RU2141805C1 - Device for osteosynthesis - Google Patents

Abstract

FIELD: medicine, namely maxillofacial surgery. SUBSTANCE: device may be used for treatment of lower jaw fractures. Device has epiosseous and intraosseous components coupled with jumper bent twice so that components are positioned in parallel to each other but directed to opposite sides. Epiosseous component is essentially plate with holes, and intraosseous component is cylindrical rod split longitudinally on side of end face for 0.5-0.75 of its length over plane perpendicular to plate plane. Its tabs are bent to opposite sides for width equal to its 1.5-2 diameters in plane parallel to plane of plate. Intraosseous component has temperature of memory-of-form manifestation below than temperature of human body, and epiosseous plate temperature is higher than the above- indicated one. Device ensures protection against rotary shifts, reduction of operation time and decrease in overall dimensions of fixing appliance. EFFECT: reliable fixing of splinters. 14 cl, 4 dwg

Description

 The invention relates to medicine, namely to maxillofacial surgery, and can be used in the treatment of various fractures of the lower jaw, in particular in the field of the condylar process.

 A number of devices are known, made, in particular, from alloys with shape memory, which are used for both bone and intraosseous osteosynthesis. For example, a pin for intramedullary osteosynthesis, which is a rod of appropriate size, one end of which is split longitudinally into two petals, made of material with shape memory, allows intraosseous osteosynthesis of almost any tubular bone from the phalanx to the hip [1]. The principle of action is similar to that used in maxillofacial surgery for fractures of the lower jaw, an intraosseous fixator made of an alloy with a shape memory in the form of a rod split longitudinally at both ends. Moreover, at one end the angle between the petals is 150 degrees, and at the other - 90 degrees [2].

 These devices have several disadvantages.

 1. They are quite difficult to install, because when preparing channels for them in the proximal and distal fragments, the conditions for the exact alignment of these channels are required.

 2. These devices do not provide reliable fixation from rotational displacements.

 3. The execution of fixators with angles between the petals of 90 degrees leads to excessive constant pressure on the bone from the side of the petals after the manifestation of the shape memory effect, which can in turn lead to resorption of bone tissue and impaired self-fixation of the device in the bone and fixation of fragments among themselves.

 4. The bending of the petals at an angle of 150 degrees between themselves can lead to destruction of the material both in the manufacture and in the use of clamps.

 5. The implementation of these fixatives from materials with low temperatures of phase transition, that is, the temperature of the manifestation of shape memory, requires cooling and deformation under the operational use of chloroethyl, which is extremely undesirable for toxicological and economic reasons.

 Closest to the technical nature of the present invention is a device for compression osteosynthesis, selected for the prototype, made of materials with shape memory in the form of a wire staple, having a compression element in the form of an open ring in the middle osseous part, and 2 legs bent towards each other, one of which is 1.5 -2 times longer than the osseous part and is located parallel to it [3].

The device is used for fractures of the lower jaw of any location, as well as for fractures of small tubular bones. Before installation, the device is cooled with chloroethyl, the ring of the osseous part is stretched, and the legs are shaped, convenient for insertion into the bone. A long leg is inserted through an opening in one of the fragments into the bone marrow canal, and is advanced through the line (plane) of the fracture into the second fragment, i.e. carry out intraosseous fixation. The second leg is inserted into the hole in the second fragment. When spontaneously heated to a temperature of 36.6 ^o C, the device exhibits a shape memory effect and tends to take its original shape, providing fixation of fragments with constant compression between them.

 Due to the implementation of this device combined, i.e. bone and intraosseous fixation of fragments, provides stable osteosynthesis in fractures of the lower jaw of various locations. However, this prototype device has the following disadvantages.

 1. In preparing a through hole through both fragments passing between the cortical plates, i.e. in the medullary canal (cancellous bone), difficulties may arise due to the small thickness of the lower jaw bone.

 2. The execution of the osseous part of the bracket in the form of an open ring of wire with a diameter of 1.6 mm leads to excessively large sizes of extra-bone elements of the device. Sometimes, such structures cause deformations of the soft tissues of the face over the area of their introduction.

 3. The design of this device does not provide reliable fixation from rotational displacements, excludes the possibility of using it for the treatment of fractures of the lower jaw in the condylar process.

 4. The use of compression of the condylar process fragments is not always justified.

 The task of the invention is to eliminate these drawbacks and ensure reliable fixation of bone fragments in fractures of the lower jaw, including in the condylar process.

 The task is carried out due to the fact that the device for osteosynthesis consists of bone and intraosseous components located in parallel planes, but directed in opposite directions due to a jumper connecting them, bent twice in a certain way. Moreover, the osseous component is made in the form of a plate with holes, and the intraosseous component is in the form of a cylindrical rod, split from the side of the end to a length of 0.5-0.75 of the entire length of the rod longitudinally into two lobes along a plane perpendicular to the plane of the plate. In this case, the petals are bent in opposite directions in a plane parallel to the plane of the plate, a width equal to 1.5-2 diameters of the rod. In addition, the intraosseous component exhibits a shape memory effect at temperatures lower, and the osseous plate is higher than the temperature of the human body.

 The invention consists in the following. Due to the fact that the bone and intraosseous components are connected by a jumper bent twice so that both components are parallel directed in opposite directions, there is no need to drill a through hole through both fragments and the fracture plane, which greatly simplifies and accelerates the operation. The execution of the osseous part in the form of a plate with a thickness of 0.5- 0.7 mm and a width of 4-5 mm significantly reduces the overall dimensions of this component, which is especially important in the treatment of fractures of the bones of the facial skeleton. The splitting of the intraosseous cylinder longitudinally along the plane perpendicular to the plane of the plate, and the bending of the petals in a plane parallel to the plane of the plate, increases the reliability of fixation of bone fragments, especially from rotational displacements, which is very important in the treatment of fractures of the lower jaw in the condylar process. Splitting the cylindrical rod of the intraosseous component to a length of 0.5-0.75 from its entire length and bending the lobes to a width equal to 1.5-2 diameters of the rod provides, on the one hand, reliable self-fixation of the device in the distal fragment, and on the other, does not excessive pressure on the bone and, therefore, resorption of bone structures. The execution of the intraosseous component from a material with temperatures of the manifestation of shape memory below the temperature of the human body ensures the restoration of shape during spontaneous heating. The manifestation of the shape memory effect with a bone plate at temperatures above the temperature of the human body ensures that this component is in the body in a low-temperature - "soft" - state. Thus, the bone plate can be shaped to the maximum adapted to the surface of the bone, and at the same time, after suturing the wound, this shape is preserved.

The invention is illustrated by drawings, where shown in FIG. 1 is a side view, in FIG. 2 is a top view of the device in working condition. In FIG. 3 shows a top view of the device in a low-temperature (cooled) state after deformation, and FIG. 4 is a diagram of the use of the device. The device consists of a osseous component - a plate (1) with holes, an intraosseous component - a cylindrical rod (2), split longitudinally into two lobes, and a bridge (3), bent twice so that the osseous (1) and intraosseous (2) the components are parallel to each other and directed in opposite directions. The device is made of titanium nickelide, thermally treated so that the intraosseous component restores its former shape, i.e. exhibits a shape memory effect at temperatures slightly lower than the human body, and the osseous plate at temperatures slightly above 36.6 ^o C. Such materials do not require cooling with chloroethyl (-30 ^o C). To translate such alloys into a low-temperature - "soft" - state, it is sufficient to cool them to a temperature of 15 - 20 ^o C.

 The implementation of the proposed device with an intraosseous component, split into a length less than 0.5 of the length of the rod, as well as bending the petals to a width of less than 1.5 of the diameter of the rod will not provide the necessary level of self-fixation of the components in the distal fragment. Bending short petals (shorter than 0.5 length of the rod) to a width of more than 2 rod diameters will increase the curvature and, as a result, increase the local deformation to values higher than the permissible values at which the shape memory effect is not realized. An increase in the length of the petals more than 0.75 from the length of the rod and an increase in bending to a width of more than two diameters leads to an increase in pressure on the bone structures and to corresponding undesirable consequences.

The execution of the intraosseous component of a material with temperatures of manifestation of shape memory above 36.6 ^o C complicates or makes it impossible to warm it up to initiate the "operation" of the device. The execution of the osseous plate with temperatures of manifestation of shape memory below 36.6 ^o C makes it impossible to adapt the shape of the osseous component to the features of the bone relief of the lower jaw.

The proposed device is made of plates of titanium nickelide, for example, grade ТН-1, ТН-20 with a slight excess of nickel ((50, 2-50, 5)% Ni - remainder Ti). The geometric parameters of the device are as follows. The thickness of the plate and lintel is 0.7 - 0.8 mm, the width of the plate is 4-5 mm, the length is -25 mm, the jumper is 1.5-2 mm, the diameter of the intraosseous component is 2 mm, the length of the intraosseous component is 8 mm. The height of the curved bridge is 3-5 mm, the diameter of the hole is 2 mm. Giving the necessary form of the device - the bending of the jumper and petals is carried out at 550 - 650 ^o C. To ensure the proposed characteristics of the shape memory, that is, the temperature manifestation of the shape memory effect, the component of the device is subjected to heat treatments. The final processing of the product is carried out by chemical etching.

The proposed device is used as follows. Under local or general anesthesia, traditional access to the condylar process is obtained through a skin incision in the posterior maxillary region. After exposure of fragments in the head of the condylar (5) process from the plane of the fracture, a hole with a diameter of 2 mm is drilled to the length of the intraosseous component. The device is cooled in sterile physiological saline at 10-15 ^o C, deform the petals, moving them towards each other, give the plate a shape adapted to the surface of the bone. The device is placed in the prepared canal in the condylar process. As a result of self-heating of the device, its petals in the right position jam the intraosseous component in the bone. The fragments are aligned in the correct position, along the edge of the fracture plane on the large fragment, a small recess is created for the device jumper, and the extraosseous component of the device (plate with holes) is fixed to the bone surface of the lower jaw branch (6) using 2-3 self-tapping titanium screws (4 ) taken from the standard set for osteosynthesis of the lower jaw. The surgical wound is sutured in layers. The movements of the lower jaw do not cause mobility of the fragments.

 The device is extremely simple in design and very convenient to use, which allows it to be used in the operation of osteosynthesis and replantation of the head of the condylar process of the lower jaw, it is installed through typical operative access, reduces the time of the operation and practically eliminates secondary postoperative displacement of fragments. It does not require any new or additional tools.

Sources used in compiling the description:
1. Gunter V.E., Itin V.I., Monasevich L.A. et al. The effects of shape memory and their use in medicine. - Novosibirsk: Science, Sib. Dep., 1992, p. 344 - 348.

 2. USSR author's certificate N 1082416, A 61 B 17/18.

 3. USSR author's certificate N 1057026, A 61 B 17/18.

Claims (2)

 1. A device for osteosynthesis made of a material with a shape memory effect, consisting of a bone component and an intraosseous component parallel to it, characterized in that the bone component made in the form of a plate with holes and a cylindrical intraosseous component are interconnected by a jumper bent twice so that both components are directed in opposite directions, and the intraosseous component is split longitudinally from the end side to a length of 0.5 - 0.75 of its length along a plane perpendicular to the plane of the osseous plate, and its petals are curved in opposite directions to a width of 1.5 - 2 of its diameter in a plane parallel to the plane of the osseous plate.  2. The device according to claim 1, characterized in that the intraosseous component has a manifestation temperature of the shape memory effect below the temperature of the human body, and the bone component is higher.

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