RU2598761C2 - Set of tools for implants - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medical equipment, is intended for use when inserting and removing of carbon nano-structured composite implants. Set of tools for introduction of carbon nano-structured composite implant compizes impactor for installation of disc between the vertebrae, impactor for implants of rectangular shape with replacement of defects of the vertebral bodies and metaphyseal portions of long bones, impactor for cylindrical implants at filling of cylindrical defects after necrotomy or after removal of bone cysts and tumor-like formations and forceps for laying of implants in a prepared bed in deep wounds. Impactor for installation of disc between the vertebrae is made in a shape of cylinder, one end of said cylinder is equipped with a slot for the implant, on the side of the second end is installed with possibility of longitudinal movement a piston, wherein that nozzle is fixed on its free end, the external surface of the last is corrugated. Impactor for implants of rectangular shape with replacement of defects of the vertebral bodies and metaphyseal portions of long bones is made in the form of stepped cylinder, one end of which is corrugated, is equipped with annular groove, rounded end face, wherein the last stage of the second end, said cylinder is equipped with thread, by means of which fork is installed on it for the implant. Impactor for cylindrical implants at filling of cylindrical defects after necrotomy or after removal of bone cysts and tumor-like formations is made in the form of a handle, which is made in the form of stepped cylinder, one end of which is equipped with grooves, circular groove and rounded end face, wherein at the second end a spherical boss is made, with blind threaded opening, through which there is possibility to install a sleeve for the implant. Forceps for laying of implants in a prepared bed in deep wounds has one end with two rings, connected with handles, made with possibility of rotation around axis, while on opposite ends are made corrugated tabs for gripping the implant.

EFFECT: invention is providing faster operation, quality of the implant installation, maintaining its integrity at installation and reliability in operation.

6 cl, 4 dwg

Description

The invention relates to medicine, in particular to medical equipment, is intended for use, when introducing and removing, carbon nanostructured composite implants.

A device for introducing implants (options) containing a tubular cannula equipped with a tip is known, the cannula also serving as a container for implants, a piston and a handle having a first end directed towards the cannula and a second end directed from the cannula. The piston and the handle are attached or made to be fixed to each other in a fixed manner, and the cannula is arranged to move in the longitudinal direction so that the piston is placed inside it. After insertion of the implant or implants, the cannula can be pulled to the top of the piston with the possibility of covering the cannula tip with a handle or an element connected to the handle, and / or cannula, when pulled to the extreme position towards the second end of the handle, is irreversibly fixed relative to the piston. The handle is provided with a channel extending in its longitudinal direction. The channel provides the ability to move the cannula in the longitudinal direction, and the end directed from the tip of the cannula is equipped with a button (Patent No. 2234342 RU, publ. 20.08.2004).

However, the known device has a complex structural solution and is not intended for use in traumatology and orthopedics with the introduction of carbon nanostructured composite implants.

Known arthromedullary implant made cannulated, including a through channel, made with the possibility of selecting bone fat with a through channel with an inlet and outlet openings, with the possibility of performing a surface and / or shell of a through channel, providing them with a tight pressure connection of the restored ligament to the bone, with ensuring the connection of the intraosseous space with the articular cavity, with the possibility of making holes on the surface and / or the sheath of the through channel with ensuring ointegratsii, to execute an end surface and / or through channel shell with threaded connection for a tool for screwing (Patent №92321 RU, publ. 20.03.2010).

However, in the known implant is not presented a set of tools designed for its introduction.

A device for introducing bone grafts is known, comprising a tubular body and a rod installed in it with a handle at the proximal end and with a cutting part at the distal end, in which the working end of the body is cone-shaped and provided with a cone thread, and the end face is made in the form of a wave-shaped cutting edge ( Patent No. 33306 RU, publ. 20.10.2003).

A known tool for introducing an intramedullary implant containing a handle in which the tube is fixed with a screw (Patent No. 107040 RU, publ. 10.08.2011).

However, the known tool is not intended for the introduction of carbon nanostructured composite implants.

A known group of inventions "Tools for inserting and removing lacrimal implants", in which the tool for inserting the implant contains a housing, the far part is made to hold the implant on its outer surface and has an internal cavity with an internal depth limiter, in addition, the tool contains a piston, the latter is made with the possibility of movement in the internal cavity for engagement with the implant and its ejection, while this piston contains a stop, which has the ability s interaction with the internal depth stop (Patent №2482822 RU, publ. 27.05.2013).

However, the known instruments are not intended for their use in traumatology and orthopedics with the introduction of carbon nanostructured composite implants.

In the investigated prior art there are no solutions characterizing a set of tools designed for the introduction of carbon nanostructured composite implants of various sizes.

The objective of the present invention is to develop convenient tool designs for the introduction of implants of various sizes, the solution of which is manifested in reducing the time of surgical intervention, the quality of implant placement, maintaining its integrity during installation and reliability in operation.

The problem is solved in that the set of tools for implants contains an impactor for small implants, an impactor for immersion of large implants, a forceps, a handle for glasses, a dimensional line of forks and glasses, while:

- the impactor for small implants is made in the form of a cylinder, one of the ends of the specified cylinder is equipped with a slot, a piston is mounted with the possibility of longitudinal movement on the side of the second end, while a nozzle is fixed on its free end, the outer surface of which is grooved, the cylinder is made no more than 185 mm and a diameter of not more than 9 mm, the slot is made with a diameter of not more than 6 mm and a length of not more than 28 mm, the nozzle is made in the form of a sleeve with an outer diameter of 12 mm, an inner diameter of not more than 4 mm, a length of not more its 20 mm;

- the impactor for immersion of large rectangular implants is made in the form of a stepped cylinder, one end of the last is grooved, equipped with an annular groove and a rounded end, while at the second end of the specified cylinder the last step is equipped with a thread, through which one of the forks of the dimension line is mounted on it, and the stepped cylinder is made with a length of not more than 190 mm, with a diameter of not more than 18 mm, the line of forks is made with diameters of not more than 18 mm, 24 mm and 30 mm, each of the forks of the dimensional ruler is bounded by a horizon lnymi planes, oppositely disposed, a slot is not more than 10 mm deep and threaded hole, wherein the last impaction stage cylinder for dipping is equipped with large implants thread;

- the handle for the glasses is made straight or curved in the form of a stepped cylinder, one end of which is equipped with corrugations, a circular groove and a rounded end, while the boss has a spherical shape in which a blind threaded hole is made, through which one of the glasses can be installed a dimensional ruler, while the section between the corrugated part and the boss is deflected by an angle of at least 55 ° from the longitudinal axis of the corrugated part of the key, the distance from the end of the boss and the upper line of the outer diameter of obviously no more than 111 mm, the diameter of the blind hole is not more than 6 mm, the dimensional ruler of the glasses is made with diameters of no more than 16 mm, 20 mm and 25 mm, the overall length of the key is no more than 228 mm, in addition, each of the glasses of the dimensional ruler is made in a sleeve with a blind end on which a cylindrical protrusion equipped with an M6 thread is made;

- the forceps has rods, one end of which is equipped with two rings, the rods are interconnected to rotate around an axis, while grooved paws are made at their opposite ends, by means of which the implant is captured and immersed in deep wounds.

The present invention is illustrated by a detailed description and diagrams in which:

FIG. 1 shows a top view, a top view of an impactor for small implants and a section through the plane AA of the flattened end of the impactor, on a 1: 1 scale, according to the invention;

FIG. 2 illustrates a main view of an impactor for immersion of large rectangular implants with a plug installed, a left view and a view of A plug, on a 1: 1 scale, according to the invention;

FIG. 3 shows the main view of the handle for glasses, in two versions, a dimensional ruler of glasses and their section, in a scale of 1: 2, according to the invention;

FIG. 4 shows a top view of a forceps according to the invention.

The set of tools for implants contains an impactor 1 for small implants, an impactor 5 for immersing large rectangular implants, a handle 9 for glasses, a dimensional line of forks 6 and glasses 12, forceps 15 (Fig. 1, 2, 3, 4).

Impactor 1 for small implants is made in the form of a stepped cylinder (hereinafter impactor 1) (Fig. 1). One end 2 of the specified cylinder is equipped with a slot 3. At the last stage of the other end of the specified cylinder, a piston is installed, with the possibility of longitudinal movement, equipped with a nozzle 4, the outer surface of which is grooved. Impactor 1 is made with a length of not more than 185 mm and a diameter of not more than 9 mm. Slot 3 is made with a diameter of not more than 6 mm and a length of not more than 28 mm. The nozzle 4 is made in the form of a sleeve, in which the outer diameter is 12 mm, the inner diameter is not more than 4 mm, the length is not more than 20 mm.

Impactor 5 for immersion of large rectangular implants is made in the form of a stepped cylinder (hereinafter impactor 5) (Fig. 2). One end of the cylinder is made corrugated, equipped with an annular groove, a rounded end. At the second end of the specified cylinder, the last stage is equipped with a thread. Through the latter, one of the forks of the 6th dimensional line is installed on it. Each of the forks 6 of the dimension line is bounded by horizontal planes oppositely located. In addition, it has a slot 8 with a depth of not more than 10 mm and a threaded hole 7. Impactor 5, in the form of a stepped cylinder, is made with a length of not more than 190 mm and a diameter of not more than 18 mm. The line of forks 6 is made with diameters of not more than 18 mm, 24 mm and 30 mm.

The handle 9 for glasses is made in the form of a stepped cylinder straight and curved (Fig. 3). One end of the specified cylinder is equipped with corrugations, a circular groove and a rounded end. At the second end, a boss 10 of spherical shape is made. In boss 10, a blind threaded hole 11 is made, by means of which it is possible to install one of the glasses 12 of the dimension line. In this case, the section between the corrugated part and the boss can be deviated by an angle of at least 55 ° from the longitudinal axis of the corrugated part of the handle 9. The distance from the end of the boss 10 and the upper line of the outer diameter is not more than 111 mm. The diameter of the blind hole 11 is not more than 6 mm. The size range of glasses 12 is made with diameters of not more than 16 mm, 20 mm and 25 mm. The overall length of the handle 9 is not more than 228 mm. In addition, each of the glasses 12 of the dimension line is made in the form of a sleeve with a blind end, on which a cylindrical protrusion 13 is made, equipped with M6 thread, and an internal slot 14 made in the size line of not more than 10.4 mm, 15.4 mm and 20 , 4 mm.

The forceps 15 is made in the form of two rotatably connected rods, on one end of which rings are made, on the other end of the rods, corrugated tabs 16 are made. Using the latter, the implant can be gripped and immersed in deep wounds.

Use a tool kit for implants as follows.

Impactor 1 for small implants is used to install implants during surgery after removal of a degeneratively modified disc as follows: a carbon implant is inserted into the longitudinal slot 3 of impactor 1 (Fig. 1). Using impactor 1, the implant is brought to the place of its placement in place of the removed disk. A piston that is longitudinally moved by means of a nozzle 4 inside the cylinder, the implant is squeezed out of the slot 3 and placed in a prepared bed between the vertebrae.

Impactor 5 is used for immersion of large rectangular implants to replace defects in vertebral bodies after sequestrectomy with osteomyelitic and tuberculous lesions, as well as after removal of tumor processes in the vertebral bodies and metaphyseal sections of long bones (Fig. 2).

First, the removal of pathologically changed bone sections is performed in accordance with the size of the implant (s). Then, the plug 6 is screwed to the cylindrical handle of the impactor 5 using a threaded hole 7 of the appropriate size into which the implant is inserted to place it in the prepared bed. Then, by blows with a hammer on the free end of the impactor 5 from the rounding side, the implant, mounted in the slot 8 of the plug 6, is inserted into the prepared bed until it fits snugly against the surrounding bone. Coating the implant with a metal fork 6 prevents it from destruction upon impact with a hammer. After installing the implant in the prepared bed fork 6 is removed.

An impactor in the form of a handle 9 for glasses (Fig. 3) for large cylindrical implants is used when filling cylindrical defects after sequestrectomy or after removing bone cysts and tumor-like formations.

After preparation in the affected area of the bone bone bed conical or spherical mill with a diameter equal to the diameter of the implant, the latter should fit snugly against the walls of the prepared bed. In the boss 10 of the handle 9, through a blind threaded hole 11, a glass 12 of an appropriate size is screwed with a cylindrical protrusion 13. An implant is inserted into the slot 14 to place it in the prepared bed. By impacts of the hammer on the rounded end of the free end of the handle 9, the implant is placed in the prepared bed, tightly adjacent to the surrounding bone. Coating the implant with a metal cap (glass 12) prevents it from destruction when struck with a hammer. After installing the implant in the prepared bed glass 12 is removed. Additional fixation of the implant is not required. The soft tissue covering the implant is sutured in layers.

The forceps are used for laying implants in the prepared bed in deep wounds (Fig. 4). Such a situation may occur in people with increased nutrition with defects in the diaphysis of the femur or during operations on the thoracic spine. Due to the large volume of soft tissue, the bone is deep in the soft tissue wound. The delivery of the implant to the bone is difficult. With the help of a forceps, the surgeon is able to easily install implants, regardless of the depth of the wound.

The proposed set of tools for implants allows the introduction of implants of various sizes from carbon nanostructured composite materials.

The proposed kit has easy-to-use tool components for implant insertion.

In addition, the use of the proposed set of tools for implants can reduce the time of surgical intervention, improve the quality of implant placement, maintain its integrity during installation and reliability in operation.

Claims (6)

1. A set of tools for introducing carbon nanostructured composite implants, characterized in that it contains an impactor for installing a disk between the vertebrae, a rectangular impactor for implants to replace defects of the vertebral bodies and in the metaphyseal sections of long bones, an impactor for cylindrical implants when filling cylindrical defects after sequestrectomy or after removal of bone cysts and tumor-like formations and forceps for laying implants in a prepared bed in deep p nah, the impactor for installing the disk between the vertebrae is made in the form of a cylinder, one of the ends of the specified cylinder is equipped with a slot for the implant, the piston is mounted with the possibility of longitudinal movement on the side of the second end, while the nozzle is fixed on its free end, the outer surface of the latter is corrugated, the impactor for rectangular implants when replacing defects of the vertebral bodies and in the metaphysical sections of the long bones is made in the form of a stepped cylinder, one end of which is grooved, equipped n an annular groove, rounded by an end face, while the last step of the second end of the indicated cylinder is equipped with a thread by means of which a plug for an implant is installed on it, an impactor for cylindrical implants when filling cylindrical defects after sequesterectomy or after removal of bone cysts and tumor-like formations in the form of a handle , which is made in the form of a stepped cylinder, one end of which is equipped with corrugations, a circular groove and a rounded end, while the boss of the sphere is made on the second end The rhizic form, in which a blind threaded hole is made, through which it is possible to install an implant cup, the forceps for laying implants in the prepared bed in deep wounds has one end with two rings connected to handles made to rotate around the axis, while at the opposite ends there are grooved paws for grasping the implant. 2. The set according to claim 1, characterized in that the impactor cylinder for installing the disc between the vertebrae is made not more than 185 mm long and not more than 9 mm in diameter, the slot is made not more than 6 mm in diameter and not more than 28 mm long, the nozzle is made in the form bushings with an outer diameter of 12 mm, an inner diameter of not more than 4 mm, a length of not more than 20 mm. 3. The kit according to claim 1, characterized in that the stepped cylinder of the impactor for the implants of a rectangular shape when replacing defects in the vertebral bodies and in the metaphysical departments of long bones, is made with a length of not more than 190 mm, a diameter of not more than 18 mm, each of the forks is made with no diameters more than 18 mm, 24 mm and 30 mm, each of the forks of the dimension line is bounded by horizontal planes opposite to each other, with a slot not more than 10 mm deep and a threaded hole, while the last cylinder stage is equipped with a thread. 4. The kit according to claim 1, characterized in that the impactor handle for cylindrical implants when filling cylindrical defects after sequestrectomy or after removal of bone cysts and tumor-like formations is made curved. 5. The set according to claim 1, characterized in that the section between the corrugated part and the boss is deflected by an angle of at least 55 ° from the longitudinal axis of the corrugated part of the key, the distance from the end of the boss and the upper line of the outer diameter is not more than 111 mm, the diameter of the blind hole equal to not more than 6 mm, the glasses are made with diameters of not more than 16 mm, 20 mm and 25 mm, the overall length of the handle is not more than 228 mm. 6. The set according to claim 1, characterized in that each of the glasses is made in the form of a sleeve with a blind end, on which a cylindrical protrusion is provided, equipped with an MB thread for connection with a handle.

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