RU2641980C2 - Liquid intervertebral disk endoprosthesis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: liquid intervertebral disc endoprosthesis contains upper and lower axisymmetric and opposite supporting plates with spike-shaped fixation elements in the bodies of the vertebrae on plates outer surfaces and an elastic supporting-centering element installed between them. The supporting-centering element is made in the form of a flat circular membrane box formed by two poppet corrugated membranes connected along the outer generatrix and located coaxially and opposite, with a central hole in a ring collar in one of them, while the bottom part of the membrane with no holes is attached to the lower supporting plate. A cylindrical cup is fixed with its upper part in the central hole of the other membrane, its bottom contains radial slits which located along a circle with the same circuit step, to fix the ends of flat springs installed in the cup parallel to its axis and connecting the lower part with the upper supporting plate containing the same mirror slits for fixation of the other ends of the springs. The box cavity formed by the membranes and cup is sealed and filled with bioinert medical gel under excessive pressure, and the cup cavity of with flat springs is filled with elastic bioinert silicone.

EFFECT: simplified design, lack of wear debris falling into the human body tissue, and hence of the need to remove them during inspections, increased service life of the implant and reduced duration of operational interference.

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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 are used that are used in the surgical treatment of osteochondrosis of the spine, 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 it is placed instead of a remote intervertebral disk (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 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 (implant) of the intervertebral disc, containing two support plates with fixation elements and a disc made of alloplastic material having elastic properties located between the plates. 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 disc made of elastic alloplastic material (silicone rubber) between them, was taken as a prototype. 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 (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:

- simplification of the design, due to the exclusion of movable joints with external friction, subject to dimensional mechanical wear, from the composition of its supporting centering element;

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

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

- simplification of manipulations on its installation;

- increase the life of the endoprosthesis;

- reducing the duration of surgery.

The achievement of these results is due to the fact that in the fluid endoprosthesis of the intervertebral disc containing the upper and lower axisymmetrically and oppositely located supporting plates with spear-shaped fixation elements made on their outer surfaces in the vertebral bodies, the elastic support-centering element installed between them is made in the form of a flat a round membrane box formed by two elastic corrugated plates connected along an external generatrix coaxially and opposite E membranes with central, annular collar framed aperture in one of them. The box is attached with the bottom of the membrane without an opening to the lower support plate, and in the central hole of the other membrane, a cylindrical cup is fixed with its upper part, in the bottom of which are made radial slots located on the same circle with the same circumferential pitch to fix the ends of the flat springs installed in the cavity of the cup parallel to its axis and connecting the bottom with the upper support plate having the same mirror-shaped slots for securing the other ends of the springs. The cavity of the box formed by the membranes and the glass is sealed and filled with bioinert medical gel under excessive pressure, and the glass cavity with flat springs is filled with elastic bioinert silicone.

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 support-centering elements forming kinematic pairs with external friction helps to simplify and stabilize the dimensional parameters of the endoprosthesis, since there is no wear factor, and therefore, its service life and the period of 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 membrane box connecting the support plates to one another 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.

Fourth, the elastically deformed state of the box membranes under the action of a constant value of internal overpressure helps to stabilize the required relative location of the support plates, and therefore the vertebrae, taking into account the static and dynamic loads acting on them arising in the process of the person performing motor functions.

Fifth, by changing the amount of excess pressure in the cavity of the box, it is possible to provide the installation height of the endoprosthesis that optimally corresponds to the thickness of the removed intervertebral disc.

In FIG. 1 shows a sectional view of the design of a fluid endoprosthesis of an intervertebral disc; in FIG. 2 is a view along arrow A in FIG. one.

The endoprosthesis (Fig. 1) consists of two, upper 1 and lower 2, opposite and axisymmetrically located support plates, between which there is a support-centering element in the form of a round flat membrane box 3, consisting of two opposite and coaxially located elastic corrugated plate membranes 4 and 5, interconnected along the outer generatrix and different in the bottom of one of them of the Central hole, equipped with an annular centering collar 6.

The box is attached by the bottom of the membrane 4 to the lower support plate, and in the central hole of the membrane 5, with the help of an annular collar 6, a cylindrical cup 7 is installed and fixed with its upper part, the bottom part of which is made spherical and provided with radial slots located on the same circle with the same circumferential pitch and designed to fix the ends of the flat springs 8 installed in the cavity of the glass parallel to its axis (Fig. 2). The other ends of the flat springs are fixed in the same mirror-shaped slots in the upper support plate located with a gap relative to the bottom of the membrane 5.

The outer surfaces of the support plates are equipped with spear-shaped fixation elements 9, designed to prevent their movement (shift) relative to the vertebrae after the installation of the endoprosthesis.

The cavity of the membrane box is sealed and filled with a medical bioinert gel under pressure, which provides an elastically deformed state of the membrane box in the axial direction and a predetermined gap between the bottom parts of the glass 7 and the membrane 4, which can vary under the action of static and dynamic loads on the spine.

The cavity of the cup with the flat springs installed in it is filled with elastic bioinert (medical) silicone, which increases the stability of the flat springs under the action of longitudinal loads and prevents the accumulation of fluid in the human body.

The flat springs fixed at the ends form a plate-cylindrical torsion providing relative elastic angular movement of the support plates by the value α _z = ± 2 ° (Fig. 1), i.e. performs the functions of a movable kinematic joint with internal friction, eliminating the need to use movable joints with external friction for this purpose, and dish-shaped membranes provide relative linear displacement of the plates l _z due to elastic deformation in the axial direction and angular displacements α _x and α _y within ± 10 °.

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

The diameter of the membrane box D and the height H, depending respectively on the size of the vertebra and the thickness of the removed intervertebral disc, are in the following limits: D = 30 ... 35 mm, H = 12 ... 14 mm.

The thickness of the membranes lies in the range 0.05 ... 0.25 mm, the thickness of the flat springs and their number are determined by the static and dynamic loads on the musculoskeletal system of a person - a patient and depend on the size H of the endoprosthesis, and can be in the following ranges: thickness - 0 , 1 ... 0.5 mm, quantity - 3 ... 8 pieces.

The installation of the endoprosthesis is as follows.

First, the failed disc is removed (hernia, trauma). Then, using a retractor, the necessary interbody space is created, an endoprosthesis is inserted, placing it in the center of the vertebral closure plates, and spear-shaped fixing elements are inserted into the bone tissue until the supporting plates come into contact with the vertebral body using a previously used device (tool).

Subsequent osteogenesis, i.e. fouling of the figured surfaces of spear-shaped fixing elements with bone tissue, as well as its germination in the cutouts of the support plates, securely fix them in the vertebral bodies.

The proposed design ensures the reliability of the installation, four degrees of relative mobility (freedom) of the support plates, namely, angular displacements around the Χ, Υ, ос axes and linear displacement along the оси axis, coinciding with the symmetry axis of the endoprosthesis, blocking their radial (linear) displacements along axes X and Υ.

Claims (1)

A fluid endoprosthesis of the intervertebral disc, containing the upper and lower axisymmetrically and oppositely located support plates with spear-shaped fixation elements made on their outer surfaces in the vertebral bodies and an elastic support-centering element installed between them, characterized in that the support-centering element is made in the form of a flat round circular a membrane box formed by two elastic corrugated disk membranes connected along an outer generatrix coaxially and opposedly arranged, with a central, framed by an annular collar, a hole in one of them, attached by the bottom of the membrane without a hole to the lower support plate, and in the central hole of the other membrane, a cylindrical cup is fixed with its upper part, in the bottom of which there are made radial radially arranged on the same circle with the same circumferential pitch the slots in which the ends of the flat springs are mounted, installed in the cavity of the glass parallel to its axis and connecting the bottom with the upper support plate having the same mirrors but formed slits for fixing the other ends of the springs, the formed membranes and hollow glass box filled and sealed is formed bioinert medical gel under excess pressure and the cup cavity with flat springs - elastic bioinert silicone.

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