RU2653621C2 - Interbody spinal endoprosthesis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: interbody spine endoprosthesis contains two oppositely located supporting plates on one axis with sawtooth fixation elements in vertebral bodies on their outer surfaces and an elastic support-centering element installed between them. The inner surfaces of the supporting plates are provided with central cylindrical recesses for the supporting-centring element made as two poppet corrugated membranes with radial rectangular apertures and central holes that are coaxially attached to the supporting plates along the outer generatrix, supporting discs are installed in the holes on the supporting plates side and secured using hubs. In the membranes apertures flat springs are placed with a gap, perpendicularly attached to the discs by their ends. Springs and apertures are located with the same circumferential pitch and at the same distance from the supporting plates axis.

EFFECT: simplified installation and extended service life.

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Description

The invention relates to medical equipment and can be used in vertebrology and neurosurgery in the treatment of injuries, diseases and injuries of the spine.

In medical technology, implant designs in the form of cages used in the surgical treatment of spinal diseases are known, which are box-shaped metal inserts with holes and cavities of various configurations, fixation elements in the form of teeth on supporting surfaces intended for insertion into the vertebral bodies between which they are placed instead of the remote intervertebral disc (Patent of Ukraine No. 41079 A dated 10.15.2001, Bull. No. 9; export@gmreis.com.br - Posterior Lumbar Spacer).

The main distinguishing feature of such implants is that they rigidly connect two neighboring vertebrae, depriving them of relative mobility in all directions, thereby limiting the flexibility and functionality of the human spinal column.

The restoration of the mobility of the spinal elements is ensured by endoprostheses of the intervertebral discs, consisting of two opposite and coaxially arranged support plates of a permeable porous superelastic material, between which there is a support-centering element made of fluoroplastic, connected to the plates using a buffer layer (Patent RU No. 2140229 from 10.27.1999 )

Also known is the design of an endoprosthesis (implant) of the intervertebral disc, containing two support plates with fixation elements and a support-centering element located between the plates in the form of a disk made of alloplastic material having elastic properties. The fixation elements are made of a material with a memory effect, which allows them to rotate the latches around the axis and fix the plates in the vertebral bodies (Patent RU No. 2080841, IPC A61F 2/44, 1997).

The design flaws include: installation complexity; the need for heating the clamps during installation, which adversely affects the bone tissue of the vertebrae; the occurrence of electrocorrosion due to various materials of the parts of the endoprosthesis, which reduces the reliability of fixation and causes its increased wear; low bioinertness due to the presence of nickel in the material of fixatives, causing a toxic effect on bone tissue and the human body as a whole; a short period of time before conducting revision operations associated with the replacement of a worn endoprosthesis.

The design of the endoprosthesis (implant) of the intervertebral disc (Patent RU No. 2200510 C1, IPC 7 A61F 2/44, 2003) containing two axisymmetric plates and a supporting centering element between them in the form of a disk made of alloplastic material with elastic properties (taken silicone rubber). The inner opposing surfaces of the support plates have a concavity in the center and a fixing annular protrusion, providing lateral fixation of the disk and the possibility of rotation around the axis. The mechanical properties of the material of the disk provide the possibility of angular displacements and shock absorption of the plates. The elements of fixation of the plates relative to the vertebrae are spear-shaped and placed on their outer side.

The main disadvantages of this design of the endoprosthesis (implant) are:

- instability of the relative spatial arrangement and mobility of the elements of the endoprosthesis due to the significant elasticity of the silicone disk and low wear resistance;

- short service life due to the possibility of ingress of wear products between the movable elements, which leads to their closure between themselves, i.e. to deprivation of their relative mobility;

- the complexity of the installation associated with ensuring the alignment of all parts of the endoprosthesis in the inaccessible space between the vertebral bodies;

- the duration of surgery.

The expected technical results from the invention are:

- an increase in the life of the endoprosthesis due to the exclusion of mobile joints with external friction, subject to dimensional mechanical wear, from the composition of the supporting centering element;

- ensuring the stability of the mutual arrangement of the elements of the endoprosthesis;

- the absence of wear products that enter the tissues of the human body, and therefore, the need to remove them during audit operations;

- simplification of manipulations on its installation;

- reducing the duration of surgery.

The achievement of these results is due to the fact that in the interbody prosthesis of the spine, containing two opposed support plates with sawtooth fixation elements in the vertebral bodies on the outer surfaces and an elastic support-centering element installed between them, the inner surfaces of the support plates are provided with central recesses a cylindrical shape under the support-centering element, made in the form of coaxially attached to the support plates along the outer generatrix of two t corrugated corrugated membranes with radial rectangular cuts and with central holes in which the supporting discs are mounted on the side of the support plates and fixedly fixed with the help of the hubs, and flat springs are placed in the membrane cuts with a gap, perpendicular to the ends of the disks, the springs and cuts being located with the same circumferential pitch and at the same distance from the axis of the base plates.

Between the totality of the claimed features of the invention and the expected technical results provided by the proposed invention, there is a causal relationship, which consists in the following.

Firstly, the exclusion from the proposed design of the support-centering element of kinematic pairs with external friction, contributes to its simplification and stabilization of the dimensional parameters of the endoprosthesis, since there is no wear factor, and therefore, its service life and the period before repeated surgery are increased.

Secondly, the absence of wear products that enter the human body eliminates the need for their removal from body tissues during revision operations.

Thirdly, the support-centering element, containing membranes and flat springs connecting the support plates, ensures structural integrity, which simplifies the installation of the endoprosthesis in the intervertebral space, reduces the operation time and does not require complicated expensive auxiliary tools.

In FIG. 1 shows a sectional view of the structure of the interbody prosthesis of the spine; in FIG. 2 is a view along arrow A in FIG. one; in FIG. 3 is a view along arrow B in FIG. 2; in FIG. 4 is a diagram of the torsional deformation of a flat spring.

The endoprosthesis (Fig. 1) includes two coaxially and opposite opposed supporting plates 1 and 2, on the inner surfaces of which are facing one another the central cylindrical recesses 3 are made under the support-centering element, consisting of two dish-shaped corrugated membranes 4 and 5 s radial cuts of rectangular shape 6 and with central holes in which are mounted on the side of the support plates and are fixedly mounted, for example, by welding the hub 7 of the support disc 8.

The membranes are facing one another with the bottom parts and are aligned coaxially along the outer generators to the support plates, and in their rectangular cuts (holes) (Fig. 2), flat springs 9 are placed with a gap δ, which are perpendicularly attached with their ends to the support disks.

Rectangular slots and flat springs are located around the circle with the same circumferential pitch t and at the same distance R from the axis of the support plates, the outer surfaces of which are equipped with sawtooth fixation elements 10, designed to prevent the plates from moving (shear) relative to the vertebrae after installing the endoprosthesis in the interbody space of the spine. The teeth are made inclined to the side opposite to the installation direction of the endoprosthesis (Fig. 3).

Flat springs forming a torsion-working cylindrical plate torsion having high rigidity in the axial and radial directions provide angular (rotational) relative movement of the plates α _z (Fig. 1), i.e. rotation around the Z axis due to internal elastic torsional deformations (Fig. 4), and membranes with high stiffness in the radial direction provide angular displacements α _x , α _y around the X and Y axes, respectively (Fig. 2), as well as linear δ _z along the Z axis (Fig. 1) - due to elastic bending deformations (deflections), i.e., without external friction, and therefore, without dimensional wear.

The presence in the design of the endoprosthesis of two separately located membranes contributes to the distribution between them of elastic deformations arising in them during the development of the required values of the angular displacements α _x , α _y , which reduces the likelihood of fatigue failure and, consequently, increases their service life.

All structural elements of the endoprosthesis are made of bioinert titanium alloys having high elastic properties.

The installation of the endoprosthesis is as follows.

First, the failed disc is removed (osteochondrosis, trauma, hernia). Then, using the retractor sliding device, the necessary intervertebral space is created and deaf pair grooves are used in the vertebral plate plates, which are guides for the fixing elements, open towards the endoprosthesis insertion direction, the endoprosthesis is inserted to the length of the blind grooves (to the stop), which ensures its location in the center of the vertebrae, and then the fixing elements are inserted into the bone tissue until the supporting plates contact the vertebral bodies using the previously used device.

Subsequent osteogenesis, i.e. germination of bone structures in the external open cavities of sawtooth elements (Fig. 3), reliably fixes the endoprosthesis in the vertebral bodies.

The proposed design ensures the reliability of the installation, four degrees of relative mobility (freedom) of the support plates, namely, the angular displacements α _x , α _y , α _z around the X, Y, Z axes, and the linear displacement δ _z along the Z axis, which coincides with the axis of symmetry of the endoprosthesis while blocking their radial (linear) movements along the X and Y axes.

Claims (1)

An interbody endoprosthesis of the spine, comprising two support plates opposite to one another located on the same axis with sawtooth fixation elements in the vertebral bodies on their outer surfaces and an elastic support-centering element installed between them, characterized in that the inner surfaces of the support plates are provided with central cylindrical recesses under the support a centering element made in the form of two plate-shaped corrugated membranes with radially coaxially attached to the support plates along the outer generatrix with rectangular cuts and with central holes in which the supporting discs are mounted on the side of the support plates and fixedly fixed with the help of the hubs, and flat springs are placed in the cuts of the membranes with a gap, perpendicular to the ends attached to the discs, the springs and cuts being arranged with the same circumferential step and at the same distance from the axis of the support plates.

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