CN214414985U - Combined elastic artificial intervertebral disc - Google Patents

Abstract

The utility model discloses a combined elastic artificial intervertebral disc, which comprises an upper end plate, a lower end plate, a coating and a multi-layer nucleus pulposus structure formed by combining at least three layers of nucleus pulposus elastic rings; the inner diameter of each layer of nucleus pulposus elastic ring of the multilayer nucleus pulposus structure is sequentially increased from inside to outside, the outer periphery of the nucleus pulposus elastic ring at the outermost layer is wrapped by the envelope, and the nucleus pulposus elastic ring and the envelope are fixedly clamped between the upper end plate and the lower end plate; gaps are reserved among the nucleus pulposus elastic rings of each layer, and the nucleus pulposus elastic rings of different layers are not contacted in the assembling and deforming processes. The utility model discloses can effectively solve current artificial intervertebral disc and have the technical problem of friction piece risk to and the technical problem that artificial intervertebral disc and human normal intervertebral disc mechanical properties of prior art are not close.

Description

Combined elastic artificial intervertebral disc

Technical Field

The utility model belongs to the technical field of artificial intervertebral disc, a modular elasticity artificial intervertebral disc is related to.

Background

The spine degeneration caused by the protrusion or the prolapse of intervertebral disc is a common disease, and is known that the cervical vertebra and lumbar vertebra patients in China reach nearly 2 hundred million respectively at present, and the patients are in a low-age trend. For more serious intervertebral disc diseases, when conservative treatment is ineffective, only surgical treatment can be carried out. In recent years, a novel spine operation treatment mode is clinically developed, namely, a movable artificial intervertebral disc is used for replacing a diseased intervertebral disc, and the effects of recovering and maintaining the mobility and stability of the spine of an operation section can be achieved.

The structures of the artificial intervertebral disc products on the market at present or the products disclosed and reported in the patent documents basically adopt a hard support design of a ball and socket friction type, and particularly, the artificial intervertebral disc structures can be divided into a sliding friction type and an elastic deformation type from the aspect of an activity mode. Most of the sliding friction type artificial intervertebral discs are artificial intervertebral discs with a ball-and-socket structure, such as the structures disclosed in patents CN1913846B and CN 201977964U. The artificial intervertebral disc is generally made of metal or plastic materials, motion is realized through sliding friction between different parts, axial shock absorption cannot be realized due to the metal or plastic materials, vibration of the vertebral column is absorbed, friction and abrasive dust risks exist for a long time due to the friction motion, and the biomechanical property of the artificial intervertebral disc is different from that of a normal intervertebral disc greatly. The elastic deformation type artificial intervertebral disc is generally characterized in that a piece of elastic material is used as nucleus pulposus and is placed between two end plates made of metal or hard plastic, and the movement is realized by utilizing the deformation of the middle elastic nucleus pulposus. For example, patent CN 209316158U discloses an elastic nucleus pulposus composed of belleville spring sets, patent CN 110025408a discloses an elastic nucleus pulposus made of metal rubber formed by metal wire punch forming, and patent CN202027749U discloses an elastic nucleus pulposus prepared from an elastomer material, wherein most of the nucleus pulposus materials are single materials, and a human normal disc is composed of gelatinous substances, fibrous ring matrixes and fibers and has various properties, so that the artificial disc made of the nucleus pulposus material prepared from the single material is difficult to simulate the biomechanical properties of the normal disc. Patent CN 109381282a discloses an artificial intervertebral disc consisting of an elastic support body with a central hole and struts in the central hole, wherein the nucleus pulposus consists of two component materials, and the effect of simulating the biomechanical properties of the normal human intervertebral disc may be somewhat improved but limited compared to one material, and at the same time, the friction interface and the risk of abrasive dust between the support body and the struts are increased. Therefore, the above elastic deformation type intervertebral disc can realize the shock absorption function, but still has the problems of abrasive dust risk and larger difference of the biomechanical property and the normal intervertebral disc.

In conclusion, the mechanical characteristics of the artificial intervertebral disc structure disclosed by the prior art are greatly different from the biomechanical characteristics of a normal cervical intervertebral disc, and the clinical manifestations mainly include that the mobility of an implanted segment is increased, so that the stress of surrounding facet joints and ligament tissues is increased; the product has the risk of friction debris in long-term use and can not effectively absorb external force shock. Therefore, how to realize better shock absorption and reduce abrasive dust of the artificial intervertebral disc and achieve the mechanical property close to that of the normal intervertebral disc of a human body becomes a hotspot and difficulty of the current research.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a combined elastic artificial intervertebral disc, which can effectively solve the technical problem that the prior artificial intervertebral disc has the risk of grinding scraps.

The second problem of the combined elastic artificial intervertebral disc of the utility model is to solve the technical problem that the mechanical properties of the artificial intervertebral disc and the normal intervertebral disc of the human body in the prior art are not close.

In order to achieve the above purpose, the utility model adopts the following technical scheme to realize:

the utility model discloses a combined elastic artificial intervertebral disc, which comprises an upper end plate, a lower end plate, a coating and a multi-layer nucleus pulposus structure formed by combining at least three layers of nucleus pulposus elastic rings;

the inner diameter of each layer of nucleus pulposus elastic ring of the multilayer nucleus pulposus structure is sequentially increased from inside to outside, the outer periphery of the nucleus pulposus elastic ring at the outermost layer is wrapped by the envelope, and the nucleus pulposus elastic ring and the envelope are fixedly clamped between the upper end plate and the lower end plate; gaps are reserved among the nucleus pulposus elastic rings of each layer, and the nucleus pulposus elastic rings of different layers are not contacted in the assembling and forming processes.

Preferably, the nucleus elastic ring is composed of an elastomeric material; the modulus of the elastic rings of the nucleus pulposus of different layers is different, and the modulus is gradually reduced from the center to the periphery.

Preferably, the envelope is made of an elastic material, and the surface of the envelope is smooth or provided with corrugated lines.

Preferably, the gap between adjacent nucleus elastic rings is filled with a lubricating medium.

Preferably, the lubricating medium is a gas or a physiological saline.

Preferably, a matching structure for clamping and fixing a plurality of layers of nucleus pulposus elastic rings and envelopes is arranged on one surface of the upper end plate and the lower end plate, which is contacted with the nucleus pulposus elastic rings.

Further preferably, the mating structure is a groove.

Still further preferably, the cross-section of the grooves is of a chamfered, T-shaped or corrugated type.

Preferably, the cross-sectional curves of the elastic nucleus pulposus rings of different layers are the same or different, and the cross-sectional curves are straight lines, arc lines or wavy lines.

Preferably, the upper surface of the upper end plate and the lower surface of the lower end plate are both provided with spikes for contacting with vertebrae; the upper surface of the upper end plate and the lower surface of the lower end plate are coated with pure titanium coatings or hydroxyapatite coatings.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses a combined elastic artificial intervertebral disc, firstly, gaps are left between elastic rings of nucleus pulposus of each layer of the multi-layer nucleus pulposus structure of the artificial intervertebral disc, and the elastic rings are not contacted with each other during normal application, assembly and deformation, so that the generation of abrasive dust caused by sliding friction can be effectively avoided; secondly, the outermost layer of the nucleus pulposus elastic rings is provided with the envelope, so that the risk caused by leakage of generated abrasive dust can be avoided. And the structure is an assembled structure, the processing and assembling processes are simple, and the manufacturing cost can be effectively reduced. The utility model discloses a combination formula elasticity artificial intervertebral disc can effectively solve current artificial intervertebral disc and have the technological problem of grinding piece risk.

Further, the utility model discloses a nucleus pulposus elastic loop of combination formula elasticity artificial intervertebral disc is multilayer gradient elastomer structure, comprises elastomer material, and the modulus of different layers nucleus pulposus elastic loop is different, steadilys decrease in proper order to the week modulus by the center, verifies through the experiment, can realize the biomechanics performance similar with normal intervertebral disc.

Furthermore, a lubricating medium is filled in the gap between the adjacent elastic rings of the nucleus pulposus, so that certain lubrication can be performed on the motion deformation of the nucleus pulposus material, and the possible interface friction effect is reduced.

Furthermore, the nucleus pulposus elastic ring or the envelope is clamped and fixed through the grooves formed in the upper end plate and the lower end plate, the nucleus pulposus elastic ring is easily assembled and connected through the grooves, and the nucleus pulposus elastic rings of different layers can be accurately positioned.

Furthermore, the cross section of the groove is in a chamfer shape, a T shape or a ripple shape, because the rough surface is easier to firmly assemble the nucleus pulposus elastic ring or the capsule, so that the fixation is more stable.

Furthermore, the contact surfaces of the upper end plate and the lower end plate with the vertebrae are provided with sharp spines and are also coated with a pure titanium coating or a hydroxyapatite coating, which is beneficial to realizing the long-term fixation of the implanted vertebrae of the artificial intervertebral disc.

Drawings

Fig. 1 is an exploded view of the structure of each part of the artificial intervertebral disc according to the embodiment of the present disclosure.

Fig. 2 is an assembly view of the overall structure of the artificial intervertebral disc according to the embodiment of the present disclosure.

FIG. 3 is a cross-sectional view of an artificial disc nucleus pulposus construction according to an embodiment of the disclosure; wherein, (a) is a schematic cross-sectional view; (b) is a schematic view of the components.

FIG. 4 is a schematic view of the artificial disc nucleus pulposus of the present disclosure with different curved surfaces and different number of layers; wherein (a) is a straight line; (b) a curve; (c) a corrugated line; (d) four layers; (e) and five layers.

FIG. 5 is a schematic view of different curved surfaces of the contact surface between the nucleus pulposus of the artificial intervertebral disc and the end plate according to the embodiment of the present disclosure; wherein, (a) is a chamfer type; (b) is a partial enlarged view of A in the figure; (c) is a T-shaped groove; (d) is a partial enlarged view of B in the figure; (e) is corrugated; (f) is a partial enlarged view of C in the figure;

fig. 6 is a lateral bending deformation diagram of the artificial intervertebral disc according to the embodiment of the present disclosure.

Fig. 7 is a comparison graph of the mechanical properties of the artificial cervical intervertebral disc implanted into vertebrae and subjected to the same moment applied thereto.

Wherein: 1-upper end plate; 2-outer layer of nucleus pulposus; 3-nucleus pulposus intermediate layer; 4-nucleus pulposus inner layer; 5, coating; 6-inferior endplate.

Detailed Description

In order to make the technical solution of the present invention better understood, the technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The present invention will be described in further detail with reference to the accompanying drawings:

as shown in fig. 1, the present embodiment provides a combined elastic artificial intervertebral disc, which is composed of an upper end plate 1, a lower end plate 6, a multi-layer nucleus pulposus and an envelope 5 which are combined by at least three layers of elastic rings. The multi-layer nucleus pulposus consists of three or more elastic rings, such as an outer nucleus pulposus layer 2, an intermediate nucleus pulposus layer 3 and an inner nucleus pulposus layer 4 shown in figure 1, wherein the different layers are separated from each other, and the different layers are not contacted with each other in the assembling and deforming processes. The nucleus pulposus is made of elastic materials, each layer of elastic ring of the nucleus pulposus is made of materials with the same modulus, the modulus of the materials among different layers is different, and the modulus is reduced from the inner layer to the outer layer in sequence. The different layers of the nucleus pulposus can be separated by air or filled with physiological saline, and the physiological saline is preferably selected as the space, so that certain lubrication is realized on the motion deformation of the nucleus pulposus material, and the possible interface friction effect is reduced. The capsule 5 is wrapped on the periphery of the nucleus pulposus outer layer 2, wraps the whole nucleus pulposus and is connected with the upper end plate 1 and the lower end plate 6, the capsule is not contacted with the nucleus pulposus at the outermost layer structurally, but the elastic ring can be contacted when being deformed. The surface of the envelope 5 is a smooth flat film or a curved corrugated line, and the curved corrugated line is preferential. The surfaces of the upper end plate 1 and the lower end plate 6, which are contacted with nucleus pulposus, are provided with matching structures, so that different nucleus pulposus layers and envelopes can be firmly clamped, and the fixing and assembling effects can be realized. The contact surfaces of the upper end plate 1 and the lower end plate 6 with the vertebrae are provided with spikes, so that the artificial intervertebral disc can be fixed with the vertebrae in time after being implanted. The contact surfaces of the upper end plate 1 and the lower end plate 6 and the vertebrae are coated with pure titanium or hydroxyapatite coatings, which is beneficial to realizing the growth of the vertebrae after the artificial intervertebral disc is implanted and realizing the long-term fixation.

As shown in fig. 2, the combined elastic artificial intervertebral disc of the present invention is assembled before surgical implantation, and then is conveniently implanted between the vertebrae of the surgical segment in the form of a whole component.

As shown in fig. 3, the nucleus pulposus has a spacing between the various layers and the modulus decreases in order from the inner nucleus pulposus layer 4 to the outer nucleus pulposus layer. The number of nucleus pulposus layers may be three or more, and when the number of nucleus pulposus layers is four or more, the number of nucleus pulposus layers 3 is two or more. The nucleus pulposus material can be one or two of polyurethane and silicon rubber, and different layers can be made of the same material or different materials. The gradient elastic modulus of nucleus pulposus is 0.05-150 MPa.

As shown in FIG. 4, the elastic rings of the different layers of the nucleus pulposus may have different cross-sectional curves, may be straight, and are shown in FIG. 4 (a); may be a concave arc line, as shown in fig. 4 (b); may be a wavy line, as shown in (c) of FIG. 4; different cross-sections, varying in degree and force upon deformation, are relatively better for curved or wavy lines. The number of nucleus pulposus layers is three or more, and three, four (shown in fig. 4 (d)) and five (shown in fig. 4 (e)) schematic representations are shown in the figure.

Referring to fig. 5, the surfaces of the upper and lower endplates 1 and 6 contacting the nucleus are provided with mating structures, which may be grooves having a cross section of a chamfer type (shown in (a) and (b)), a T type (shown in (c) and (d)), or a corrugation type (shown in (e) and (f)), and other structures for easily and firmly assembling the nucleus and the elastic membrane.

As shown in figure 6, in the process of the artificial intervertebral disc deformation, different layers of the nucleus pulposus are not contacted with each other, so that abrasion dust caused by mutual friction can not be generated, the nucleus pulposus and the envelope 5 can not be separated from the matching structure of the upper end plate 1 and the lower end plate 6, and the risk of generation and leakage of the abrasion dust is further reduced.

As shown in FIG. 7, a biomechanical comparison of an artificial disc with nucleus pulposus of different modulus versus a normal disc during anteflexion is shown. Curve a is an artificial disc containing a single low modulus nucleus pulposus, curve b is an artificial disc containing two layers of gradient modulus nucleus pulposus, curve c is an artificial disc containing three layers of gradient modulus nucleus pulposus, curve d is an artificial disc containing four layers of gradient modulus nucleus pulposus, curve e is a normal disc and curve f is an artificial disc containing a single high modulus nucleus pulposus. As can be seen from the biomechanical property curves in the figure, the biomechanical curves of the artificial intervertebral disc containing three layers and four layers of gradient moduli are the closest to the biomechanical curve of the normal intervertebral disc. Therefore, the gradient modulus intervertebral disc containing three or more layers has more bionic performance than the nucleus pulposus artificial intervertebral disc with single modulus or two-layer modulus.

The above contents are only for explaining the technical idea of the present invention, and the protection scope of the present invention cannot be limited thereby, and any modification made on the basis of the technical solution according to the technical idea of the present invention all fall within the protection scope of the claims of the present invention.

Claims (10)

1. The combined elastic artificial intervertebral disc is characterized by comprising an upper end plate (1), a lower end plate (6), an envelope (5) and a multi-layer nucleus pulposus structure formed by combining at least three layers of nucleus pulposus elastic rings;

the inner diameter of each layer of nucleus pulposus elastic ring of the multilayer nucleus pulposus structure is sequentially increased from inside to outside, the coating (5) is wrapped on the periphery of the nucleus pulposus elastic ring on the outermost layer, and the nucleus pulposus elastic ring and the coating (5) are fixedly clamped between the upper end plate (1) and the lower end plate (6); gaps are reserved among the nucleus pulposus elastic rings of each layer, and the nucleus pulposus elastic rings of different layers are not contacted in the assembling and forming processes.

2. The modular resilient prosthetic disc of claim 1, wherein said nucleus elastomeric ring is constructed of an elastomeric material; the modulus of the elastic rings of the nucleus pulposus of different layers is different, and the modulus is gradually reduced from the center to the periphery.

3. The modular elastic artificial intervertebral disc according to claim 1, characterized in that the capsule (5) is made of an elastic material, the surface of the capsule (5) being smooth or provided with wavy lines.

4. The modular flexible artificial disc of claim 1 wherein a lubricating medium is filled in the space between adjacent nucleus elastic rings.

5. The modular resilient artificial disc of claim 4 wherein said lubricating medium is a gas or saline.

6. The combined elastic artificial intervertebral disc according to any one of claims 1 to 5, wherein a matching structure for clamping and fixing a plurality of layers of nucleus pulposus elastic rings and envelopes (5) is arranged on one surface of the upper end plate (1) and the lower end plate (6) which is contacted with the nucleus pulposus elastic rings.

7. The modular resilient prosthetic disc of claim 6, wherein said mating structure is a groove.

8. The modular flexible artificial disc of claim 7 wherein the cross-section of the sulcus groove is of a chamfered, T-shaped or corrugated type.

9. The combined elastic artificial intervertebral disc according to any one of claims 1 to 5, wherein the cross-sectional curves of the nucleus pulposus elastic rings in different layers are the same or different, and the cross-sectional curves are straight lines, arc lines or corrugated lines.

10. The combined elastic artificial intervertebral disc according to any one of claims 1 to 5, characterized in that spikes for contacting with vertebrae are arranged on both the upper surface of the upper endplate (1) and the lower surface of the lower endplate (6); the upper surface of the upper end plate (1) and the lower surface of the lower end plate (6) are coated with pure titanium coatings or hydroxyapatite coatings.

Images