WO2017111658A1 - Pedicle hook - Google Patents

Abstract

The present device relates to vertebrology and is intended for treating spinal disorders by surgical intervention. A pedicle hook comprises an intravertebral blade and an extravertebral fork-like portion, which are rigidly interconnected. The extravertebral fork-like portion is U-shaped with U-shaped faces comprised of walls that delimit an inner space of the extravertebral fork-like portion, said walls transitioning on the inner space side into a rounded seat. The intravertebral blade has a U-shaped configuration. This configuration is characterized by the presence of two arms and a curved link therebetween, wherein one of the arms which form the intravertebral blade has a recess in the end thereof. The blade is configured with an offset that is characteristic of a laminar hook with an offset blade. Furthermore, the intravertebral blade is inclined at an angle of from 15 to 18 degrees in an orthogonal direction relative to a plane that passes through the centre of the rounded seat parallel to the planes of the walls of the extravertebral fork-like portion. This provides for the maximum possible correction of spinal deformities during the surgical treatment of severe deformities of the thoracic spine.

Description

 Title of invention

 Pedicular hook

 Technical field

 The technical solution relates to medical equipment, to orthopedics, to traumatology, in particular, to vertebrology and can be used in the treatment of diseases of the spine by surgery.

 State of the art

Known pedicular hook (DK Tesakov, S. V. Makarevich, A. S. Amelchenya "Implantable design" Endocorrector-spine retainer - BelCD ", Medical News, 2008, N ° 7, S. S. 1 12-1 15, http: //www.mednovosti. By / journal aspx? Article = 3962) containing an intravertebral blade and an extravertebral tuning fork, rigidly connected to the blade. The pedicular hook is made open. The extravertebral tuning fork-shaped part is made U-shaped, with U-shaped ends, which comprise the walls forming the internal volume of the extravertebral tuning fork-shaped walls located in parallel planes, passing from the side of the internal volume in a round-shaped box. The walls are symmetrical with respect to the plane passing through the center of the rounded bed parallel to the planes of the walls. Outside, they are rounded and threaded. The round-shaped bed is designed to install a correction and stabilization rod placed in the internal volume. The extravertebral tuning fork is made with the possibility of fixing the hook to the rod with a clamping plate and a clamping nut, providing full rigidity and stability of the connection by creating maximum pressing contact of surfaces around the entire circumference of the rod. The extravertebral tuning fork part outside the bed area is rigidly connected to the intravertebral blade. The connection of the intravertebral blade with the extravertebral tuning fork part is localized on the side of one of the U-shaped ends of the extravertebral tuning fork part and is made with a smooth transition of the surface of the U-shaped end of the extravertebral tuning fork part to the surface of the blade. The intravertebral blade is made curved in its longitudinal direction, lying in a plane passing through the center of the rounded bed parallel to the planes of the walls of the extravertebral tuning fork part, dividing the blade into two equal parts, each of which is a mirror similar to the other. The surface of the U-shaped end of the extravertebral tuning fork part, from the side of which the connection of the intravertebral blade with the extravertebral tuning fork part is localized, smoothly continues in the surface of the blade with a large bend radius of curvature. The location of the intravertebral blade in space is limited by the plane of the surface of the U-shaped end of the extravertebral tuning fork-shaped part, from the side of which the connection of the intravertebral blade with the extravertebral tuning-fork part is localized, and by the plane in which the connection of the extravertebral tuning-fork part, with the extravertebral tuning-fork part, is located parallel to the longitudinal direction of the bed. At the end of the blade, by which the intravertebral blade is not rigidly connected to the extravertebral tuning fork part, a recess is made with the ability to save the specified mirror similarity of these parts of the blade, ensuring its use for adaptive fixation of the thoracic vertebrae for the lower articular process and the base of the arch of the segment in the cranial direction.

 The technical solution presented is characterized by the lack of achieving the maximum possible correction of deformity of the thoracic spine during surgical treatment of gross deformations of the thoracic spine. The reason that impedes the achievement of the following technical result is the non-compliance with the necessary requirements of the presented instrumental support of the operation in the form of a given set of implantable metal structures.

The pedicular hook was taken as the closest analogue (Catalog - 2014 “Implants and instruments for surgical treatment of the spine. Transpedicular fixation.” Osteomed, Russia, Moscow, 2014, p. 12, http://www.osteomed.ru/on sources / catalogs / transped web.pdf), containing an intravertebral blade and an extravertebral tuning fork, rigidly connected to the blade. The pedicular hook is made open. The extravertebral tuning fork-shaped part is made U-shaped, with U-shaped ends, which comprise the walls forming the internal volume of the extravertebral tuning fork-shaped walls located in parallel planes, passing from the side of the internal volume in a round-shaped box. The walls are symmetrical with respect to the plane passing through the center of the rounded bed parallel to the planes of the walls. Outside the walls are rounded. The round-shaped bed is intended for installation of a correction and stabilization rod placed in the internal volume. The extravertebral tuning fork part is configured to fix the hook to the rod. The walls located opposite each other are provided with two pairs of holes - round and elongated, with mutually orthogonal axes passing through their centers. From the side of the internal volume, the surface of the walls is made with a thread element. The extravertebral tuning fork part outside the bed area is rigidly connected to the intravertebral blade. The connection of the intravertebral blade with the extravertebral tuning fork part is localized on the side of one of the U-shaped ends of the extravertebral tuning fork part and is made with a smooth transition of the surface of the U-shaped end of the extravertebral tuning fork part to the surface of the blade. The intravertebral blade is made curved in its longitudinal direction, lying in a plane passing through the center of the rounded bed parallel to the planes of the walls of the extravertebral tuning fork part, dividing the blade into two equal parts, each of which is a mirror similar to the other. The surface of the U-shaped end of the extravertebral tuning fork part, from the side of which the connection of the intravertebral blade with the extravertebral tuning fork part is localized, smoothly continues in the surface of the blade with a large bend radius of curvature. The location of the intravertebral blade in space is limited by the plane of the surface of the U-shaped end of the extravertebral tuning fork part, from which the connection of the intravertebral blade with the extravertebral tuning fork part is localized, and the plane in which the connection of the extravertebral tuning fork part with an intravertebral blade delimiting the space of the extravertebral tuning fork part, which is parallel to the longitudinal direction of the bed. At the end of the blade, by which the intravertebral blade is not rigidly connected to the extravertebral tuning fork part, a recess is made with the possibility of preserving the specified mirror similarity of these parts of the blade.

The given closest analogue is characterized by the lack of achieving the maximum possible correction of deformation of the thoracic spine during surgical treatment of gross deformations of the thoracic spine. The reasons that impede the achievement of the following technical result include the following. The given technical solution does not allow to achieve reliable fixation of the corrective metal structure for the base of the vertebral arch during severe deformations due to the lack of the opportunity provided by the design, which would allow to increase the distance from the base of the vertebral arch to the axis of the metal structure. When mounting a metal structure and correcting spinal deformity, the load on the base of the arch is quite high. There is a need for bending the metal structure rod by the residual deformation of the thoracic spine. There is no possibility of performing distracting efforts on the hook during gross deformations of the spine due to a forced change in the axis of the hook. The support ability of the hook is insufficient with gross deformations of the spine due to a violation of the standing axis. In addition, the lack of the possibility of effective fixation of the thoracic vertebrae during the surgical treatment of gross deformities of the spine leads to a prolongation of the operation time. Disclosure of invention

 The objective of the proposed technical solution is to develop the design of the pedicular hook, which achieves the following technical result.

 The technical result is the achievement and preservation of the maximum possible correction of spinal deformity during surgical treatment of gross deformities of the thoracic spine.

The technical result is achieved by a pedicular hook containing an intravertebral blade and an extravertebral tuning fork part, in which the extravertebral tuning fork part is made U-shaped, with U-shaped ends, comprising the internal volume forming the extravertebral tuning fork part in the walls located in parallel planes from the sides passing from the sides rounded bed, these walls are symmetrical with respect to the plane passing through the center of the rounded bed, parallel to the planes of the wall arrangement, in which the extravertebral tuning fork-like part outside the bed area is rigidly connected to the intravertebral blade, in which the intravertebral blade having a U-shape, characterized by the presence of two branches and a curved link connecting them with a recess at the end of one of the forming branches, made with its displacement in the orthogonal direction from the plane passing through the center of the rounded bed, parallel to the planes of the ext avertebral tuning fork-like part, and the amount of displacement is characteristic of a laminar hook with an offset blade, that is, equal to the distance from the axis of the rod metal structures to the point of attachment of the hook to the vertebra, and, in addition, the intravertebral blade is made with a slope of 15 to 18 degrees, including the indicated values, in the orthogonal direction relative to the plane passing through the center of the round bed parallel to the planes of the walls of the extravertebral tuning fork part.

 In the hook, the intravertebral blade, having a U-shaped configuration, characterized by the presence of two branches and connecting them with a curved link, with a recess at the end of one of the branches forming the intravertebral blade, is made with its displacement in the orthogonal direction from the plane passing through the center of the rounded bed parallel to the planes the location of the walls of the extravertebral tuning fork, to the left.

 In the hook, the intravertebral blade, having a U-shaped configuration, characterized by the presence of two branches and connecting them with a curved link, with a recess at the end of one of the branches forming the intravertebral blade, is made with its displacement in the orthogonal direction from the plane passing through the center of the rounded bed parallel to the planes the location of the walls of the extravertebral tuning fork, to the right.

In the hook, a rigid connection of the extravertebral tuning fork-shaped part with an intravertebral blade having a U-shape, characterized by the presence of two branches and connecting them with a curved link, with a recess at the end of one of the branches forming the intravertebral blade of the branches, is made by rigidly fixing the extravertebral branch of the intravertebral cameriform vertebra U-shaped configuration without a recess at the end, while the curved link of the intravertebral blade of the U-shaped configuration connecting its branches is localized on the side of one of the U-shaped ends of the extravertebral tuning-fork part and is made with a smooth transition of the surface of the U-shaped end of the extravertebral tuning fork part to the surface of the blade.

 In the hook, the curved link of the intravertebral blade of the U-shaped configuration, connecting its branches, localized on the side of one of the U-shaped ends of the extravertebral tuning fork part, made with a smooth transition of the surface of the U-shaped end of the extravertebral tuning fork part into the blade surface, is formed with a bend in the direction in the longitudinal direction an intravertebral blade lying in a plane dividing the blade into two equal parts, each of which is a mirror image of the other, located at an angle of 15 to 1 8 degrees, including the indicated values, in the orthogonal direction relative to the plane passing through the center of the rounded bed and parallel to the planes of the walls of the extravertebral tuning fork part.

In the hook, an intravertebral blade having a U-shaped configuration, characterized by the presence of two branches and a curved link connecting them, with a recess at the end of one of the branches forming the intravertebral blade, is made in relation to its forming branch, provided with a recess at the end, as part of a rectilinear portion representing a flat section of a blade with rectangular shapes, smoothly joined with a curved link, and continuing a rectilinear section of the end section provided with the said recess at the end blades, the specified recess, having a rounded shape, is located in the center.

 In the hook, the surface of the U-shaped end of the extravertebral tuning fork-shaped part, on the side of which the curved link of the intravertebral blade is localized, smoothly continues in the surface of the blade with a large radius of curvature of the bend of the curved link, while the location of the intravertebral blade, having a U-shaped configuration, characterized by two connecting them with a curved link, with a recess at the end of one of the branches forming the intravertebral blade, in space is limited by the plane of the surface U-о different ends of the extravertebral tuning fork part, on the side of which the bent link is localized, and the plane in which the extravertebral tuning fork part is connected to the intravertebral blade due to the rigid fixation of the extravertebral tuning fork part to the branch of the extravertebral blade from the nonvertebral blade to the U-shaped configuration tuning fork part, which is parallel to the longitudinal direction of the bed.

In the hook, the bent link relative to the surface, which is a smooth extension of the surface of the U-shaped end of the extravertebral tuning fork, is made with a large bending radius of curvature of 5-6 mm, corresponding to a bending element representing a quarter of the circle, and with respect to the opposite surface with a smaller radius of curvature bending equal to 2.5-4 mm, corresponding to a bending element representing a semicircle, and the centers of the circles corresponding to the specified bending elements, with the specified radii, are located at the same point lying in the plane dividing the blade into two equal parts, each of which is a mirror image of the other, located at an angle of 15 to 18 degrees, including the indicated values, in the orthogonal direction relative to the plane passing through the center of the rounded bed and parallel to the planes of the walls of the extravertebral tuning fork.

 In the hook, with respect to the straight section, which is a flat section of a blade with rectangular shapes, smoothly joined with a curved link, and continues a straight section of an end section, provided with said recess at the end of the blade with a rounded shape and located in the center, the blade is made 7-9 mm wide and a thickness of 2-4 mm at its junction with a curved link at the end portion of the blade is made with the depth of the rounded shape of the recess in the longitudinal direction of the blade, comprising 3.5-4 mm, deepened in the longitudinal In the direction of the blade, the rounded shape of the recess is formed of the corresponding semicircle with a radius of 2-4 mm, the recess is made with semicircular walls that smoothly turn into straight walls diverging towards the end of the blade, to its sides, at an angle of 30-32 degrees, s rounding at the end of the blade when mating the straight walls of the recess and the sides of the blade with a radius of curvature of 1 mm

In the hook at the end of the blade — the end section, the closure of the surfaces of the blade — the surface, in relation to which the intravertebral blade in the part of the curved link is made with a large radius of curvature of the bend — 5-6 mm, continuing in the surface of the branch in the straight and end sections, and the surface, regarding which the intravertebral blade in part of the curved link is made with a smaller radius of curvature of bending - 2.5-4 mm, continuing in the surface of the branch in the straight and end sections - closing is ensured by bending the first mentioned surface to the second mentioned surface remaining on the straight and end sections of the straight line.

 In a hook in an intravertebral blade, having a U-shaped configuration, characterized by the presence of two branches and connecting them with a curved link, with a recess at the end of one of the branches forming the intravertebral blade, the branches are made diverging from the curved link with respect to their surfaces facing each other, under angle of 8-10 degrees.

 In the hook in the extravertebral tuning fork-shaped part, made U-shaped, the walls of the U-shaped ends are provided with holes, on each end of each wall there are two holes with a diameter of 1, 9 mm, with a distance between their centers of 4.5 mm, with a distance between the centers the holes of the adjacent ends of the adjacent walls located symmetrically relative to the plane passing through the center of the rounded bed and parallel to the planes of the walls of the extravertebral tuning fork-shaped part is 8.7 mm, while the centers of the holes are the most distant nnyh a bed, spaced 1 to 5 mm from the edge, most remote relative to the bed.

In the hook in the extravertebral tuning fork-shaped part, made U-shaped, with U-shaped ends, the walls on the outer side are provided with a pair located symmetrically relative to the plane passing through the center of the rounded bed and parallel to the planes of the walls of the extravertebral tuning fork part, side holes made with a diameter of 3.5 mm, the centers of the side holes are equidistant from the ends, and with respect to the edges of the walls farthest from the bed, the centers of the side holes are removed at a distance of 3.7 mm.

 In the hook in the extravertebral tuning fork-shaped part, made U-shaped, from the side of the internal volume, the smallest distance between the walls is 5.7 mm, and the radius of curvature of the round bed is 2.5-3 (under the rod) mm, from the side of the internal volume of the wall are equipped with elements threads, walls on the outer side are rounded with a radius of curvature of 14-16 mm.

 In the hook, the depth of the extravertebral tuning fork-shaped part, made U-shaped, is 8.5-9.5 mm.

 Brief description of figures, drawings

The essence of the technical solution is illustrated by the following attached figures. In FIG. 1. shows the types of pedicular hook on four sides (left to right): front view, side view on the left, rear view, side view on the right, where 1 is an intravertebral blade, 2 is an extravertebral tuning fork, 3 and 4 are walls, 5 is a bed , 6 - hole, 7 - side hole, 8 - recess. In FIG. 2. shows top views from the location of the extravertebral tuning fork (left to right): top view with the pedicular hook located in front, top view with the pedicular hook located with the left side, where 1 is the intravertebral blade, 3 and 4 are the walls, 5 is the bed 7 - side hole, 9 - thread element, 8 - recess. In FIG. 3 shows a side view of the pedicular hook on the left, where 1 is an intravertebral blade, 3 is a wall, 7 is a side hole, 9 is a thread element, 8 is a notch. In FIG. 4 shows a front cross-section of a pedicular hook section (when performing section B-B), and also an enlarged fragment of the wall of the extravertebral tuning fork part is shown, where 1 is an intravertebral blade, 3 is a wall, 7 is a side hole, 9 is a thread element.

 The best embodiment of the invention

The achievement of the above technical result is based on the following. In contrast to the above known technical solutions, the intravertebral blade of the proposed pedicular hook is made differently. Distinctive features include the implementation of the intravertebral blade 1 of the U-shaped configuration, characterized by the presence of two branches and connecting them with a curved link, with an offset (see Fig. 1 and 2). The displacement is carried out in the orthogonal direction from the plane passing through the center of the rounded bed 5, parallel to the planes of the walls 3 and 4 of the extravertebral tuning fork part 2. The amount of displacement is typical for a laminar hook with an offset blade (or offset laminar hook), that is, equal to the distance from the axis of the rod metalwork to the point of attachment of the hook to the vertebra. The implementation of the blade with offset allows you to combine the axis of the rod of the metal with the axis of the hook. That is, the rod can be spaced from the attachment point to the vertebra at a distance equal to the offset distance of the blade. This is not possible when using known pedicular hooks in the treatment of gross spinal deformities. Another distinctive feature is that the intravertebral blade 1 is made with an inclination at an angle a (Fig. 1-4). The angle a is from 15 to 18 degrees, including the indicated values. The inclination is made in the orthogonal direction relative to the plane passing through the center of the rounded bed 5, parallel to the planes of the walls 3 and 4 of the extravertebral tuning fork part 2. The specified inclination is due to the anatomical features of the thoracic vertebrae. When tilted at a different angle a, the load on the vertebrae at the place of hook fixation increases. The execution of the intravertebral blade 1 in this way, having a U-shaped configuration, characterized by the presence of two branches and a curved link connecting them, with a recess 8 at the end of one of the branches forming the intravertebral blade 1, makes it possible to install the end of the intravertebral blade 1 with a recess 8 for the base of the vertebral arch in the thoracic spine and increase the distance from the body of the hook to the supporting surface of the vertebra - the base of the arch. As a result, reliable fixation of the corrective metal structure is ensured for the base of the vertebral arch during severe deformations. The load on the base of the arch during installation of metal structures and correction of spinal deformity is reduced. Eliminates the need for bending the metal structure rod by the residual deformation of the thoracic spine. It is possible to perform distracting efforts on the hook during gross deformations of the spine, since the forced change in the axis of the hook is eliminated. Provides a high support ability of the hook with gross deformities of the spine due to the absence of violation of the axis of standing. Together, these positive opportunities ensure the achievement of the maximum possible correction of spinal deformity in the surgical treatment of gross deformities of the thoracic spine. In the General case, the implementation of the pedicular hook (see Fig. 1-4) contains an intravertebral blade 1 and extravertebral tuning-fork part 2. The extravertebral tuning-fork part 2 is made U-shaped, with U-shaped ends, comprising walls 3 and 4 arranged in parallel planes of the extravertebral tuning-fork part 2, passing from the side of the internal volume in the rounded box 5. Walls 3 and 4 are symmetrical with respect to the plane passing through the center of the rounded bed 5, parallel to the planes of the walls 3 and 4. The extravertebral tuning fork part 2 is rigidly connected to the intravertebral blade 1 from the outside in the area of the bed 5 (see Figs. 1 and 2). An intravertebral blade 1, having a U-shaped configuration, characterized by the presence of two branches and connecting them with a curved link, with a recess 8 at the end of one of the branches forming the intravertebral blade, made with its displacement in the orthogonal direction from the plane passing through the center of the rounded bed 5, parallel the planes of the walls 3 and 4 of the extravertebral tuning fork part 2 (see Fig. 1, 2 and 4). The amount of displacement is characteristic of a laminar hook with an offset blade (or offset laminar hook). In addition, the intravertebral blade 1 is made with an inclination (see Fig. 1). The angle of inclination a is from 15 to 18 degrees. The inclination is made in the orthogonal direction relative to the plane passing through the center of the rounded bed 5, parallel to the planes of the walls 3 and 4 of the extravertebral tuning-fork part 2. In particular cases of the implementation of the pedicular hook, the displacement characteristic of a laminar hook with an offset blade (or offset laminar hook) can be value 9.25-1 1.25 mm. In special cases, the implementation of the inventive pedicular hook intravertebral blade 1, having a U-shaped configuration, characterized by the presence of two branches and a curved link connecting them, with a notch at the end of one of the branches forming the intravertebral blade, made with its displacement in the orthogonal direction from the plane passing through the center of the rounded bed 5, parallel to the planes of the walls 3 and 4 extravertebral tuning fork part 2, to the left (see Fig. 1, 2 and 4) or to the right. In a pedicular hook, a rigid connection of the extravertebral tuning fork part 2 with an intravertebral blade 1, having a U-shaped configuration, characterized by the presence of two branches and connecting them with a curved link, with a recess 8 at the end of one of the branches forming an intravertebral blade 1, is made by means of rigid extratertebral fixation part 2 to the branches of the intravertebral blade 1 of the U-shaped configuration without a recess 8 at the end (see Fig. 1-3). In this case, the bent link of the intravertebral blade 1 of the U-shaped configuration connecting its branches is localized on the side of one of the U-shaped ends of the extravertebral tuning fork part 2. The specified link is made with the possibility of smooth transition of the surface of the U-shaped end of the extravertebral tuning fork part 2 to the surface of the intravertebral blade 2 1 (see Fig. 3). A curved link of the intravertebral blade 1 of the U-shaped configuration, connecting its branches, localized on the side of one of the U-shaped ends of the extravertebral tuning fork part 2, made with a smooth transition of the surface of the U-shaped end of the extravertebral tuning fork part 2 into the surface of the blade, made with a bend in the longitudinal direction (see Fig. 3). A bend is formed in the longitudinal direction of the intravertebral blade 1 lying in a plane dividing the blade into two equal parts, each of which is a mirror image of the other. The specified plane is located at an angle of 15 to 18 degrees, including the indicated values, in the orthogonal direction relative to the plane passing through the center of the rounded bed 5 and parallel to the planes of the walls 3 and 4 of the extravertebral tuning fork part 2 (see Fig. 1). An intravertebral blade 1, having a U-shaped configuration, characterized by the presence of two branches and connecting them with a curved link, with a recess 8 at the end of one of the branches forming the intravertebral blade 1, made in relation to its forming branch, equipped with a recess 8 at the end, consisting of two sections (see Fig. 1-3). Firstly, a straight section, which is a flat section of a blade with rectangular shapes, smoothly joined with a curved link. Secondly, continuing a straight section of the end section provided with said recess 8 at the end of the blade. The specified recess 8, having a rounded shape, is located in the center. The surface of the U-shaped end of the extravertebral tuning fork part 2, from the side of which the curved link of the intravertebral blade 1 is localized, smoothly continues in the surface of the blade with a large radius of curvature of the bend of the curved link (see Fig. 3). The location of the intravertebral blade 1, having a U-shaped configuration, characterized by the presence of two branches and connecting them with a curved link, with a recess at the end of one of the branches forming the intravertebral blade 1, is limited in space by two planes (see Fig. 3). Firstly, by the plane of the surface of the U-shaped end face of the extravertebral tuning fork-shaped part 2, from the side of which the curved link is localized. Secondly, by the plane in which the connection of the extravertebral tuning fork part 2 with the intravertebral blade 1 due to the rigid fixation of the extravertebral tuning fork part 2 to the branch of the intravertebral blade 1 of the U-shape without a recess at the end. The specified second plane delimits the space of the extravertebral tuning fork part 2 from the space of the intravertebral blade 1. The specified second plane is parallel to the longitudinal direction of the bed 5 and perpendicular to the first plane - the surface plane of the U-shaped end of the extravertebral tuning fork part 2, from the side of which the bent blade is localized . Curved link relative to the surface, which is a smooth continuation of the surface U- braznogo extravertebral kamertonoobraznoy end portion 2 is configured with a large bending curvature radius equal to 5-6 mm, with matching bending element representing a quarter circle (see. FIG. 3). The curved link relative to the opposite surface is made with a smaller radius of curvature of the bend equal to 2.5-4 mm, with the corresponding bending element representing a semicircle (see Fig. 3). In this case, the centers of the circles corresponding to the indicated bending elements with the indicated radii are located at the same point. The specified point lies in the plane dividing the blade into two equal parts, each of which is a mirror similarity to the other, located at an angle of 15 to 18 degrees, including the indicated values, in the orthogonal direction relative to the plane passing through the center of the rounded bed 5 and parallel to the planes the walls of the extravertebral tuning fork part 2 (see Fig. 1 and 3). The center of the circles is located in the orthogonal direction from the plane of the U-shaped end face of the extravertebral tuning fork part 2, from the side of which the curved link of the intravertebral blade 1 is localized, the surface of which is smoothly extended in the surface of the blade with a large bend radius of curvature of the curved link at a distance of about 5.5 mm. In the same direction, the thickness of the curved link is about 3.3 mm. With respect to the straight section, which is a flat section of a blade with rectangular shapes, smoothly joined with a curved link, and continues a straight section of an end section provided with said recess 8 at the end of the blade with a rounded shape and located in the center, the blade is made about 7-9 mm wide and a thickness of about 2-4 mm at its junction with a curved link. At the end section, the blade is made with the depth of the rounded shape of the recess 8 (see Fig. 2) in the longitudinal direction of the blade, which is about 3.5-4 mm. The rounded shape of the recess 9 deepened in the longitudinal direction of the blade is formed in accordance with its semicircle with a radius of 2-4 mm. The recess 8 is made with semicircular walls, smoothly turning into straight walls, diverging towards the end of the blade, to its sides, at an angle equal to about 30-32 degrees (see Fig. 2). At the end of the blade, when the straight walls of the recess and the sides of the blade are mated, curves with a radius of curvature of about 1 mm are formed. At the end of the blade — the end portion, the closure of the surfaces of the blade is framed (see Fig. 3). The closure of the surface is made, in relation to which the intravertebral blade 1 in the part of the curved link is made with a large radius of curvature of the bend - 5-6 mm, continuing in the surface of the branch in the straight and end sections, and the surface, in relation to which the intravertebral blade 1 in the part of the curved link made with a smaller radius of curvature of the bend - 2.5-4 mm, continuing in the surface of the branch in the straight and end sections. The closure is provided by bending the first surface to the second surface remaining on the straight and end sections of the straight line. In the intravertebral blade 1, having a U-shaped configuration, characterized by the presence of two branches and connecting them with a curved link, with a recess 9 at the end of one of the branches forming the intravertebral blade 1, the branches are made diverging from the curved link in relation to their surfaces facing each other, at an angle of 8-10 degrees (see Fig. 1-3). In the extravertebral tuning fork part 2, made U-shaped, the walls 3 and 4 with respect to the U-shaped ends are provided with holes 6 (see Fig. 1). At each end of each wall 3 and 4, two holes with a diameter of about 1, 9 mm are made. The distance between the centers of the holes 6 with respect to the same wall 3 or 4 of the same end is about 4.5 mm. The distance between the centers of the holes 6 of the adjacent ends of the adjacent walls 3 and 4, located symmetrically relative to the plane passing through the center of the rounded bed 5 and parallel to the planes of the walls 3 and 4 of the extravertebral tuning fork part 2, is about 8.7 mm. In this case, the centers of the holes 6, the most distant with respect to the bed 5, are located at a distance of 1, 5 mm from the edge of the end of the wall most remote with respect to the bed (see Fig. 1). In addition, in the extravertebral tuning fork part 2, made U-shaped, with U-shaped ends, there are also other holes. Walls 3 and 4 on the outer side are provided with a pair located symmetrically relative to the plane passing through the center of the rounded bed 5 and parallel the planes of the walls 3 and 4 of the extravertebral tuning fork part 2, the side holes 7 (see Figs. 1 and 3). Side holes 7 are made with a diameter of about 3.5 mm The centers of the side openings 7 are equidistant from the ends. Relative to the edges of the walls 3 and 4, the most distant relative to the bed 5, the centers of the side holes 7 are removed at a distance of about 3.7 mm (see Fig. 1). Holes 6 and side holes 7 are designed to provide manipulation of tools during the operation. In the extravertebral tuning fork part 2, made U-shaped, from the side of the internal volume, the smallest distance between the walls 3 and 4 is about 5.7 mm (see Fig. 2). The radius of curvature of the rounded bed 5 is 2.5-3 mm (see Fig. 1). From the side of the internal volume, the walls 3 and 4 are equipped with thread elements 8 (see Fig. 2-4), the distance between them can take a maximum value. On the outer side of the wall 3 and 4 are made in a rounded shape with a radius of curvature of 14-16 mm Thread elements 8 are intended for installation of a fixing bolt during the implementation of a pedicular hook to the implantable metal structure rod. The depth of the extravertebral tuning fork part 2 (see Fig. 1), made U-shaped, is 8.5-9.5 mm In a particular case, the dimensions of the pedicular hook: height is about 23.5 mm, width is about 23 mm, length is about 15 mm. The height of the extravertebral tuning fork part 2 is about 13.3 mm, its width is about 13.5 mm, and its length is about 10.5 mm.

 Industrial applicability

The pedicular hook is used as follows (see Figs. 1-4). Pre-exposure of the thoracic and lumbar spine in accordance with the operational plan. Prepare a nest for installing a pedicular hook by resection of the superior articular process of the superior vertebra and determine the localization of the base of the arch (arch root). Then install a pedicular hook, made with the displacement and inclination of the intravertebral blade 1, the notch 8 for the root of the arc of the vertebra. Install the remaining support elements. Upon completion of the installation, the metal structure rod is immersed in the hook, placing it in the internal volume of the extravertebral tuning fork part 2 in the bed 5. The rod is fixed due to the presence of thread elements 9 on the inner side of the walls 3 and 4 of the extravertebral tuning fork part 2. Then, the spinal deformity is corrected by rod rotation, distraction and compression of metal structure hooks.

Claims

Formula

 1. A pedicular hook containing an intravertebral blade and an extravertebral tuning fork, the extravertebral tuning fork is U-shaped,

5 with U-shaped ends, comprising the walls forming in the internal volume of the extravertebral tuning fork-like part of the walls located in parallel planes, passing from the side of the internal volume in the round-shaped bed, these walls are symmetrical with respect to the plane passing through the center of the rounded bed parallel to the walls a tuning fork part outside in the area of the bed is rigidly connected to the intravertebral blade, characterized in that the intravertebral blade having a U-shape I know the configuration, characterized by the presence of two branches

15 and a curved link connecting them, with a recess at the end of one of the branches forming the intravertebral blade, made with its displacement in the orthogonal direction from the plane passing through the center of the round bed, parallel to the planes of the walls of the extravertebral tuning fork part,

20, and the amount of displacement is characteristic of a laminar hook with a displaced blade, and, in addition, the intravertebral blade is made with an inclination of 15 to 18 degrees, including the indicated values, in the orthogonal direction relative to the plane passing through the center of the rounded bed parallel to

25 planes of the walls of the extravertebral tuning fork part.

2. The hook according to claim 1, characterized in that the intravertebral blade having a U-shaped configuration, characterized by the presence of two branches and a curved link connecting them, a notch at the end of one of the branches forming the intravertebral blade, made with its displacement in the orthogonal direction from the plane passing through the center of the rounded bed, parallel to the left planes of the walls of the extravertebral 5 tuning fork.

 3. The hook according to claim 1, characterized in that the intravertebral blade, having a U-shaped configuration, characterized by the presence of two branches and connecting them with a curved link, with a recess at the end of one of the branches forming the intravertebral blade, is made with its displacement in the orthogonal direction from the plane passing through the center of the rounded bed, parallel to the planes of the walls of the extravertebral tuning fork, to the right.

 4. The hook according to claim 1, characterized in that the rigid connection 15 of the extravertebral tuning fork with an intravertebral blade having a U-shape, characterized by the presence of two branches and connecting them with a curved link, with a recess at the end of one of the branches forming the intravertebral blade, is made due to rigid fixation extravertebral

20 of the tuning fork portion to the branch of the intravertebral blade of the U-shaped configuration without a recess at the end, while the curved link of the intravertebral blade of the U-shaped configuration connecting its branches is localized on the side of one of the U-shaped ends of the extravertebral tuning fork part and

25 is made with a smooth transition of the surface of the U-shaped end of the extravertebral tuning fork part into the surface of the blade.

5. The hook according to claim 4, characterized in that the curved link of the intravertebral blade is U-shaped, connecting its branches, localized from one of the U-shaped ends extravertebral tuning fork parts, made with a smooth transition of the surface of the U-shaped end of the extravertebral tuning fork part to the surface of the blade, is formed with a bend in the longitudinal direction 5 of the intravertebral blade lying in a plane dividing the blade into two equal parts, each of which is a mirror similar to another at an angle of 15 to 18 degrees, including the indicated values, in the orthogonal direction relative to the plane passing through the center of the rounded bed and parallel to the plane tyam th location extravertebral kamertonoobraznoy wall portion.

 6. The hook according to claim 4, characterized in that the intravertebral blade, having a U-shaped configuration, characterized by the presence of two branches and connecting them with a curved link, with a recess at the end of one of the generators of the intravertebral blade

15 branches, made in relation to its forming branch, equipped with a recess at the end, as part of a rectilinear section, which is a flat section of a blade with rectangular shapes, smoothly joined with a curved link, and continues a rectilinear section of the end section provided with the aforementioned

20 with a recess at the end of the blade, said recess having a rounded shape is located in the center.

 7. The hook according to claim 4, characterized in that the surface of the U-shaped end of the extravertebral tuning fork part, from the side of which the curved link of the intravertebral is localized

25 blade, smoothly continued in the surface of the blade with a large radius of curvature of the bend of the curved link, while the location of the intravertebral blade having a U-shaped configuration, characterized by the presence of two branches and connecting them with a curved link, with a recess at the end of one of the generators the intravertebral blade of the branches is limited in space by the plane of the surface of the U-shaped end of the extravertebral tuning fork part, on the side of which the curved link is localized, and by the plane in which connection 5 of the extravertebral tuning fork part with the intravertebral blade is made due to the rigid fixation of the branch of the extravertebral vertebral to the vertebral vertebral part - shaped configuration without a recess at the end, delimiting the space of the extravertebral kame rton-like part, which is parallel to the longitudinal direction of the bed.

 8. The hook according to claim 5, characterized in that the curved link relative to the surface, which is a smooth extension of the surface of the U-shaped end of the extravertebral tuning fork-shaped part, is made with a large radius of curvature

15 bending equal to 5-6 mm, corresponding to a bending element representing a quarter of a circle, and with respect to the opposite surface with a smaller radius of curvature of the bending equal to 2.5-4 mm, corresponding to a bending element representing a semicircle, and the centers of the circles, 0 corresponding the specified bending elements, with the indicated radii, are located at the same point lying in the plane dividing the blade into two equal parts, each of which is a mirror image of the other, located at an angle of 15 to 18 degrees, including I abovementioned meaning, in the orthogonal direction 5 with respect to a plane passing through the center circular bed and parallel to the planes of arrangement extravertebral kamertonoobraznoy wall portion.

9. The hook according to claim 6, characterized in that with respect to the straight section, which is a flat section blades with rectangular shapes, smoothly joined with a curved link, and continuing a straight section of the end section provided with the said recess at the end of the blade with a rounded shape and located in the center, the blade is made 5 of a width of 7-9 mm and a thickness of 2-4 mm at its junction with with a curved link, at the end portion, the blade is made with a depth of arrangement of a rounded shape of the recess in the longitudinal direction of the blade, comprising 3.5-4 mm, a rounded shape of the recess deepened in the longitudinal direction of the blade is formed by the corresponding half circles with a radius of 2-4 mm, the recess is made with semicircular walls, smoothly turning into straight walls diverging towards the end of the blade, to its sides, at an angle equal to 30-32 degrees, with roundings at the end of the blade when mating straight walls recesses and sides of the blade with

15 with a radius of curvature of about 1 mm.

 10. A hook according to Claim 6 and Claim 8, characterized in that at the end of the blade — the end portion, the closure of the blade surfaces — the surface with respect to which the intravertebral blade in the portion of the curved link is made with a large radius of curvature — is formed.

20 bends - 5-6 mm, continuing in the surface of the branch on the straight and end sections, and the surface in relation to which the intravertebral blade in the part of the curved link is made with a smaller radius of curvature of the bend - 2.5-4 mm, continuing in the surface of the branch on the straight and end

25 sections, - the closure is provided by bending the first surface to the second surface remaining on the straight and end sections of the straight line.

1 1. The hook according to claim 1, characterized in that in the intravertebral blade having a U-shaped configuration, characterized by the presence of two branches and a curved link connecting them, with a recess at the end of one of the branches forming the intravertebral blade, the branches are made diverging from the curved link with respect to their surfaces facing each other 5 at an angle of 8-10 degrees.

 12. The hook according to claim 1, characterized in that in the extrovertebral tuning fork shaped U-shaped, the walls of the U-shaped ends are provided with holes, on each end of each wall there are two holes with a diameter of about 1.9 mm, with a distance between their centers - about 4.5 mm, with the distance between the centers of the holes of the adjacent ends of the adjacent walls located symmetrically relative to the plane passing through the center of the round bed and parallel to the planes of the walls of the extravertebral tuning fork part,

15 - about 8.7 mm, while the centers of the holes farthest from the bed are located at a distance of 1.5 mm from the edge farthest from the bed.

 13. The hook according to claim 1, characterized in that in the extravertebral tuning fork part made by U-

20 shaped, with U-shaped ends, the walls on the outer side are provided with a pair located symmetrically relative to the plane passing through the center of the rounded bed and parallel to the planes of the walls of the extravertebral tuning fork part, side holes made

25 with a diameter of about 3.5 mm, the centers of the side holes are equidistant from the ends, and relative to the edges of the walls farthest from the bed, the centers of the side holes are removed by a distance of about 3.7 mm.

14. The hook according to claim 1, characterized in that in the extravertebral tuning fork shaped U-shaped, from the side of the internal volume, the smallest distance between the walls is about 5.7 mm, and the radius of curvature of the round bed is 2.5-3 mm, the walls are provided with thread elements from the side of the internal volume, the walls from the outside side are rounded with a radius of curvature of 14-16 mm.

 15. The hook according to claim 1, characterized in that the depth of the extravertebral tuning fork-shaped part, made U-shaped, is 8.5-9.5 mm