RU2626137C2 - Closed endoprosthesis for intervertebral disc - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: closed intervertebral disc prosthesis comprises oppositely disposed support plates, elements retaining lateral movement relative to the vertebrae and a disc mounted between the plates, which is a part of the mobile connection of plates. Between the coaxially arranged plates corrugated elastic diaphragm membranes are attached, which are interconnected along the outer circumference and form a flat membrane box cavity which is filled with a biocompatible liquid containing antifriction unmodified carbon nanoparticles. A disc made from high molecular weight polyethylene is installed in the cavity membrane box cavity and pressed against the adjacent membrane with its flat face by the curved ends of the attached cruciform washer covering the face along the edge of the sphere, the washer is located in the flat end recess, with its convex spherical end face forming a movable spherical joint a concave spherical end face of the disc-shaped titanium abutment attached to the other membrane with its flat end. Fixing elements are designed as flat serrated brackets with holes in the side walls fixed perpendicularly to the outer surfaces of the support plates.

EFFECT: increased stability of the mutual arrangement of the endoprosthesis elements, simplifed installation, reduced wear of element surfaces, forming a flexible joint, increased implant service life and reduced duration of surgery.

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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 osteochondrosis are known, which are box-shaped metal inserts with holes and cavities of various shapes with fixation elements in the form of teeth on supporting surfaces intended for insertion into the vertebral body, between which it is placed instead remote intervertebral disc (Patent of Ukraine No. 41079 A dated October 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 adjacent vertebrae, depriving them of relative mobility in all directions, thereby limiting the flexibility of the human spinal column.

The restoration of the mobility of the elements of the spine is ensured by endoprostheses of the intervertebral discs, consisting of two opposite and coaxially located support plates of a permeable-porous superelastic material, between which there is an intermediate 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 of the intervertebral disc, containing two support plates with fixation elements and a disk of alloplastic material located between the plates. The fixation elements are made of a material with a memory effect, which allows them to rotate the fixators about 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.

As a prototype, the design of the endoprosthesis of the intervertebral disc (Patent RU No. 2200510 C1, IPC ⁷ A61F 2/44, 2003) was taken, containing two axisymmetric plates and a disc made of alloplastic material (silicone rubber) placed between them. 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 fixation elements relative to the vertebrae are spear-shaped and placed on the outside of the support plates.

The main disadvantages of this design of the endoprosthesis 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;

- long duration of surgery.

The expected technical results from the invention are:

- increase the stability of the relative positioning of the elements of the endoprosthesis;

- simplification of manipulations on its installation;

- reducing wear on the surfaces of the elements forming the movable joint;

- increase the life of the endoprosthesis;

- reducing the duration of surgery.

The achievement of these results is due to the fact that in a closed endoprosthesis of the intervertebral disc, containing opposite supporting plates, elements of fixation from lateral displacement relative to the vertebrae, as well as a disk installed between the plates, which is part of the movable connection of the plates, corrugated attached to the plates are coaxially aligned elastic dish-shaped membranes that are interconnected along the outer circumference and form a flat membrane sealed box, p lethargy which is filled with a biocompatible liquid containing antifriction modified carbon nanoparticles.

A disk made of high molecular weight polyethylene (hirulen) is installed in the cavity of the membrane box and is pressed against the adjacent membrane with its flat end covering the curved ends attached to this membrane with a cross-shaped washer located in the recess of the flat end, and its convex spherical end face a movable spherical connection with a concave spherical end face of a disk-shaped stop attached with a flat end to another membrane.

The fixing elements are made in the form of flat jagged consoles with holes in the side walls fixed perpendicular to the outer surfaces of the support 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 movable joint is made of wear-resistant and high-strength materials (hirulen - titanium) and is placed in a sealed cavity filled with a highly effective artificial lubricant based on unmodified carbon nanoparticles, which helps to reduce friction and, consequently, wear of the movable joint elements and changes in their original shape.

Secondly, wear products do not enter the human body, which eliminates the need to remove them from the body tissues when performing revision operations to replace the endoprosthesis.

Thirdly, the elastically deformed state of the box membranes ensures constant contact between the spherical surfaces of the disk and the stop, their alignment, which reduces wear and helps to stabilize the relative position of the vertebrae.

Fourth, the presence of an elastic membrane box connecting the support plates to each other ensures structural integrity, which simplifies the installation of the endoprosthesis in the intervertebral space, reduces the time of surgery and does not require complicated expensive auxiliary tools for its installation.

In FIG. 1 shows a sectional endoprosthesis design; 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 - a cross-shaped recess on the flat end of the disk, pos. 8 in FIG. one.

A closed endoprosthesis (Fig. 1, 2) consists of two coaxially and opposite opposed circular support discs 1 and 2, on the outer sides of which are made fixation elements in the form of flat serrated consoles 3 with holes 4 in the side walls (Fig. 3), and corrugated elastic dish-shaped membranes 5 and 6 are attached to the inner sides, interconnected along the outer circumference and forming a flat sealed membrane box, the cavity of which is filled with a biologically compatible liquid with non-modifying anti-friction nanoparticles ovannogo carbon, such as C ₆₀ fullerene (GN Churylov Fullerenes: Synthesis and theory of formation / GN Churylov, NV Bulina, A. Fedorov, Ross Acad Sciences, Siberian Branch, Novosibirsk... : SORAN Publishing House, 2007 .-- 230 p.).

A disk 8 with a one-sided convex spherical surface made of high molecular weight Chirulen polyethylene (cross-linked polyethylene UHMWPE) (NEW POLYS FOR OLD: CONTRIBUTION OR CAVEAT / S. Greenwald, TW Bauer, MD Ries / American Academy of orthopedic surgeons. - 68 ^th Annual meeting, February 28 - March 4, 2001, San Francisco, California) and an emphasis in the form of a disk 9 of titanium with a one-sided concave spherical surface, which are in contact, forming a movable spherical joint. With its flat end surface, the stop 9 is attached directly to the adjacent membrane 5, and to fix the disk 8 on its end surface, there is a cross-shaped recess 10 (Fig. 4) under the cross-shaped washer 11 attached to the adjacent membrane 6, the curved ends 12 of which cover the disk along the edge of the sphere providing its contact with the membrane.

All metal parts of the implant are made of titanium, which is a biocompatible material. Using fullerene C ₆₀ reduces the friction coefficient by 8 ... 10 times, which leads to a significant increase in the life of the endoprosthesis (Lashneva VV, Dubok VA, Tkachenko Ju.G. Physiko - chemical properties of fullerene C ₆₀ based coatings // Book of abstract. VIII International Conference - ICHMS 2003, Sudak, Crimea, Ukraine, 14-20 Sept., 2003. - P. 718-721).

The installation of the endoprosthesis is as follows.

First, the failed disc is removed (osteochondrosis, trauma). Then, using a sliding device, the necessary intervertebral space is created and deaf paired grooves are used in the vertebral closure plates, which are guides for the fixing elements, open in the direction of 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 vertebrae, and insert the fixing elements into the bone tissue until the supporting plates contact the vertebral body using the previously used device.

Subsequent osteogenesis, i.e. sprouting of bone structures into the holes of the fixing elements reliably fix the endoprosthesis in the vertebral bodies.

The proposed design ensures installation reliability and angular mobility of the vertebrae, blocks their axial and radial (transverse) displacements.

Claims (1)

A closed endoprosthesis of the intervertebral disk, containing opposite supporting plates, fixation elements from lateral displacement relative to the vertebrae, and also a disk installed between the plates, which is part of the movable connection of the plates, characterized in that corrugated elastic membrane-shaped membranes attached to them are coaxially mounted between them interconnected along the outer circumference and form a flat membrane box, the cavity of which is filled with a biocompatible fluid containing antifriction nanoparticles of unmodified carbon, a disk made of high molecular weight polyethylene is installed in the cavity of the membrane box and pressed against the adjacent membrane with its flat end, the curved ends attached to this membrane, which are attached to this membrane, are located in the recess of the flat end, and its a convex spherical end face forms a movable spherical joint with a concave spherical end face of a disk-shaped stop made of titanium attached with a flat end ohm to another membrane, and the fixation elements are made in the form of flat jagged consoles with holes in the side walls fixed perpendicular to the outer surfaces of the support plates.

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