DOUBLE-LAYER FIBROUS ANNULUS PATCH, PATCH CLAMP, SUTURE NEEDLE AND FISHBONE SUTURE

Abstract

This invention relates to a double-layer fibrous annulus patch, a patch clamp, a suture needle and a fishbone suture. The inner layer foldable patch and the outer layer foldable patch are arranged and connected by a pair of crossed flexible connectors. Both ends of the two patches are connected by auxiliary connectors. A pair of auxiliary connectors are further arranged on both sides of the outer foldable patch, which can be used with the patch clamp to unfold the patch and secure it in place. With both patches in a folded state, the patch clamp is used to push the inner foldable patch through the rupture in the intervertebral disc into the annulus fibrosus and the patch unfolds within the annulus fibrosus. The outer layer foldable patch is unfolded on the outside of the annulus fibrosus and is fixed by two auxiliary connectors and fishbone sutures.

Claims

1. A double-layered annulus fibrosus patch, including: an inner foldable patch; an outer foldable patch; a pair of flexible connectors arranged in a cross; in the folded state, the openings on the inner foldable patch and outer foldable patch are opposing each other; the two ends of the flexible connectors that exist in pairs are connected to diagonal corners of the inner layer patch and the outer layer patch; each end of the outer foldable patch contains at least an auxiliary connector, which is a wire buckle; in the unfolded state, the inner foldable patch and the outer foldable patch are flattened, and the two flexible connectors intersect and limit the patch to the inner foldable patch and the outer foldable patch on the annulus fibrosus, the folded patches are located on the medial and lateral sides of the annulus fibrosus respectively.

2. The double-layer annulus fibrosus patch according to claim 1, wherein the inner foldable patch contains a first hydrophilic layer and a first support layer that are stacked, in the folded state, the first hydrophilic layer is on the inside of the folded patch and the first support layer is on the outside of the folded patch; the outer layer foldable patch includes a second hydrophilic layer and a second support layer that are stacked; in the folded state, the second hydrophilic layer is on the inside of the folded patch and the second support layer is on the outside of the folded patch.

3. The double-layer annulus fibrosus patch according to claim 2, wherein the fiber direction of the first hydrophilic layer is the same as the fiber direction of the inner layer of the annulus fibrosus; the direction of fibers in the second hydrophilic layer is the same as the direction of fibers of the outer layer of the annulus fibrosus.

4. The double-layer annulus fibrosus patch according to claim 2, wherein the first hydrophilic layer and the second hydrophilic layer have porous structures.

5. The double-layer annulus fibrosus patch of claim 1, wherein it also includes a memory wire, which is passed through the inner layer of the foldable patch and used to unfold the inner layer of the foldable patch after encountering the nucleus pulposus.

6. The double-layer annulus fibrosus patch of claim 1, wherein: the flexible connectors are connecting lines, and the lengths of the two connecting lines are longer than or equal to the distance between the opposite ends of the inner foldable patch and the outer foldable patch in the unfolded state.

7. The double-layer annulus fibrosus patch of claim 1, wherein the auxiliary connectors are wire buckles.

8. A patch clamp applied to the double-layer annulus fibrosus patch of claim 1, comprising: a clamp body; at least one pair of hooks corresponding to at least one pair of the auxiliary connectors, so that the auxiliary connectors are hung on the corresponding hooks.

9. The patch clamp of claim 8, wherein the clamp is provided with a through hole for allowing the memory wire to pass through.

10. A suture needle, wherein being used with the double-layer annulus fibrosus patch of claim 1, the suture needle is semicircular, before suturing, the tip of the suture needle is placed on the annulus fibrosus and the tail of the suture needle is placed at the auxiliary connector.

11. The suture needle of claim 10, wherein the radius of the curvature of the suture needle is 4 mm or 5 mm or 6 mm.

12. A fishbone suture, wherein being used with the double-layer annulus fibrosus patch of claim 1, the fishbone suture is sequentially passed through the outer fibrous annulus on one side and the auxiliary connector on the same side in turn, and passed through the fibrous annulus on the other side and the other auxiliary connector on the same side in turn to complete a needle fixation; the fishbone spurs on the fishbone suture are respectively arranged at the positions where the fishbone suture and the annulus fibrosus are in contact.

13. The fishbone suture according to claim 12, wherein the end of the fishbone suture is knotted, and a number of fishbone spurs are evenly arranged 1-3 mm away from the suture knot to secure the connection of the first suture and the annulus fibrosus, then a number of fishbone spurs are arranged 7-15 mm away from the suture knot to secure the connection between the second suture and the fibrous annulus.

14. The fishbone suture of claim 12, wherein the fishbone spurs on the fishbone suture are angled at 100° and the direction is consistent with the advancing direction of the suture needle.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0075] FIG. 1 is a schematic diagram of the double-layer annulus fibrosus patch of the present invention;

[0076] FIG. 2 is a schematic diagram of the unfolded state of the double-layer annulus fibrosus patch of the present invention;

[0077] FIG. 3 is a schematic diagram of the folded state of the double-layer annulus fibrosus patch of the present invention;

[0078] FIG. 4 is a schematic diagram of the memory wire of the double-layer fibrous annulus patch of the present invention;

[0079] FIG. 5 is a schematic diagram of the patch clamp of the present invention;

[0080] FIG. 6 is a schematic diagram of the clamped state of the patch clamp of the present invention;

[0081] FIG. 7 is a schematic diagram of the loose state of the patch clamp of the present invention;

[0082] FIG. 8 is a schematic diagram of the suture needle and suture thread of the present invention.

[0083] Description of reference numerals: 1: inner foldable patch; 2: outer foldable patch; 3: annulus fibrosus; 4: wire buckle; 5: connecting wire; 6: memory wire; 7: clamp body; 8: hook; 9: through hole; 10: suture needle; 11: fishbone suture; 12: fishbone spur.

DETAILED DESCRIPTION

[0084] The double-layer annulus fibrosus patch, patch clamp, suture needle and fishbone suture of the present invention are further described in detail below with reference to the accompanying drawings and specific embodiments.

Embodiment 1

[0085] Referring to FIGS. 1 to 3, the double-layered annulus fibrosus patch includes an inner foldable patch 1, an outer foldable patch 2, at least one pair of cross-arranged flexible connectors and at least one pair of auxiliary connectors.

[0086] Wherein, the openings of the inner foldable patch 1 and the outer foldable patch 2 are opposite, the two ends of the flexible connectors that exist in pairs are respectively connected to the diagonal corners of the inner foldable patch 1 and the outer foldable patch 2. The two auxiliary connectors that exist in pairs are oppositely arranged on both sides of the outer foldable patch 2. In the unfolded state, the inner foldable patch 1 and the outer foldable patch 2 are flattened, and the two flexible connectors intersect and limit the movement of the inner foldable patch 1 and outer foldable patch 2. The patches are located on the medial and lateral sides of the annulus fibrosus 3, respectively.

[0087] In this embodiment, the two ends of the inner foldable patch 1 and the outer foldable patch 2 are respectively connected by a pair of crossed flexible connectors; Further, a pair of auxiliary connectors are arranged on both sides of the outer foldable patch 2, which can be used with the clamp to unfold the outer foldable patch 2, and can also be used with sutures to fix the outer foldable patch 2 to the annulus fibrosus 3. With the inner foldable patch 1 and the outer foldable patch 2 in a folded state, the inner foldable patch 1 is passed through the rupture into the annulus fibrosus 3 using the clamp so that the inner foldable patch 1 can be unfolded and contact the inner layer of the annulus fibrosus 3. The outer layer foldable patch 2 is attached to the outer layer of the annulus fibrosus 3. The outer layer foldable patch 2 is fixed to the outer layer of the annulus fibrosus 3 with two auxiliary connectors and sutures. The inner layer foldable patch 1 is restrained in the inner layer of the annulus fibrosus 3 by the two crossed flexible connectors, thereby repairing the annulus fibrosus 3. The repair process only requires two steps, which are inserting the inner foldable patch 1 and suturing the auxiliary connector and the annulus fibrosus 3. This is a simple process and does not require repetitive threading and knotting, minimizing operative time and reducing the risk of re-herniation of the annulus fibrosus.

[0088] The double-layer patch design with an inner foldable patch 1 and outer foldable patch 2 can block an existing rupture in the annulus fibrosus. Cells, hydrogels or other repair materials can be inserted between the inner and outer patches, which can promote healing of the annulus fibrosus and reduce the risk of re-herniation.

[0089] The specific structure of the double-layer annulus fibrosus patch of the present embodiment is further described below:

[0090] In this embodiment, the inner layer foldable patch 1 includes a first hydrophilic layer and a first support layer, and the first hydrophilic layer is located inside the first support layer in a folded state. The outer layer foldable patch 2 includes a second hydrophilic layer and a second support layer, and the second hydrophilic layer is located inside the second support layer in the folded state. The hydrophilic layer and support layer of the inner foldable patch 1 and outer foldable patch 2 are stacked, and the hydrophilic layer is attached to the annulus fibrosus 3, which is conducive to the growth of cells and the healing of the annulus fibrosus 3. The support layer can provide the mechanical strength required and can better withstand the pressure of the intervertebral disc. At the same time, there is no metal in the material of the two patches, which is more biocompatible and safer.

[0091] Further, the fiber direction of the first hydrophilic layer is the same as that of the innermost layer of the annulus fibrosus 3, and the fiber direction of the second hydrophilic layer is the same as the fiber direction of the outermost layer of the annulus fibrosus 3. Setting the fiber orientation of the two hydrophilic layers to be consistent with the fiber orientation of the corresponding contact layer on the annulus fibrosus 3 can better preserve the structure and force mode of the annulus fibrosus 3.

[0092] Further, both the first hydrophilic layer and the second hydrophilic layer are porous structures. After implantation, the hydrophilic layer of the double-layer patch is fixed on both sides of the rupture. The rough, porous structure of the hydrophilic layer is conducive to the growth of cells and the healing of the annulus fibrosus 3.

[0093] Wherein, the hydrophilic layer is a porous structure woven from fibers, with good hydrophilic performance and is easily attached to the annulus fibrosus 3. As a load-bearing structure, and the use of polymer materials can provide a certain structural support.

[0094] As shown in FIG. 4, in this embodiment, the double-layer patch also includes a memory metal wire 6, which is passed through the inner layer of the foldable patch 1. The memory wire 6 unfolds the inner foldable patch 1 after encountering the nucleus pulposus. Specifically, the folded end of the memory wire 6 extends into the inner foldable patch 1 in the folded state. After being inserted into the ruptured annulus fibrosus 3, the folded end of the memory wire 6 returns to its original shape, thereby propping up the inner foldable patch 1.

[0095] In this embodiment, the lengths of the two flexible connecting wires 5 are both longer than the distance between the opposite ends of the inner foldable patch 1 and the outer foldable patch 2 in the unfolded state. This allows the patches to be unfolded. A small excess in the length of the connecting wire 5 will not affect the healing of the annulus fibrosus.

[0096] In this embodiment, the auxiliary connector is a wire buckle 4, and the two wire buckles 4 are respectively arranged on both ends of the outer foldable patch 2. Two wires buckles 4 are provided to facilitate the suture fixation of the patch to the fibrous annulus 3, so that the fixation of the outer foldable patch 2 only requires two stitches on the fibrous annulus 3. The small diameter of the needle minimizes damage to the annulus fibrosus 3. This procedure does not damage the vertebrae.

Embodiment 2

[0097] As shown in FIG. 5 to FIG. 7, the patch clamp to be applied to the double-layer fibrous annulus patch in Embodiment 1 includes a clamp 7 and a pair of hooks 8.

[0098] The hooks 8 correspond to the wire buckles 4 in the first embodiment, and the wire buckles 4 can be hung on the corresponding hooks 8. The clamp 7 is provided with through holes 9 for the memory wire 6 to pass through during deployment and extraction.

[0099] The following describes how the patch clamp of the present embodiment unfolds the outer foldable patch 2:

[0100] When the clamp 7 clamps the outer foldable patch 2, the hook 8 clamps the wire buckle 4. When the clamp 7 is gradually loosened, the clamp 8 gradually releases the wire buckle 4. The blunt head of the clamp 7 is used to flatten the outer foldable patch 2 against the outside of the annulus fibrosus 3.

Embodiment 3

[0101] As shown in FIG. 8, this embodiment provides a suture needle 10 and a suture 11 to be applied to the first and second embodiments above.

[0102] The suture needle 10 is semicircular with a diameter of 4-6 mm. Before use, the tip of the suture needle 10 is placed on the annulus fibrosus 3 and the tail end of the suture needle 10 is placed in the thread buckle 4 for easy positioning. During the operation, the needle is rotated around the center of the circle, so that the suture needle passes through the fibrous annulus 3 and the wire buckle 4 in a small space to complete the suture. The entire process only touches the annulus fibrosus 3 and the wire buckle 4 with little resistance to advancing the suture.

[0103] The suture is a fishbone suture 11 with eight rows of fishbone spurs 12 intermittently arranged at intervals of 7-15 mm from the base of the needle, with the remaining suture being smooth without spurs. The distance between each fishbone spur 12 is small. The end of the fishbone suture 11 is knotted and, in order to fix the first needle, three rows of fishbone spurs 12 are evenly arranged at a distance of 1-3 mm from the knot. The eight rows of fishbone spurs 12 secure the second needle. The fishbone spurs 12 are evenly arranged where the fishbone suture 11 meets the fibrous annulus 3. This method secures the fishbone suture 11 to the outer foldable patch 2 and annulus fibrosus 3.

[0104] The angle between the fishbone spurs 12 and the fishbone suture 11 is 100° and the direction is consistent with the advancing direction of the suture needle 10. This facilitates penetration of the suture and, in addition, reduces the risk of slippage of the suture 11. No knots are required during suturing. The tips of the fishbone spurs 12 are rounded and blunt to minimize scratching or damage to the annulus fibrosus 3.

Embodiment 4

[0105] This present invention allows for the rapid and effective repair of the annulus fibrosus using a double-layer annulus fibrosus patch, patch clamp, suture needle and suture thread. The operation steps are as follows:

[0106] Step S1: The patch clamp 7 holds the folded outer foldable patch 2 and the memory metal wire 6 passes through the through hole 9 and the inner foldable patch 1. The wire buckle 4 is hung on the hook 8.

[0107] Step S2: Through a minimally invasive surgical channel established by conventional surgery, the double-layer annulus fibrosus patch is placed into the intervertebral disc through the rupture using the patch clamp 7. The patch is inserted until the memory metal wire 6 encounters the nucleus pulposus and opens the inner foldable patch 1. The memory wire 6 is then removed through hole 9.

[0108] Step S3: The patch clamp 7 drives the outer foldable patch 2 to exit the annulus fibrosus 3 and drives the unfolded inner layer foldable patch 1 to press against the inner layer of the annulus fibrosus 3, with the hydrophilic layer contacting the inner surface of the annulus fibrosus 3.

[0109] Step S4: The patch clamp 7 is gradually released together with the hook 8 and the wire buckle 4 to unfold the outer foldable patch 2. After the patch clamp 7 is fully released, the hook 8 is detached from the wire buckle 4 and the outer foldable patch 2 detaches from the outer layer of the annulus 3 through the blunt head of the patch clamp 7. The hydrophilic layer on the outer foldable patch contacts the annulus fibrosus 3.

[0110] Step S5: The patch clamp 7 is then withdrawn the suture needle 10 is secured on the holder of the patch clamp 7. The suture needle 10 is pre-threaded with the fishbone suture 11. The tip side of the suture needle 10 is placed on the annulus fibrosus 3 and the tail side of the needle is placed in the thread buckle 4 on the side of the outer foldable patch 2. Rotate the suture needle 10 at the center of the semicircular needle, and thread the suture needle 10 with the fishbone suture 11 through the annulus fibrosus 3 at the front of the outer patch 2, and then through the wire buckle 4 on the same side. Using the suture needle 10 with fishbone suture 11, the other side of outer patch 2 is sutured with the same suture method. The patch is secured in place by connection between the fishbone spurs 12 and the annulus fibrosus 3. Finally, any excess suture 11 is removed to complete the fixation of the outer foldable patch 2 to the fibrous annulus 3. The fishbone suture 11 with the two wire buckles 4 confines the outer foldable patch 2 to the annulus 3.

[0111] The suture only touches the annulus fibrosus 3 and the wire buckle 4, which would provide little resistance to the advancing suture. The fishbone spurs 12 are arranged in three positions on the suture 11: at the point where the first needle passes through the inner lining of the annulus fibrosus, where the second needle passes through the inner annulus fibrosus, and after the point where the second needle passes through the outer annulus fibrosus. This allows for a more secure fixation of the patch to the annulus fibrosus 3 and a flatter suture area throughout, which reduces the risk of damage to surrounding tissues or nerves due to the fish bone spurs 12.

[0112] In other embodiments, a general suture could also be used. The suture needle 10 is pre-threaded with the suture, and the end of the suture is knotted. The tip side of the suture needle 10 is placed on the annulus fibrosus 3, and the tail side of the needle is placed in the thread buckle 4 on the side of the outer foldable patch 2. Rotate the suture needle 10 at the center of the semicircular needle, and thread the suture needle 10 with the suture through the annulus fibrosus 3 at the front of the outer patch 2, and then through the wire buckle 4 on the same side. Using the suture needle 10 with the suture, the other side of outer patch 2 is sutured with the same suture method, and finally complete the knot on the thread buckle 4. Finally, any excess suture 11 is removed to complete the fixation of the outer foldable patch 2 to the fibrous annulus 3.

[0113] The size of the rupture on the annulus fibrosus 3 can be measured using a mold test so that the most suitable patch can be selected. In this embodiment, the suture can be a single-needle suture or multi-needle suture by providing at least one pair of auxiliary connectors, which can be determined by the size of the patch. If it is equivalent in design or operation then it falls under scope, including absorbable or non-absorbable patches.

[0114] The embodiments of the present invention are described in detail with reference to text and pictures, but the present invention is not limited to the above-mentioned embodiments. Even if various changes are made to the present invention, if these changes fall within the scope of the claims of the present invention and the technical equivalents thereof, they still belong to the protected scope of the present invention.