaded rod 15 of the second transosseous device , in the second holes of the first 19 and third 18 sliders, for example, the first newly introduced transverse threaded rod 20 is fixed with nuts, for example, in the second holes of the second24 and fourth23 sliders, for example, the second newly introduced transverse threaded rod 17 with nuts.

Performance

A preliminary reposition is carried out by traction along the limb axis, then transosseous elements 3 and 13 (Shants screws) are inserted into fragments of a long tubular bone at least one into each fragment 9 in different planes taking into account topographic anatomy (at least two should be located in each bone fragment transosseous element installed in different planes). For example, one transosseous element is closer to the fracture line in one plane, the second transosseous element is closer to the joint in another plane, for example, perpendicular to the plane of the first transosseous element, or in the plane closer to the perpendicular plane of the first. At least two transosseous elements (in different planes) are installed in the fragments. For the bones of the upper limb, this is enough, but depending on the situation, for example, osteoporosis, long bones of the lower extremities, a large mass of the segment, three, four transosseous elements (at least one of which is located in a different plane) are placed in each fragment. The external fastening part of transosseous elements 3 and 13 are fixed in the apparatus in the holes of the sliders 11 and 14 using nuts 5. After the transosseous elements are fixed in the apparatus, control radiographs are performed and reposition is performed according to the radiographs.

Rotational displacement is eliminated by rotating the sliders 4 of the first reposition-fixing knots or sliders 12 of the second reposition-fixing knots around the longitudinal shaft 1. The sliders 4 are rotated when the nuts are loosened 7. The length offset is eliminated by the nuts 7. The width and angular offset can be eliminated by rotating the nuts 5 on transosseous elements 3 or by rotating nuts 8 or 6 on the transverse rod 2, depending on in which plane the offset is to be eliminated. Reposition is performed by moving in space one transosseous element installed in a bone fragment from one end (either closest to the fracture or closest to the joint), the transosseous element installed in this bone fragment from the other end remains stationary, and transosseous elements located between the two extreme by transient elements of one block, either temporarily weaken from fixation for the time of reposition, or their nodes are corrected for movement. If the fragment is short, for example, a periarticular fracture, then transosseous elements 3 and 13 are located in two planes almost at the same level. Fasten the transosseous elements in the apparatus, for example, by arranging the newly introduced sliders 11 and 14 towards each other (like two flags directed towards each other with holes for the transosseous element).

If the patient’s condition does not allow reposition on the operating table (severe combined trauma, traumatic shock), then only fixation of the transosseous elements installed in the fragments (fixation of fragments) is performed, and X-ray control and reposition are performed in the postoperative period after the patient leaves the traumatic shock and stabilization of his condition. (If there is only damage or disease of the joint, articular surfaces of the bones without violating the integrity of the diaphysis of the bones, then only the bones are fixed, without reposition, while the number of transosseous elements installed in each bone of adjacent segments can be from two to eight).

In cases where there is intraarticular damage to the bones and it is necessary to fix two adjacent segments (for example, a thigh and a shin, a shoulder and a forearm). In such cases, osteosynthesis of adjacent bone bones is performed separately, so that in the area of the affected joint, the ends of the longitudinal threaded rods 1 and 15 of the independent rod-type transosseous fixation devices for treating bone fractures are either on the same level or go one behind the other. Then, the longitudinal threaded rods of two independent devices in the area of the affected joint are interconnected as follows: the sliders 18 and 19 are installed on the ends of the longitudinal threaded rods, fastened with nuts 22, the transverse threaded rod 20 is installed in the second holes of the sliders 18, and fastened with nuts 21, it turns out the connecting node.

If it is necessary to fix two independent devices so that their longitudinal threaded rods are parallel, then to increase the rigidity of the structure they can be fixed by two connecting nodes, placing them one after another on the connected ends of the longitudinal threaded rods 1 and 15 of two independent devices, set two sliders 19 and 24 on the longitudinal threaded rod 1 and 18 and 23 on the longitudinal threaded rod 15 and connect them with transverse threaded rods 20 and 17. In this case, a stiff stable construction.

The proposed devices are industrially applicable in the field of practical health care, they will be useful and convenient to use both for civilian traumatologists and the military (especially for the mass arrival of the wounded, when the fastest fixation of a bone fracture is necessary, and reposition can be performed in a delayed period). The invention provides the possibility of closed reposition of fragments with a significant displacement. Improving the effectiveness of treatment is achieved due to the stable fixation of fragments and ensuring the dosed control of the reposition of bone fragments in width, length, as well as angular and rotational displacements, the time and invasiveness of the operation are reduced, the massiveness of the structure is reduced, and access to examination, dressings, and the performance of surgical procedures are increased.

The diameters of the holes in the sliders are made in accordance with the diameters of the longitudinal and transverse threaded rods and the diameter of the transosseous elements. The diameters of the longitudinal threaded rods are, for example, in the range of 8-12 mm, the diameters of the transverse threaded rods are, for example, in the range of 6-10 mm, the diameters of transosseous elements are, for example, in the range of 3-6 mm, depending on the segment being operated and the size the bone itself.

Patent studies on subclasses A61B 17/56 and A61B 17/66 and analysis of scientific and medical information reflecting the current level of known devices for extra focal fixation did not reveal devices identical to the one proposed. Thus, the proposed apparatus of extra focal fixation for the treatment of bone fractures with a rigid connecting node is new.

The proposed solution is not obvious and does not follow from the level of knowledge achieved in this area, which allows us to conclude that its criterion is “inventive step”.

Claims (1)

A combined rod-type transosseous fixation device for treating bone fractures with a rigid connecting unit, comprising a rod-type transosseous fixation apparatus consisting of a longitudinal threaded rod, first sliders with two mutually perpendicular holes at some distance relative to each other, with the possibility of fixation on a longitudinal threaded rod , for example, with nuts in one of the holes of the first sliders and fixing, for example, with nuts of the first transverse threaded rods in the second from versts of the first sliders, transosseous elements, characterized in that the second sliders are introduced, made with two mutually perpendicular holes at a certain distance relative to each other, fixed in the first hole, for example, with nuts at the opposite ends of the first transverse rods, fixed in the second hole of the second sliders, for example, with nuts, the first transosseous elements located in one or several planes intersecting at an angle from 0 to 30 degrees, and together with the sliders and the transverse with a threaded rod, the first reposition-fixing nodes, the second reposition-fixing nodes, made in the form of third sliders with two mutually perpendicular holes at a certain distance relative to each other, with the possibility of fixing on a longitudinal threaded rod, for example, nuts in one of the holes of the third sliders and fixing , for example, with nuts of the second transverse threaded rods in the second holes of the third sliders, fourth sliders made with two mutually perpendicular holes on some the distance relative to each other, fixed in the first hole, for example, with nuts on opposite ends of the second transverse rods, in the second hole of the fourth sliders, for example, secured the second transosseous elements located in one or more planes at an angle from 0 to 30 degrees, and the plane the second transosseous elements are located relative to the plane of the first transosseous elements at an angle of 70 to 120 degrees, a second transosseous fixation device similar to the first, installed on and the bones of adjacent segments, two transverse rods and four sliders with two mutually perpendicular holes at some distance relative to each other, the first and second of which are fixed through the first holes on the connecting end of the longitudinal threaded rod of the first transosseous fixation device, and the third and fourth of the newly introduced sliders through the first holes are fixed, for example, with nuts on the connected end of the longitudinal threaded rod of the second transosseous device, in the second holes of the first and third about the sliders are fixed, for example, with nuts the first newly introduced transverse threaded rod, and in the second holes of the second and fourth sliders are fixed, for example, with nuts the second newly introduced transverse threaded rod.

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