CN202342236U - Fusion prosthesis - Google Patents

Abstract

The utility model provides a fusion prosthesis. The fusion prosthesis is arranged between a first bone structure and a second bone structure to replace a bone structure between the first bone structure and the second bone structure, and comprises a prosthesis main body and a prosthesis fusion surface which is arranged on the prosthesis main body, wherein the prosthesis fusion surface is attached to at least one of the first bone structure and the second bone structure, and the surface of the prosthesis fusion surface has a microporous structure. The prosthesis main body is an equal-size metal implant which is manufactured according to tomography data of computed tomography (CT)/magnetic resonance imaging (MRI)/UCT (ultrasonic concrete tester) and the like of a patient; the prosthesis fusion surface is constructed according to a replaced bone structure and is well inosculated with at least one of the first bone structure and the second bone structure; the microporous structure on the surface of the prosthesis fusion surface is favorable for bone cells to grow into in a crawling way; and the prosthesis fusion surface of the postoperative fusion prosthesis is subjected to sacralization with a bone articular surface of at least one of the first bone structure and the second bone structure so as to achieve long-term stability.

Description

Merge prosthese

Technical field

This utility model relates to orthopaedics and implants the field, more specifically, relates to a kind of fusion prosthese.

Background technology

Spinal column is the axis pillar of human body, and top links to each other with the occipital bone of skull bottom, the through coccyx in bottom is terminal.Spinal column is connected by intervertebral disc, articuli intervertebrales and many ligaments by vertebra, rumpbone and coccyx; Be the hinge that activity centre and the mechanics of trunk transmits, bearing and supporting body weight, damping, protection central nervous system, providing the front and back of health the first half to stretch in the wrong, lateral bending, motor function such as reversing.Since the variation of modern humans's life style, the quickening of rhythm of life, causing spinal column is the load aggravation of surrounding tissue, and the damage chance greatly increases, and the probability of spinal column morbidity constantly rises.Damage of common spinal disease such as wound, tumor, congenital malformation, tuberculosis, rheumatoid arthritis or the like vertebra vertebral body that pathological changes caused and disappearance happen occasionally; The way of current solution vertebral body disappearance mainly contains methods such as bone grafting filling, artificial vertebral body displacement, and be aided with the preceding road or the way of escape nail-plate, follow closely excellent internal fixation.

But the problem that prior art exists is to need lasting pressure to keep the slippage that is shifted between tight contact preventing implant and adjacent vertebral bodies between the physiology vertebral body of artificial vertebral body and neighbouring sections; Therefore must implant inflexible nail-plate or nail-stick system that a cover keep-ups pressure separately, and the fixed system of this type can exceed original physiology vertebral body surface usually and peripheral nerve, blood fortune and soft tissue are brought adverse effect; It is excessive and can't be fused into one to rigidly fix the elastic modulus difference of system and physiology sclerotin in addition, so is easy to generate fatigue fracture long term.

The vertebral body joint that special needs to be pointed out is some moment is articulatio atlantoepistrophica for example; Articulatio atlantoepistrophica is the very special and important spinal structure that connects skull and spinal column; Because its position of living in and anatomical structure thereof are extremely special; In case because pathological changes causes dentata conventional cervical vertebra artificial vertebral body of when disappearance to be suitable for, at present still not targetedly prosthese implant replacement scheme, can only adopt the way of transforming titanium cage or titanium net to carry out bone-graft fusion from body or allograph bone as the case may be by the doctor in clinical temporarily in addition; And postoperative needs the head and neck shoulder of long period fixing until merging fully, brings very big inconvenience for patient's life.

The utility model content

Thereby this utility model purpose is to provide the fusion prosthese that a kind of bone structure that can substitute human body can implant into body.

Fusion prosthese according to this utility model; Be arranged between first bone structure and second bone structure to substitute the bone structure between first bone structure and second bone structure; Merge prosthese and comprise that prosthetic main and the prosthese that is arranged on the prosthetic main merge face; Among prosthese fusion face and first bone structure and second bone structure at least one fits, and the surface that prosthese merges face has microcellular structure.

Further, microcellular structure is the multidirectional micro hole structure that comprises a plurality of micropores that are interconnected.

Further, the aperture of the hole of microcellular structure is 100 μ m to 1800 μ m.

Further, merging prosthese is that dentata merges prosthese, is used for substituting the dentata between atlas and the third cervical vertebra, and prosthese fusion face comprises the upper joint fusion face that is arranged on the prosthetic main upper end and fits with atlas.

Further, dentata fusion prosthese is positioned in the former dentata dead ahead physiology surface on its dead ahead surface behind the implant into body.

Further, prosthetic main is provided with a plurality of inclinations and upwardly extending the 3rd connecting hole, and dentata merges prosthese and is connected with third cervical vertebra with atlas respectively through fixture.

Further, the prominent position of the tooth of corresponding former dentata is provided with the prominent boss of tooth on the upper joint fusion face of prosthetic main.

Further, the upper end of prosthetic main is provided with the facade plate corresponding to the position of the lateral mass in the anterior arch of atlas outside of atlas, and the facade plate forms the clamping to anterior arch of atlas with the prominent boss of tooth.

Further, the facade plate be two and correspond respectively to the anterior arch of atlas outside about two lateral mass, be respectively arranged with first connecting hole on the facade plate.

Further, prosthese fusion face also comprises the hypozygal fusion face that is arranged on the prosthetic main lower end and fits with third cervical vertebra.

Further, hypozygal fusion face is provided with one or more second connecting hole.

Further, the surface of prosthetic main and/or set inside have rib.

Further; Merge prosthese and be arranged between atlas and the third cervical vertebra to substitute dentata, it is consistent with former physiology dentata joint or to extending below lengthening to substitute dentata and the perhaps alternative more cervical vertebral body sections of third cervical vertebra to merge behind the prosthese implant into body its overall occupy-place height.

Further, prosthetic main is a microcellular structure.

Further, prosthetic main is provided with a plurality of bone graftings hole, connects perhaps each other between a plurality of bone graftings hole to be connected through microcellular structure.

Further, the aperture in bone grafting hole is 2mm to 30mm.

Adopt the fusion prosthese of this utility model; Its prosthetic main is the equidimension metal implant according to patient's tomoscan data creatings such as CT/MRI/UCT; The prosthese that is provided with of this fusion prosthese merges face; Prosthese merge that face is built according to the bone structure that is replaced and with first bone structure and second bone structure among at least one well coincide; Prosthese merges the microcellular structure of growing into for ease of osteocyte in the face surface; This microcellular structure is a kind of multidirectional micro hole structure that is interconnected, and this hole helps osteocyte creeps and grow into, and the prosthese that postoperative merges prosthese merges face and will merge to reach at a specified future date stable with at least one the facies articularis ossium generation bone among first bone structure and second bone structure.

Description of drawings

The accompanying drawing that constitutes the application's a part is used to provide the further understanding to this utility model, and illustrative examples of this utility model and explanation thereof are used to explain this utility model, do not constitute the improper qualification to this utility model.In the accompanying drawings:

Fig. 1 is the perspective view according to the fusion prosthese of this utility model;

Fig. 2 is the microcellular structure sketch map according to the fusion prosthese of this utility model;

Fig. 3 is according to fusion prosthese of this utility model and being connected and the decomposition texture sketch map of dentata;

Fig. 4 is according to the fusion prosthese of this utility model and the structural representation that screw is connected that passes through of dentata;

Fig. 5 is according to the fusion prosthese of this utility model and the decomposition texture sketch map of screw;

Fig. 6 is the structural representation according to the bone grafting hole of the fusion prosthese of this utility model;

Fig. 7 is the structural representation according to the extension lengthening embodiment of the fusion prosthese of this utility model; And

Fig. 8 is the structural representation according to the application state of the extension lengthening embodiment of the fusion prosthese of this utility model.

The specific embodiment

Below with reference to accompanying drawing and combine embodiment to specify this utility model.

Fusion prosthese according to this utility model as shown in Figure 1; Be arranged between first bone structure 2 and second bone structure 3 to substitute the bone structure between first bone structure 2 and second bone structure 3; Merge prosthese and comprise that prosthetic main 10 and the prosthese that is arranged on the prosthetic main 10 merge face; Among prosthese fusion face and first bone structure 2 and second bone structure 3 at least one fits, and the surface that prosthese merges face is a microcellular structure, and microcellular structure is a plurality of multidirectional micro hole structure that are interconnected.

Adopt the fusion prosthese 1 of this utility model, its prosthetic main 10 is the equidimension medical metal implants according to patient's tomoscan data creatings such as CT/MRI/UCT, merge prosthese 1 and processed by medical metal, so it has good biocompatibility.The prosthese that is provided with of this fusion prosthese 1 merges face; Prosthese merge that face is built according to the bone structure that is replaced and with first bone structure 2 and second bone structure 3 among at least one well coincide; Prosthese merges the microcellular structure of growing into for ease of osteocyte in the face surface 30, and the diameter of the hole of microcellular structure 30 is 100 μ m to 1800 μ m.As shown in Figure 2; This microcellular structure is a kind of multidirectional micro hole structure that is interconnected; This hole helps osteocyte creeps and grows into, and the prosthese that postoperative merges prosthese merges face and will merge to reach at a specified future date stable with at least one the facies articularis ossium generation bone among first bone structure and second bone structure.The two ends of preferably, merging prosthese 1 all have respectively the prosthese fusion face that fits with first bone structure 2 and second bone structure 3.

Preferably, prosthetic main 10 is processed microcellular structure for medical metal, and the surface and the internal void of this microcellular structure connect each other, hole aperture 100 μ m to the 1800 μ m of microcellular structure.

As shown in Figure 3, be that dentata merges prosthese according to the fusion prosthese 1 of this utility model, be arranged between atlas 2 and the third cervical vertebra 3 to substitute dentata, prosthese fusion face comprises the upper joint fusion face 20 that is arranged on prosthetic main 10 upper ends and fits with atlas.Preferably, prosthese fusion face also comprises the hypozygal fusion face 60 that is arranged on prosthetic main 10 lower ends and fits with third cervical vertebra.

From the needs of operative approach, dentata merges prosthese can not keep transverse process, spinous process, vertebral arch structure, and except that the design of necessary function property changed, this dentata merged prosthese and keeps basically identical with the former physiology dentata of patient vertebral body dimensionally.Dentata merges prosthese and is respectively equipped with upper joint fusion face 20 and hypozygal fusion face 60 in two ends up and down; Upper joint merges face 20 and hypozygal, and to merge face 60 be to be processed by Digit Control Machine Tool after extracting the curved surface data of facies articulares inferiores atlantis and third cervical vertebra superior articular surface respectively; Also can utilize rapid shaping techniques such as laser sintered or high-power electron beam fusion to build surface with curved surface height match characteristic; The upper joint fusion face 20 that dentata merges prosthese well coincide according to the construction of facies articulares inferiores atlantis data and with facies articulares inferiores atlantis, and the hypozygal that dentata merges prosthese merges face 60 according to third cervical vertebra superior articular surface data construction and well identical with the third cervical vertebra superior articular surface.Be microcellular structure because upper joint merges face 20 with the surface that hypozygal merges face 60, the upper joint that operation back dentata merges prosthese merges face 20 and hypozygal and merges face 60 and will be respectively merge to reach at a specified future date with the facies articularis ossium generation bone of atlas and third cervical vertebra and stablize.

As shown in Figure 1, according to an embodiment of dentata fusion prosthese, the prominent position of tooth that the upper joint of prosthetic main 10 merges corresponding former dentata on the face 20 is provided with the prominent boss 40 of tooth.The upper end of prosthetic main 10 is provided with facade plate 50 corresponding to the position of the lateral mass in the anterior arch of atlas outside of atlas, is used for forming the clamping to anterior arch of atlas with the prominent boss 40 of tooth.Preferably, facade plate 50 be two and correspond respectively to the anterior arch of atlas outside about two lateral mass, be respectively arranged with first connecting hole 51 on the facade plate 50.

The microcellular structure that prominent boss 40 outer surfaces of tooth and the facade plate 50 inboard inner surfacies that contact with lateral mass of atlas are all grown into for ease of osteocyte; This microcellular structure is a kind of multidirectional micro hole structure that is interconnected; Pore diameter is 100 μ m～1800 μ m; This hole helps osteocyte and creeps and grow into; Tooth prominent boss 40 in operation back will take place that bone merges, the microcellular structure of facade plate 50 inner surfacies will merge with lateral mass of atlas generation bone with the inboard articular fossa for odontoid process of axis of anterior arch of atlas, thereby make that merging prosthese combines with atlas and reach at a specified future date and stablize.Like Fig. 4 and shown in Figure 5, in the operation with connector 90 respectively by screwing in lateral mass of atlas in two first connecting holes 51 to reach the purpose of incipient stability, treat that bone merges and can reach the stable reconstruction of cervical vertebra after accomplishing.In the present embodiment, connector 90 is a hold-down screw.

According to another embodiment of dentata fusion prosthese, as shown in Figure 5, said dentata merges prosthese and is positioned in the former dentata dead ahead physiology surface on its dead ahead surface behind the implant into body.

In the present embodiment; Dentata merges the prosthese upper end and is provided with groove and well chimeric with the anterior arch of atlas lower edge corresponding to the anterior arch of atlas lower edge; Prosthetic main 10 is provided with a plurality of inclinations and upwardly extending the 3rd connecting hole 62, and dentata merges prosthese and is connected with third cervical vertebra with atlas respectively through fixture 90.Particularly, the 3rd connecting hole 62 is a screw hole, and fixture 90 is a hold-down screw.Dentata merge prosthese corresponding to the anterior arch of atlas outside about the below of two lateral mass positions be provided with a screw hole separately, in the operation hold-down screw is screwed in lateral mass of atlas to reach the purpose of incipient stability by two screw holes respectively.The groove surfaces at the position that the groove corresponding to the anterior arch of atlas lower edge of prosthetic main 10 upper ends of dentata fusion prosthese contacts with the atlas lower edge is a microcellular structure; This microcellular structure is a kind of multidirectional micro hole structure that is interconnected; Pore diameter is 100 μ m to 1800 μ m; This hole helps osteocyte creeps and grows into, and prosthetic main 10 upper ends that the postoperative dentata merges prosthese will be merged to reach at a specified future date stable with anterior arch of atlas lower edge generation bone corresponding to the microcellular structure of the groove inner surface of anterior arch of atlas lower edge.

In the present embodiment; Dentata merges prosthese and is positioned in the former dentata dead ahead physiology surface on its dead ahead surface behind the implant into body; Be that dentata fusion prosthese its dead ahead surface after implantation does not protrude in former dentata dead ahead physiology surface; Also promptly reach said zero incisura of medical circle, therefore the various soft tissue anatomical positions in dentata the place ahead are not had any harmful effect.

As shown in Figure 1, hypozygal merges face 60 and is provided with one or more second connecting hole 61.

An embodiment according to this utility model; The microcellular structure that face is grown into for ease of osteocyte is merged corresponding to the prosthese of third cervical vertebra superior articular surface in prosthetic main 10 lower ends; This hole helps osteocyte creeps and grows into, and the postoperative dentata merges the prosthese lower end and merges face corresponding to the prosthese of third cervical vertebra superior articular surface and will merge to reach at a specified future date stable with third cervical vertebra superior articular surface generation bone.Dentata fusion prosthese lower end is provided with 1 to 3 screw hole corresponding to the prosthese fusion face of third cervical vertebra superior articular surface.Like Fig. 4 and shown in Figure 5, in the operation with hold-down screw 90 respectively by screwing in the third cervical vertebra superior articular surface in second connecting hole 61 to reach the purpose of incipient stability, treat that bone merges and can reach the stable reconstruction of cervical vertebra after accomplishing.

Like Fig. 6 and shown in Figure 7, prosthetic main 10 is provided with a plurality of bone graftings hole 80, connects perhaps each other between a plurality of bone graftings hole 80 to be connected through microcellular structure.

On dentata fusion prosthetic main, be provided with some bone graftings hole 80; This bone grafting hole 80 can hold from body or allograph bone piece and osseous granules; Be implanted in this bone grafting hole 80 before the art or in the art can play to induce osteocyte to creep and grow into osseous granules and promote the effect of bone fusion from body or allograph bone piece; Aperture, bone grafting hole is 2mm to 30mm, to make things convenient for implanting from body or allograph bone piece and osseous granules of different-diameter.

The body surfaces of aforementioned fusion prosthese and/or inner whole or local coating have hydroxyapatite coating layer, and this hydroxyapatite coating layer adopts plasma spraying method or electrochemical deposition method and sintering process to form.

In addition, dentata merges prosthese and is arranged between atlas and the third cervical vertebra to substitute dentata, merge the prosthese implant into body after its overall occupy-place height consistent with former physiology dentata joint.

The surface and/or the set inside of prosthetic main 10 have rib, and rib is reinforcement or stiffener, to strengthen the structural strength of prosthetic main 10.

Like Fig. 7 and shown in Figure 8; When patient's dentata and third cervical vertebra or more cervical vertebras stage all need be substituted by prosthese; Merge prosthese and substitute third cervical vertebra 4 until more cervical vertebral body sections to contain to extending below lengthening; Merge prosthese this moment and will be connected with the 4th or other sections cervical vertebral bodies and fix, its fixing and fusing mode is with above-mentioned dock fixed mode with third cervical vertebra identical.

The processing method that dentata merges prosthese is: obtain the tomoscan data such as patient's cervical vertebra position CT/MRI/UCT → in computer, set up three-dimensional data model → the extractions dentata model at cervical spondylosis position and the design of making amendment and generate dentata and merge prosthese three-dimensional data model → merge prosthese three-dimensional data model stimulated replacement physiology dentata with inspection and verify design → machine-shaping with dentata.

According to present process technology two comparatively ideal machining paths are arranged:

The processor that A, the dentata that adopts the numerical control machine tool foundation in computer, to generate merge prosthese data transaction one-tenth carries out machine-shaping; Use the processing of methods such as spark machined, chemical attack, machine drilling cutting to bore then and mill out needed bone grafting hole, screw hole and micropore, hold-down screw then adopts turning or mills and wait the making of conventional mechanical processing method;

B, utilize laser sintered or rapid shaping technique melt molding such as high-power electron beam fusion, concrete grammar is following:

A) use professional software that the dentata fusion prosthese three-dimensional data model of design-build in computer is carried out layering, to obtain the outline data of a series of monolayer slices;

B) import above-mentioned serial synusia data to laser or high-power electron beam rapid forming equipment;

The medical metal powder of floor height respective thickness when c) in laser or high-power electron beam rapid forming equipment processing cabin, laying with aforementioned three-dimensional data model layering;

D) by computer controlled controlling laser beam or high-power electron beam the medical metal powder is scanned and selectively the fusing;

E) repeat aforementioned laying powder, scanning fusing step so that each layer is selected the mutual clinkering one-tenth of the material of fusing integral body;

F) remove the dentata fusion prosthese that not fused powder can obtain required shape and structure behind the melting process of the whole aspects of completion;

G) owing to needed entity, bone grafting hole, screw hole, micropore or the like structure has been designed in the lump in data file when dentata merges the prosthese three-dimensional data model building, therefore above-mentioned various structures in laser sintered or high-power electron beam melting process with disposable completion manufacturing.

From above description, can find out that this utility model the above embodiments have realized following technique effect:

The fusion prosthese of this utility model; Prosthese merges the microcellular structure of growing into for ease of osteocyte in the face surface; This microcellular structure is a kind of multidirectional micro hole structure that is interconnected; This hole helps osteocyte creeps and grows into, and the prosthese that postoperative merges prosthese merges face and will merge to reach at a specified future date stable with at least one the facies articularis ossium generation bone among first bone structure and second bone structure.

The preferred embodiment that the above is merely this utility model is not limited to this utility model, and for a person skilled in the art, this utility model can have various changes and variation.All within the spirit and principle of this utility model, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection domain of this utility model.

Claims (16)

1. one kind merges prosthese; Be arranged between first bone structure (2) and second bone structure (3) to substitute the bone structure between said first bone structure (2) and said second bone structure (3); It is characterized in that; Said fusion prosthese comprises prosthetic main (10) and the prosthese that is arranged on the said prosthetic main (10) merges face, said prosthese merge among face and said first bone structure (2) and said second bone structure (3) at least one fit, said prosthese fusion mask has microcellular structure.

2. fusion prosthese according to claim 1 is characterized in that, said microcellular structure is the multidirectional micro hole structure that comprises a plurality of micropores that are interconnected.

3. fusion prosthese according to claim 2 is characterized in that, the aperture of the hole of said microcellular structure (30) is 100 μ m to 1800 μ m.

4. fusion prosthese according to claim 2; It is characterized in that; Said fusion prosthese is that dentata merges prosthese; Be used for substituting the dentata between atlas and the third cervical vertebra, said prosthese fusion face comprises the upper joint fusion face (20) that is arranged on said prosthetic main (10) upper end and fits with said atlas.

5. fusion prosthese according to claim 4 is characterized in that, the upper joint of said prosthetic main (10) merges face (20) and upward is provided with the prominent boss (40) of tooth in the prominent position of tooth of corresponding former dentata.

6. fusion prosthese according to claim 5 is characterized in that, said dentata merges prosthese and is positioned in the former dentata dead ahead physiology surface on its dead ahead surface behind the implant into body.

7. fusion prosthese according to claim 6 is characterized in that, said prosthetic main (10) is provided with a plurality of inclinations and upwardly extending the 3rd connecting hole (62), and said dentata merges prosthese and is connected with third cervical vertebra with atlas respectively through fixture (90).

8. fusion prosthese according to claim 5; It is characterized in that; The upper end of said prosthetic main (10) is provided with facade plate (50) corresponding to the position of the lateral mass in the anterior arch of atlas outside of said atlas, and said facade plate (50) forms the clamping to said anterior arch of atlas with the prominent boss (40) of said tooth.

9. fusion prosthese according to claim 8 is characterized in that, said facade plate (50) be two and correspond respectively to the said anterior arch of atlas outside about two lateral mass, be respectively arranged with first connecting hole (51) on the said facade plate (50).

10. fusion prosthese according to claim 4 is characterized in that, said prosthese merges face and also comprises the hypozygal fusion face (60) that is arranged on said prosthetic main (10) lower end and fits with said third cervical vertebra.

11. fusion prosthese according to claim 10 is characterized in that, said hypozygal merges face (60) and is provided with one or more second connecting hole (61).

12. fusion prosthese according to claim 2 is characterized in that, the surface and/or the set inside of said prosthetic main (10) have rib.

13. fusion prosthese according to claim 2; It is characterized in that; Said fusion prosthese is arranged between atlas and the third cervical vertebra substituting dentata, and its overall occupy-place height is consistent with former physiology dentata joint or to extending below lengthening to substitute dentata and the perhaps alternative more cervical vertebral body sections of third cervical vertebra behind the said fusion prosthese implant into body.

14., it is characterized in that said prosthetic main (10) is a microcellular structure according to each described fusion prosthese in the claim 1 to 13.

15. fusion prosthese according to claim 14 is characterized in that, said prosthetic main (10) is provided with a plurality of bone graftings hole (80), connects perhaps each other between a plurality of said bone graftings holes (80) to be connected through said microcellular structure.

16. fusion prosthese according to claim 15 is characterized in that, the aperture in said bone grafting hole (80) is 2mm to 30mm.

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