UA88253U - Parallelepiped-las, vertical meshed one-piece endoprosthesis of vertebra for anterior spondylodesis - Google Patents

Abstract

The vertical meshed endoprosthesis of the vertebra for the anterior spondylodesis is designed as the hollow perforated rod with the through lateral apertures located in tiers, in periphery of each tier. The ends of the rod are toothed with the teeth being generated when the length of endoprosthesis was adjusted by cutting the lower and upper aperture tiers. The cavity of the rod is filled with crushed bone or ceramic material. The endoprosthesis is designed as one-piece body combining the rod in the shape of parallelepiped with one of its facets extended relative to other three facets generating the plate originating from the free ends of the extended facets of the rod allowing for fastening the vertical meshed endoprosthesis to the bodies of vertebrae adjacent to the resected one.

Description

The useful model belongs to medicine, namely to traumatology, neurosurgery and vertebrology and can be used when performing spondylodesis using hollow mesh endoprostheses.

A well-known vertical endoprosthesis for anterior spondylodesis is made of osteocompatible glass-crystalline material in the form of a parallelepiped with pyramidal support platforms and has an internal mesh-like osteoconductive layer and external dense layers | see patent of the Russian Federation No. 2174376 from the IPK classes "АЭ1В 17/56, ABIK 35/32, published on October 10, 2001).

The disadvantage of this technical solution is the structural and technological complexity of manufacturing such an endoprosthesis.

The closest in essence and the effect that is achieved, and which is taken as a prototype, is a vertical mesh endoprosthesis of the vertebra for anterior spondylodesis, made in the form of a hollow cylindrical rod with through side holes located in tiers along the perimeter of each of the tiers, while at the edges of the rod the teeth formed by dissecting the upper and lower tiers of holes are made, and the cavity of the rod is filled with crushed bone or ceramic grafts (|INagptv U Ipvigitepivy zripa! zygdegu Riipsiriez apa iesnpidnev - Tpiyete, BishyNdany - Mem mok, 1999. - 198).

The main significant drawback of the known technical solution is related to the imperfection of the cylindrical configuration of the vertical mesh endoprosthesis of the vertebra and is explained by the insufficient support area of its terminal sections adjacent to the resected vertebrae, which makes it possible to shift the metal structure, which significantly reduces the effectiveness of the performed anterior spondylodesis.

The next important disadvantage of the known technical solution is the need for additional fixation of the spine with plates. This is due, again, to the imperfection of the spatial configuration of the used known endoprosthesis, which not only does not ensure the reliability of fixation, but also causes the endoprosthesis to prolapse (sag) in the bodies of adjacent vertebrae. At the same time, the additional technological stage of using the specified plates by itself can lead to undesirable complications - plate fractures, screw migration, etc. In addition, during anterior spondylodesis, vertical endoprostheses in order to prevent prolapse in the body of the vertebrae are usually additionally equipped with special limiting pads, which complicates the technology of performing anterior spondylodesis and prevents the formation of a full-fledged bone block.

The useful model is based on the task of improving the technical and operational characteristics of the structure of the vertical mesh endoprosthesis of the vertebra by increasing the reliability of fixation and prevention of anterior-posterior, lateral, and rotational displacement of the vertical mesh endoprosthesis of the vertebra without the involvement of additional devices through appropriate technological and structural changes of the latter.

The solution to the given problem is achieved by the fact that the vertical mesh endoprosthesis of the vertebra for the implementation of the specified method has the form of a hollow perforated rod with through holes located in tiers along the perimeter of each of the tiers, while at the edges of the rod there are teeth formed during the formation of the endoprosthesis of the required length by dissection of the upper and lower tiers of holes, and the cavity of the rod is filled with crushed bone or ceramic grafts, according to the proposal, the vertical mesh endoprosthesis of the vertebra is made in the form of a monoblock, which combines a rod in the form of a parallelepiped, one of the four sides of which is elongated at both ends relative to the other three sides and performs the function of a plate formed by the cantilevered ends of the indicated elongated side of the rod to ensure fixation of the screws of the vertical mesh endoprosthesis to the bodies of the vertebrae adjacent to the resected one.

In addition, in one of the variants of the proposed vertical mesh monobloc endoprosthesis of the vertebra, the cantilever ends of the elongated side, which perform the function of a plate for fixing the endoprosthesis, can be bent for a tight fit to the vertebrae in accordance with the anatomical features of the spine.

According to the proposed technical solution, a vertical mesh monobloc endoprosthesis of a vertebra in the form of a parallelepiped with a rectangular cross-section is able to take a more stable position between the vertebrae than a round cross-section. Thanks to the proposed technical solution, the density of the fit of the side walls of the endoprosthesis to the walls of the groove is achieved, the possibility of anterior-posterior, lateral and rotational displacement is eliminated, which contributes to increasing the efficiency of spondylodesis, and the contact area of the edges of the implant with the bodies of the vertebrae adjacent to the resected ones is significantly increased, which contributes to reducing pressure on them, and 60 therefore helps to avoid prolapse of the endoprosthesis, promotes the process of bone graft fusion and the formation of a bone block in the resected area of the spine, and also allows you to preserve part of the walls of the resected vertebra.

The above-described rectangular design with an elongated side allows the endoprosthesis to be reliably fixed with screws to the bodies of the vertebrae adjacent to the resected one. Thus, there is no need to additionally apply any other devices for fixation (interbody ventral plates, limiter pads, etc.). This allows you to significantly reduce the duration of surgical intervention and fully meets the modern requirements of minimally invasive surgery.

In addition, the proposed design of the endoprosthesis is subject to modeling (as an additional stage of the implementation of the method) in order to optimally, from a physiological point of view, establish a vertical mesh monobloc endoprosthesis, its correct and stable position in the interbody space of the prosthetic part of the spine.

At the same time, the proposed vertical endoprosthesis is completely technological and has no obstacles to practical implementation. In particular, the elongated side of the proposed vertical mesh monobloc endoprosthesis is easily formed directly at the stage of preparing the device for implantation by removing the corresponding fragments of the three lateral sides of the rectangular profile.

It should also be noted that the proposed technical solution is universal, as it can be successfully used for mono-, bi-, and multisegmental spondylodesis.

Therefore, the entire set of essential features of the proposed solution regarding the vertical mesh monobloc endoprosthesis of the vertebra for anterior spondylodesis ensures the achievement of the required technical result.

The further essence of the proposed technical solution is explained together with the drawings, which show: in fig. 1 - general view of the workpiece for the manufacture of the proposed vertical mesh monobloc endoprosthesis of the vertebra; in fig. 2 - general view of the proposed vertical mesh monobloc endoprosthesis of the vertebra in its original state; in fig. C - the proposed vertical mesh monobloc endoprosthesis of the vertebra in working condition, side view, in fig. 4 - the same, end view.

The proposed vertical mesh monoblock endoprosthesis of the vertebra contains a metal, for example titanium, hollow monoblock 1, made in the form of

From a parallelepiped. The surface of the monobloc 1 is perforated, that is, it has through side holes 2, located in tiers along the perimeter of each of the tiers. The cavity of the rod 1 is filled with crushed bone or ceramic grafts (not shown). On the edges along the perimeter of the edges of the monoblock 1, there are teeth 3, formed by dissecting the upper and lower tiers of holes 2. One of the sides 4 of the rectangular monoblock 1 is made elongated on both sides relative to the other sides to ensure fixation with anti-migration screws 5 to the bodies of vertebrae 6 adjacent to the resected one. The cantilevered ends of the elongated side 4 of the monoblock 1 can be bent in order to conform the design to the anatomical shape of the spine for a tight fit to the vertebrae.

The implementation of anterior spondylodesis using the declared design of the vertical mesh monobloc endoprosthesis of the vertebra is explained by the example of performing anterior interbody spondylodesis at the level of the cervical spine.

First, access to the ventral parts of the bodies of the cervical vertebrae is performed at the required level according to a well-known technique, after which resection of the injured, damaged or destroyed (spondylitis, tumors) vertebra is performed. Then, in the front part of the vertebral bodies, a receiving bed for a vertical mesh monobloc endoprosthesis is formed by resection of the vertebral body in order to decompress the spinal cord. It is freed from the bone defect and forms a bed in the form of groove 7, and distraction of the vertebrae is performed to facilitate the introduction of a vertical mesh monobloc endoprosthesis to the interbody space. After that, a vertical mesh monobloc endoprosthesis of a vertebra of a certain size (the height and cross-sectional size of the endoprosthesis base should correspond to the size of the bone defect, and the length of its elongated side should be sufficient to ensure fixation with screws to the bodies of the vertebrae adjacent to the resected one), preformed and densely filled with bone or ceramic fragments obtained in the process of vertebra resection or additional osteotomy of the wing of the iliac bone are placed in the interbody space between the upper and lower vertebrae instead of the removed injured vertebra. At the same time, monoblock 1 is installed in such a way that its prongs C sink into the bodies of the specified vertebrae. Next, the distraction is weakened, which achieves compression of the endoprosthesis.

After that, the fixation of the vertical mesh monobloc endoprosthesis of the vertebra is performed by screwing in the necessary number of anti-migration screws 5 at certain angles for the bodies of the above-mentioned adjacent vertebrae 6 through holes 2 in the elongated side 4, while, if necessary, immediately before fixation, bending simulation is performed on the free edges of the elongated sides 4 of monoblock 1 using special devices to give the latter an anatomical shape. At the same time, those perforation holes are used for the screws 5, which are spatially located opposite the most acceptable part of the vertebra 6. After that, the wound is sutured in layers.

The declared technical solution has been verified in practice. The proposed vertical mesh monobloc vertebral endoprosthesis for anterior spondylodesis does not contain any structural elements or materials that could not be reproduced 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 well-known analogues, which confirms the possibility of achieving a technical result by the proposed object. In the known sources of patent and other scientific and technical information, no samples of vertical mesh monoblock endoprostheses of anterior spondylodesis with the set of essential features indicated in the proposal were found, therefore the proposed technical solution is considered to be eligible for legal protection.

The essential difference of the proposed technical solution consists, first, in the use of a vertical mesh endoprosthesis not in the form of a cylinder, but in the form of a monoblock, which has the shape of a rectangular parallelepiped with an elongated side, which performs the function of a fixing plate, and creates a larger, compared to the known cylindrical , the support area of its edges on adjacent vertebrae; secondly, in the presence in the rectangular base of the endoprosthesis of one elongated side for fixing the metal structure with anti-migration screws relative to the bodies of adjacent vertebrae above and below, and thirdly, in the possibility of adapting the design of the device to the anatomical features of the spine. The indicated differences collectively provide an increase in the efficiency of the anterior spondylodesis method and an improvement in the technical and operational characteristics of the vertical mesh monobloc endoprosthesis. None of the known designs of endoprostheses can have all the listed properties at the same time, since it does not contain the entire set of declared essential features.

The technical advantages of the proposed vertical mesh monoblock endoprosthesis of the vertebra for anterior spondylodesis, in comparison with the prototype, include: - reduction of the number of metal parts introduced into the human biological body due to the performance of the endoprosthesis in the form of a monoblock, which combines two parts - directly the endoprosthesis and fixing plate; - Increasing the area of contact of the vertical mesh monobloc endoprosthesis with the vertebrae due to its execution in the form of a parallelepiped; - improvement of the technical and operational characteristics of the vertical mesh endoprosthesis, in particular ensuring its more reliable fixation, eliminating displacements, increasing the contact area of its edges with the bodies of adjacent vertebrae for the same reason; - a significant reduction in trauma, in accordance with the requirements of minimally invasive surgery, due to the elimination of the need for additional use during spondylodesis of any other fixing devices, except for a vertical mesh monobloc endoprosthesis; - the possibility of installing a vertical mesh monobloc endoprosthesis in accordance with the anatomical features of the spine by modeling the shape of the ends of its elongated side; - the possibility of use in spondylodesis of the thoracic and lumbar sections of the spine.

After the description of the proposed technical solution, it should be clear to specialists in this field of knowledge that everything described above is only illustrative and not restrictive, being represented by this example. Numerous possible options for the manufacture of a vertical mesh monoblock endoprosthesis of the vertebra may vary depending on the type of surgical interventions (on different sections of the spine) and specific conditions of treatment, and, of course, are within the scope of one of the usual and natural approaches in this field of knowledge and are considered as such , which are within the scope of the proposed technical solution.

The quintessence of the proposed technical solution is that during anterior spondylodesis, the use of a hollow, perforated endoprosthesis of monobloc design, rectangular in cross-section, with one side elongated relative to the rest, made in the shape of the receiving bed of the vertebral bodies adjacent to the resected ones, made in the form of grooves is envisaged. It is this circumstance that allows the proposed solution to acquire the above-mentioned and other advantages. The use of combinations of only individual structural elements from the entire set of declared ones naturally limits the range of advantages listed 60 above, and cannot be considered new technical and technological solutions in this field of knowledge,

since other endoprostheses, similar to the ones 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 (2)

USEFUL MODEL FORMULA 1. Vertical mesh endoprosthesis of the vertebra for performing anterior spondylodesis, which has the form of a hollow perforated rod with through holes located in tiers along the perimeter of each of the tiers, while at the edges of the rod there are teeth formed during the formation of the endoprosthesis of the required length by dissecting the upper and lower tiers holes, and the cavity of the rod is filled with crushed bone or ceramic grafts, which is distinguished by the fact that the vertical mesh endoprosthesis of the vertebra is made in the form of a monoblock, which combines a rod in the form of a parallelepiped, one of the four sides of which is elongated at both ends relative to the other three sides and performs the function of a plate formed by the cantilevered ends of the indicated elongated side of the rod to ensure fixation of the screws of the vertical mesh endoprosthesis to the bodies of the vertebrae adjacent to the resected one. 2. Vertical mesh endoprosthesis of the vertebra for performing anterior spondylodesis according to claim 1, which is characterized by the fact that the free ends of the elongated side of the monobloc are bent for a tight fit to the vertebrae in accordance with the anatomical features of the spine. I KUTU KO ku EV s kn z Ma khaty 1 zu VO is as s aka nya i ZK S KV KVU i om I JHE KeU cho es ke Be - JHE Kaya s o ach ne ek v y mes Kk PO SV SV t KK sha ra i S y syh azy Z See more Say ev a mes zh ska s Vyk nka a kak. a u vk eh sia or KO v u uOH Sly V boone Maya Fig. 1