TR201704663A2 - POLYAXIAL GEARBOX SCREW - Google Patents

Abstract

The invention relates to a polyaxial transmission screw (1), which is used for fixing fractures from outside the body, which enables the attachment of the rope (7) without the need for an additional clamp or apparatus, thereby reducing costs. Said polyaxial transmission screw (1) is characterized in that a clamp or apparatus is not required for connection to the rod (7). By means of the axially movable multi-angle rotary head (4) of said polyaxial transmission screw (1), the connection of the rod (7) to the polyaxial transmission screw (1) is facilitated.

Description

DESCRIPTION POLYAXIAL TRANSMISSION SCREW Technical Area The invention is intended for use in the treatment of fractures in orthopedics and traumatology. It relates to the improved polyaxial ducted screw.

The invention particularly provides an additional clamp on the rod of the screw, which is used in the fixation of fractures from the outside of the body. or to the apparatus without the need, thus reducing the costs. It relates to the polyaxial gear screw.

State of the Art Increasing life quality with today's developing technology brings long life time. while providing more different, complicated pathologies and higher energy brought injuries. These new and difficult pathologies have made the branch of orthopedics and traumatology more forces it to be a dynamic science. Many studies to date To understand the anatomical morphology of the cervical, thoracic, lumbar and sacral vertebrae. has been made. Not only in degenerative pathologies, but also in traumatic injuries. the use of widely used and rapidly developed pedicle screws and internal fixation techniques is increasing. In this way, anterior and posterior spinal surgery As the importance and prevalence of instrumentation increases, the anatomy of the human vertebra understanding becomes more and more important. Today, polyaxial vertebra screws, It has replaced single axis screws in vertebral surgeries. One of the reasons is straight occurs when a rod is clamped on screws at different angles. reduction of difficulties. In addition, these screws require an additional clamp to connect to the rod. they don't show.

Treatment of fractures is one of the most important problems of traumatology from past to present. has been. Bone lengthening, pseudoarthrosis treatment and deformity correction applications that require open fracture fixation and periarticular fracture fixation as well as Among the treatment options in cases, external fixation applications are the first to come to mind. are methods. The external fixator holds the broken bone in the correct position until the bone fuses. It is a device attached to the outside of the body to insert and maintain its smoothness. external the fixator is attached to the bone with bone nails (pin) and these nails are attached to the external fixator. It passes through the skin to attach to the bone. In some cases during this connection It also happens that it passes through the muscles. Broken bone through two or more nails retention is provided. Sometimes, to avoid damaging the bone fragments, Wires can be used together with nails or instead of nails.

The use of indirect reduction techniques in long bone shaft fractures and Application of fixation without opening the fracture line in order not to disturb the blood supply, relative balance is achieved and it provides healing with callus formation. Intramedullary nails, percutaneous plates, plates used for minimally invasive osteosynthesis (MlPO), and external fixators are suitable for minimally invasive surgery used in the treatment of this type of fracture. are implants. First choice in long bone shaft fractures such as femur, humerus, tibia although there are usually intramedullary nails; multipart or segmental fractures, proximal or fractures extending to the distal row, narrow or deformed unsuitable for nailing MIPO can be used in the presence of medullary canal and in some other special cases.

With the development of the minimally invasive plate osteosynthesis technique, the periosteal circulation protection, increasing angular stability with locking screws and loosening around the screw. it is possible not to.

Undesirable excessive movement, which is important in the management of broken bone fragments. clinical stability that provides prevention, deformity correction, and/or correct prolongation. how the ring will be provided with structures. There are 2 types of fixators as monolateral and circular. There are different main types. The combination of these two is called hybrid systems. are given. Monolateral, with the help of bars and clamps, between the half shank pins. It is a simple system installed. The pins of these bar systems create moment points. Provided that it shares the load and protects the bone skeleton against shear stresses.

Gearbox screws logically act like springboards and counteract axial forces.

In circular fixators, basic elements such as full rings, half rings, specific footplates There are parts. The rings can be attached to the bone with wires or with shank screws. can be detected. Unlike the monolateral system, the entire cortex is loaded. is shared.

It has different structures and materials to be used in the treatment of fractures in the field of orthopedics and traumatology. In particular, many studies have been carried out to develop external fixators. This one of the studies, 2014/12961 and “High tibial osteotomy external fixator” It is the invention that is the subject of a patent. Invention in high tibial osteotomy (HTO) surgery It is related to the fixators used, Its feature is; at least one grasping leg from both sides the aligner, at least one openable connector that connects with the aligner, and/or proximal arch, at least one proximal shanz holder on the proximal arch, detachable at least one distal shanz holder in the lower part of the connector, mounted on the proximal arch, adjusting the position and size of the disassembled incision on the skin at least one incision block, at least one fibula associated with the detachable connector head aligner, at least one angular piece where the correction angle is adjusted and controlled It is characterized by a high tibial osteotomy (HTO) external fixator with indicator.

Another study is the subject of the patent numbered 2016/13723 and titled "Surgical implant". finds. The invention is aimed at stabilizing a surgical implant and in particular a bone fracture. It relates to a surgical implant intended for use. Surgical implant, a plate and protruding from the plate contains one long element. Long element, intended for insertion into a bone and the plate is provided for attachment to the surface of a bone. Long The element and plate each have at least one element for anchoring the surgical implant to the bone. Supplied with fixation zone.

Another study, 2009/09640, “Bone implant with multiaxial head” It is the invention that is the subject of a patent. The present invention covers bone anchorage, for example, a vertebra It relates to an implant for inserting an osteosynthesis device into it. This implant a link that can carry a rod that connects many implants in different angular positions contains the title. This bone anchor implant contains at least one rod, especially It contains connection tools that can carry the osteosynthesis rod, and this connection parallel to the long axis of the bar before the connection of the tools is blocked. at least one that provides a certain clearance in rotation about at least one first axis that is not characterized by containing one element. The connection head is the connection of the implant to each other. in such a way that it can provide a clearance in rotation around two non-parallel axes. Freedom to rotate about at least two axes that do not meet the long axis of the rod it moves relative to the bone anchor piece in accordance with an articulation that provides tipping (tilting) relative to the anchor axis and rotating the head around this axis. generates rotation. These movements are then blocked by clamping.

Today, surgeries using external fixators are mostly made of imported products. are high-cost surgeries in which it is used. Package for these surgeries by the government Prices have been determined, but these prices are below the costs of the implants used. remains. This is low cost but will not affect the quality of surgery. reveals the necessity of developing implants. Also, in our country Although it is possible to produce imported implants in this field, the frequent use of import- It also makes a negative contribution to the export balance.

As a result, orthopedics and Developed for use in the treatment of fractures in the field of traumatology, polyaxial The existence of the need for the gear screw and the inadequacy of the existing solutions. made it necessary to make a development in the field.

Brief Description of the Invention The present invention fulfills the above-mentioned requirements, has all the disadvantages in the field of orthopedics and traumatology, which eliminates It relates to a polyaxial sprocket screw developed for use in the treatment of fractures.

The aforementioned polyaxial vertebra screws are used in the external fixation of fractures. The aim of the invention, which emerged with the idea of applying it to Thanks to the structure of the screw, an additional clamp or apparatus is needed to connect it to the rods. It is ensured that it is not heard and that the sprocket screws sent at different angles are made with a straight rod. facilitating their bonding. During the operation, the location of the fracture and its fragmented shank screws parallel to each other with a different factor such as whether there is may not be sent. However, after the reduction of the fracture is achieved, all the shank screws must be connected to each other with the help of a straight rod. Bass of the Sanz screw The movable clamp to which the rod will be connected facilitates this process.

Multi-angle movable structure of the upper part of the developed polyaxial sprocket screw Thanks to this, it is possible to connect the rod on the screw easily.

The object of the invention is to use the polyaxial gear screw with a rod clamp or another apparatus. It is to ensure that the costs are reduced by connecting it without using it. This the situation, costs per fracture and therefore Social Security by hospitals It will reduce the bill to be issued to the institution and will provide significant savings. external in surgeries using fixator, the number of chancre screws used, the number of rods used and The apparatus that connects the rods used to the gear screws affects the costs.

Another object of the invention is to use both locking screwdriver and implantation with the help of both electric motor and manual is to provide.

Another aim of the invention is to achieve both, thanks to the design of the developed polyaxial sprocket screw. that it is suitable for the use of both carbon rods and steel rods that can be bent and shaped. is to provide.

The structural and characteristic features and all advantages of the invention are given in the following figures and It is clearer thanks to the detailed explanation written by making references to these figures. will be understood as such, therefore, these forms of evaluation and detailed should be made taking into account the explanations.

Brief Description of Figures The embodiment of the present invention and the best use of its advantages with additional elements To be understood, it should be evaluated together with the figures explained below. Figure 1; is the sematic general view of the polyaxial gear screw, Figure-2; Schematic of the polyaxial shank screw applied on the broken bone is the general view.

Reference Numbers 1. Polyaxial gearshift screw 2. Bone anchor piece rotary head clamping screw Rod seat WNQMPE» Detailed Description of the Invention In this detailed explanation, the rods used in the detection of the fractures that are the subject of the invention from the outside of the body are discussed. (7) allowing it to be connected without the need for an additional clamp or apparatus, and thus polyaxial thru-screw (1), which reduces costs, only helps to better understand the subject 'exclusively' is described by way of example and without any limiting effect.

In the field of medicine, device construction with an experimental approach and development of existing ones, new prosthetic materials and designs, control and improvement of used prostheses, body analyzes that are impossible or difficult to perform in laboratory conditions or theoretical approach for modeling complex structures, development of imaging and signal processing processes, engineering branches are needed. Until the bone (8) or bones (8) are healed when broken, in the right position, it needs additional support to ensure healing. This support during the healing process, plaster-athle-wrap-bandages, internal fixators, external It is provided with (external) fixators. Fixators are wire or wire threaded through the bone (8) These are the systems obtained by attaching the nails to a rigid support outside the extremity.

The aforementioned polyaxial sprocket screw (1) is used to prevent fractures in orthopedics and traumatology. It is designed for use in treatment. Said polyaxial gearhead screw (1) External fixators used in the fixation of fractures from outside the body should be used It can be used in all surgeries. The external fixator is placed in the bone (8). connected by fasteners to the exposed end parts of wire or nails, and It is the name given to the devices that provide the detection of the external bone or joint.

The polyaxial sprocket screw (1) shown in Figure-1, enters the bone (8) in its lower part. and the bone that ensures the fixation of the polyaxial shank screw (1) where it is positioned. the anchor piece (2) is formed on this piece (2), the polyaxial gearshift screw (1) The teeth (3), which ensure its progression and fixation in the bone (8), are located in the upper part. within the positioned, movable rotary head (4) and this rotating head (4) It contains a formed rod holder (6). Rod to the inner part of the said rod socket (6) Fixing the rod (7) and the polyaxial gearshift screw (1) together after the (7) is in place and clamping screw (5) to lock the movement mechanism. is used. Said rod (7) can be used to fix more than one polyaxial shank screw (1) to the bone (8) After being inserted into the It provides stabilization and load distribution.

Treatment of fractures in the bones (8) shown in Figure-Zide with external fixators First of all, the locations of the polyaxial sprocket screws (1) are determined. More Then, the polyaxial sprocket (1) channel is opened by means of a probe. your channel After the opening of the polyaxial sprocket screw (1) with radiological imaging and probe location, direction and depth are controlled. The bone from which the fracture occurs (8) and this bone (8) polyaxial gearbox screw (1) to be used depending on the characteristics of the location depth is determined. Said polyaxial gearhead screw (1) is self-tapping Although it has the feature of opening, it can also be threaded by tapping. can be used. After selecting the polyaxial gear screw (1) of the appropriate diameter and length, then it is implanted into the bone (8) by means of a screw driver. The mentioned polyaxial After the gearbox (1) is placed, the appropriate rod (7) is selected and any rod It is placed in the rod socket (6) without using a holding clamp or a similar apparatus.

After the said rod (7) is placed, it is reduced with the polyaxial sprocket screw (1). is being done. Then the tightening screw (5) on the upper part of the polyaxial gearshift screw (1) is placed and the rotating head (4) is locked by squeezing.

The feature of the mentioned polyaxial gearhead screw (1) is a clamp for connecting the rod (7). or equipment is not needed. The axial load of said polyaxial gears screw (1) Polyaxial gearbox screw of the rod (7) thanks to its movable multi-angle swivel head (4) It is facilitated to connect on (1). Costs thanks to the mentioned feature has been significantly reduced. Said polyaxial gear screw (1) is both carbon and It has a structure suitable for the use of steel rods (7) that can be bent and shaped, and has a locked It can be implanted with the help of screwdriver, electric motor or hand. Said polyaxial shaft screw (1) and rods (7) different types in different bones of the body (8) It is produced in different thicknesses and lengths to be used in fractures. Also polyaxial The number of teeth (3) on the shank screw (1) also varies, so the surgeon can operate. It offers different alternatives that you can use during

The scope of protection of this application has been determined in the claims section and It cannot be limited to what is described for the purpose of illustration. In the invention of a person skilled in the art that the innovation can be demonstrated by using similar structures and/or that this structuring can be applied to other fields with similar purposes used in the related technique. It is open. Therefore, in the presence of such structuring, especially in our application, innovation and It is also obvious that it will lack the criterion of exceeding the known state of the technique.

Claims (2)

REQUESTS 1. The invention is designed to be used in the treatment of fractures in the field of orthopedics and traumatology, providing additional support to ensure healing in the correct position, until the bone (8) or bones (8) are healed, and can be used in all surgeries where external fixators used in the fixation of fractures from outside the body are required. It is a polyaxial sprocket (1), and it is characterized by the fact that it contains a rotating head (4) positioned at the 'top' of the said polyaxial thru-screw (1), which enables the rod (7) to be attached to the polyaxial sprocket (1) without the use of clamps or apparatus. 2. It is a polyaxial gearshift screw (1) according to claim 1 and is characterized in that it contains an axially movable rotating head (4) for connecting the said rod (7) on the polyaxial gearshift (1) without using any extra auxiliary tools. .