UA85708U - "las" endoprosthesis of segment of vertebra - Google Patents

Abstract

An endoprosthesis of the segment of vertebra is designed as the central cylindrical hollow shaft and cylindrical body with through lateral apertures located in tiers. The opposite free end-faces are equipped with L-shaped plates containing the paired openings fitting the screws. The cylindrical body is made split generating the absolutely symmetrical parts with internal oppositely directional thread and toothings on the end-faces adjacent to L-shaped plates. The shaft also is equipped with oppositely directional thread for screwing-in that allows for altering the total length of the shaft with its end-faces being smooth.

Description

The useful model belongs to medical technology, namely implants for restoring the function of the anterior support complex after resection of one or more vertebral bodies, and can be used in orthopedics, traumatology and neurosurgery in the surgical treatment of diseases and injuries of the spine, in particular its cervical section.

A known endoprosthesis of a spinal segment, made in the form of a hollow cylindrical body with through side holes arranged in tiers. At the same time, the cavity of the case is filled with crushed bone grafts, and along the ring perimeter of both ends of the case, teeth are made, formed by dissecting the upper and lower tiers of holes

INattzv 9. Ipvigitepivsa zripa! zygdegu Rgipsirie5 apa iesppidnez5- TGpiete, bishndap-Mem Moi, 1999.- 198

The main disadvantage of the known endoprosthesis is that its design does not allow changing the length of the endoprosthesis, as a result of which it is not possible to accurately select the length of the prosthesis depending on the individual data of the patient, the location and size of the affected area of the spine. As you know, one of the most important conditions for achieving fusion at the level of anterior interbody spondylodesis is the careful selection of an interbody support of the appropriate size. An endoprosthesis that does not exactly correspond to the dimensions of the interbody space can cause either the loss of the fixing properties of the stabilizing structure, or the growth of deformation in the corresponding part of the spine with the subsequent development of severe clinical symptoms. In addition, the known endoprosthesis is difficult to manufacture (it is necessary to manufacture a wide range of products of various sizes) and to operate (it complicates the preoperative and operative periods due to the need to select a product with the optimal length, especially in urgent operations due to spinal injuries).

This defect is eliminated in the endoprosthesis of the spinal segment, which is a central cylindrical hollow rod with an external multidirectional thread, on which two hollow bodies with teeth on the outer ends are screwed, the bodies and the rod having through side holes arranged in tiers, and the rod inside has an annular projection with keyed radial holes. The inner cavity of the endoprosthesis is filled with crushed bone biomaterial | see Avenue of the Tzigis firm StrN 4 So. Ka. tskispy tedisa (f 5RYMAI.

ZUZTEM5. MVIA endoprosthesis "M - mepebga! of the genus Geriasetepi).

The main drawback of the known technical solution is the low reliability of the endoprosthesis

From the interbody space, since it does not contain means for attachment to the upper and lower vertebrae.

The closest in nature and the effect achieved, and which is taken as a prototype, is the endoprosthesis of the spinal segment, which is a central cylindrical hollow rod with an external unidirectional thread and a longitudinal slot, on which a nut with radial keyholes is screwed and which is installed in a cylindrical body with an internal projection for engagement with the longitudinal slot, the body and stem having tiered through side openings. Opposite free ends of the body and rod are equipped with L-shaped plates with paired screw holes on one shelf and serrations on the surface of the second shelf. The inner cavity of the endoprosthesis is filled with crushed bone biomaterial | see 5 So. Ka. tskispj teedisa(yu 5RYMAI 5UZTEM5.

Endoprosthesis AbOriiv "m - mepebga! of the genus geriasetepi m/p riadezvi.

The main technical and medical disadvantage of the known technical solution is that the shelves of G-like plates have teeth directed outwards.

Such a constructive decision causes the need to carry out excessive distraction of the spine for the placement of an endoprosthesis of a certain length in the interbody space. Distraction can lead to injury to the spinal cord or vertebrae adjacent to the area of resection of the damaged or pathological vertebral body.

The second significant disadvantage of the known endoprosthesis of a vertebral segment is that it does not allow forming a powerful bone block in the interbody space from crushed bone material, since it is almost impossible to densely fill the inner cavity of the endoprosthesis with the latter. Even if it is filled in advance, due to a significant increase in the length of the endoprosthesis during the twisting of the stem, the bone material will not be enough. In addition, the stem, due to the peculiarity of the design of the endoprosthesis, has too small a diameter, and therefore, a very small cavity, which generally excludes the formation of a reliable supporting bone block in such a cavity.

Another significant disadvantage of the known endoprosthesis of the vertebral segment is the relatively large initial length, even in the initial state, due to the fact that the nut is located above the body. As you know, for a reliable threaded fastening, the nut must have at least five complete turns of the thread and have full keyholes (in this design), and therefore has a certain thickness, which prevents reducing (by the thickness of the nut) the total length of the endoprosthesis. In addition, the body must also be elongated to securely hold the end of the rod. Therefore, the use of such an endoprosthesis is limited - it cannot be used for patients with small distances between the vertebrae.

The fourth disadvantage of the known endoprosthesis of a vertebral segment is the impossibility of forming a rigid, immovable "bridge" between the vertebrae between which the endoprosthesis is located. Since the rod must move relative to the housing, it is installed in it with a guaranteed clearance that cannot be eliminated, even with a nut, since the latter is outside the housing. It is this gap that creates a backlash that causes the rod to oscillate relative to the body, despite the additional attachment of these parts to the vertebrae using L-shaped plates.

The last, but no less significant drawback of the known endoprosthesis of a vertebral segment is the too high complexity of its design, which is due to the presence of a mechanical means (protrusion) inside the cylindrical body for interaction with the guide channel of the rod (limited access for the manufacture of the protrusion).

It would be possible to find more flaws in the known endoprosthesis, but let's stop at the ones listed, which are enough for a confident conclusion about the complete imperfection of the known technical solution.

The basis of a useful model is the task of creating an endoprosthesis with improved technical and functional characteristics capable of improving the medical indicators of treatment due to the provision of distraction ability while simultaneously reducing spinal trauma by making appropriate structural changes in all elements of the endoprosthesis.

The solution to the given problem is achieved by the fact that the endoprosthesis of the spinal segment, which is a central cylindrical hollow rod and a cylindrical body, and the body and the rod have through side holes arranged in tiers, and the opposite free ends of the body are equipped with L-shaped plates with paired holes for screws , according to a useful model, the body is split to form perfectly mirror-symmetrical parts, equipped with internal through-and-through multi-directional threads and teeth on the ends adjacent to L-shaped plates, and the stem also has a multi-directional thread from the center for screwing into parts of the body to change its total length, and the ends of the rod

Ko) are made smooth, i.e. without teeth.

The use of the proposed sliding threaded construction of the endoprosthesis does not require prior forced distraction of the spine: it occurs gradually during the distraction of the endoprosthesis itself. At the same time, the total length of the proposed endoprosthesis can be doubled without losing the functionality of the product. Thus, the proposed technical solution provides an absolutely non-traumatic and universal in application construction of the vertebral segment endoprosthesis. At the same time, the smooth ends of the rod in the proposed design, which can be placed above the teeth on the ends of the body, fully protect the bone tissue of the adjacent vertebrae from scratches and other unwanted mechanical impact from the teeth during the installation of the endoprosthesis. It can even be forced between the vertebrae, i.e. without prior distraction of the spine at all.

Due to the absence of any protrusions on the cylindrical surface of the stem, the overall length of the endoprosthesis can be reduced to the limit.

The proposed connection of parts of the body and the stem allow to maximize the central cavity, which, in turn, allows to obtain a reliable bone block of sufficient size in terms of thickness. The maximum increase in the diameter of the rod allows, accordingly, to reduce the curvature of the thread, preventing spontaneous unscrewing, as well as to eliminate any backlash in the connection, and therefore to increase resistance to bending.

The proposed design of the endoprosthesis is more technological in manufacturing and has a simple design due to the presence of symmetrical parts in its composition, the total number of which is reduced.

Therefore, the entire set of essential features of the proposed decision regarding the spinal segment endoprosthesis, obtained thanks to the introduction of fundamental changes in its design, ensures the achievement of the technical result formulated in the statement of the problem.

The further essence of the proposed technical solution is explained together with the illustrative material, which shows the plan view of the proposed endoprosthesis.

The proposed endoprosthesis contains a central cylindrical hollow rod 1 with multidirectional (left and right) threads from the center. Half-cases 2 with internal multi-directional threads are screwed onto the rod, to which L-shaped plates C with paired holes 4 for screws (not shown) are rigidly attached. Cylindrical half-cases 2 and rod 1 have through side holes 5 arranged in tiers. 60 teeth 6 are formed on the outer ends of half-shells 2.

The proposed endoprosthesis is used in the following way (on the example of the cervical spine).

After access to the desired segment of the spine is carried out by one of the known means, the elements of the front support complex are resected at the required interval. After that, the endoprosthesis, previously filled with bone fragments or other filler, in the original position (half-body 2 is screwed into the stem 1 to such a level that the ends of the latter are above the teeth b) is placed in the interbody space between the upper and lower vertebrae instead of the removed segment. At this stage, the specified vertebrae may be in contact with the ends of the stem 1 or such contact will be minimal, depending on the selected initial length of the endoprosthesis. Next, while holding the structure with a special key, rotate the stem 1 through the holes 5. At the same time, the half-cases 2 move along the stem 1 in different directions due to the presence of a multidirectional thread, and the structure is pushed apart (the total length of the endoprosthesis increases). The teeth go deeper into the bone tissue of the adjacent vertebrae. In this way, the compression of the endoprosthesis in the interbody space is achieved. After that, screws (not shown) are installed in the holes 4, with the help of which L-shaped plates C are screwed to the vertebrae, finally fixing the endoprosthesis. Then the wound is sutured in layers. Therefore, due to the gradual distraction of the endoprosthesis itself, the necessary distraction of the spine is achieved. Over time, the connective tissue penetrates through the holes 5 into the cavities of the half-body 2 and stem 1, where it is connected to the bone grafts located in these cavities, which ensures a strong stabilization of the endoprosthesis between the vertebral bodies and a reliable restoration of the supporting capacity of the spine.

In addition, another method of endoprosthesis installation is possible. It is known that there are a number of conditions, including degenerative-dystrophic, inflammatory diseases, the consequences of spinal injuries, which are accompanied by gross deformation of the spinal axis. In these cases, even significant axial traction does not allow to align the axis of the spine enough to install an endoprosthesis, and for the purpose of correction, more complex systems and structures are used. In such a situation, installation of the proposed endoprosthesis involves the following actions. After the resection of the elements of the anterior support complex at the necessary interval, the endoprosthesis is filled with bone fragments or other filler and brought to the initial position, in which the half-body 2 is screwed into

From the stem 1 in such a way that on one end of the half-body 2, the teeth 6 are completely hidden by the stem 1, and on the other - they protrude above the stem 1. After that, the end surface with the protruding teeth 6 of the half-body 2, the endoprosthesis is inserted into the interbody space, resting the teeth 6 on the locking plate one of the vertebrae, which serves as a support. Then the second end surface of the endoprosthesis without b teeth (with hidden b teeth by stem 1) is deepened, which slides freely on the locking plate, thus creating a complete restoration of the physiological curvature of the spine and the formation of an adequate spondylodesis, which occurs as a result of the actions, the sequence of which is described above.

The declared technical solution has been tested in practice. The proposed endoprosthesis does not contain any structural elements or materials that would be impossible to reproduce at the current stage of development of science and technology, in particular, in the field of medicine, and therefore is suitable for industrial use, has technical and other advantages over known analogues, which confirms the possibility of achieving the technical result of the object being applied for.

The essential difference between the proposed technical solution and the previously known ones is that the body of the endoprosthesis is capable of distraction due to the two-body design and is able to move symmetrically relative to the center of the endoprosthesis along multi-directional threaded connections along the stem, as well as in the fact that the stem has smooth ends, and the ends of the half-shells have teeth that are hidden in the initial state by the rod. The endoprosthesis does not contain any element in its composition that would prevent the maximum reduction of its length in the initial state. The indicated differences in aggregate make it possible to acquire new qualities due to the significant improvement of the technical and operational characteristics of the vertebral segment endoprosthesis. None of the known designs, although there are quite similar ones, for example, the second analog and the prototype, cannot have all the listed properties at the same time, since it does not contain the entire set of declared essential features, but the proposed design is not a simple combination or an ordinary combination of known elements , which would not allow obtaining new technical properties and medical benefits.

The technical advantages of the proposed technical solution, in comparison with the prototype, include:

the ability to maximally change the total length of the endoprosthesis in any direction, depending on the individual characteristics of the patient, thanks to the sliding design of the body with a bilateral multidirectional threaded connection; manufacturability and ease of operation due to the simplification of the design and the reduction of the number of parts of the same type; a significant reduction in trauma due to the elimination of the need to perform spinal distraction for the placement of the endoprosthesis; the impossibility of damaging the vertebrae with teeth during the installation of the endoprosthesis in the working position due to the hiddenness of the latter by the stem; the design feature of the endoprosthesis allows to maximally fill /- it with biomaterial or other filler, which in the future will ensure the formation of an adequate bone block; the design feature of the endoprosthesis allows it to be installed in the initial position, in which the teeth are hidden only on one end surface, while the other end surface with teeth rests tightly on the locking surface of one of the bodies of the adjacent vertebrae and serves as a reference point for correcting the deformed axis of the spine.

The medical effect of the implementation of the proposed technical solution, in comparison with the use of the prototype, is obtained by reducing the traumatism of the end surfaces of the vertebrae, reducing the likelihood of injuries during spinal distraction and obtaining a powerful supporting bone block, speeding up the rehabilitation period.

The social effect of the implementation of the proposed technical solution, in comparison with the use of the prototype, is obtained by accelerating the rehabilitation period of patients.

After describing the proposed technical solution, it should be clear to those skilled in the art that everything described above is only illustrative and not restrictive, being represented by this example. The numerous possible options for performing an endoprosthesis of a spinal segment may vary depending on the specific purpose, features of the material and manufacturing technology, etc., and, of course, are within the scope of one of the usual and natural approaches in this field of knowledge and are considered to be within the scope of of the proposed technical solution.

The quintessence of the proposed technical solution is that the body of the endoprosthesis consists of two parts equipped with an internal multi-directional thread and installed with the possibility of changing their position relative to each other in the direction of their common longitudinal axis by means of a rod with a multi-directional thread, and the smooth ends of the rod have the ability to hide teeth ends of half-shells. It is these circumstances in the aggregate that allow the proposed design to have the above-mentioned and other advantages. The use of combinations of individual structural elements from the entire set of declared ones naturally limits the range of advantages listed above and cannot be considered new technical solutions in this field of knowledge, since other designs similar to the one described will no longer require any creative approach from designers and engineers and cannot be considered the results of their creative activity or new objects of intellectual property suitable for protection by security documents.

Claims (1)

USEFUL MODEL FORMULA A spinal segment endoprosthesis comprising a central cylindrical hollow stem and a cylindrical body, wherein the body and stem have tiered through side holes, and the opposite free ends of the body are equipped with L-shaped plates with paired screw holes, characterized in that the body made split to form perfectly mirror-symmetric parts, equipped with an internal through multi-directional thread and teeth on the ends adjacent to the L-shaped plates, and the rod also has from the center a multi-directional thread for screwing into parts of the body to change its overall length, and the ends of the rod are made smooth, i.e. without teeth. In Dra Du in o, "ILYA - se - -i (5 th shi and De Y di vch