CN107260369A

CN107260369A - It is a kind of to be used for the personalized biological type cushion block of Cranial defect in total knee arthroplasty

Info

Publication number: CN107260369A
Application number: CN201710452891.8A
Authority: CN
Inventors: 王玲; 朱正飞; 王航辉; 康建峰; 李涤尘
Original assignee: Xian Jiaotong University
Current assignee: Xian Jiaotong University
Priority date: 2017-06-15
Filing date: 2017-06-15
Publication date: 2017-10-20

Abstract

It is used for the personalized biological type cushion block of Cranial defect in total knee arthroplasty the invention discloses a kind of, including by spud pile and the fixed cushion block matrix of bone bed, cushion block matrix includes solid layer and loose structure, and solid layer upper surface is fixed with tibia support Press-fit contact；Cushion block matrix and spud pile are using 3D printing technique integration manufacture.The present invention has the advantages that osteotomy amount is small, nearly long term is fixed well, seamlessly transitted with human body natural's bone surface, unstressed concentration.

Description

It is a kind of to be used for the personalized biological type cushion block of Cranial defect in total knee arthroplasty

Technical field

The invention belongs to technical field of medical instruments, more particularly to a kind of for Cranial defect in total knee arthroplasty Property bion cushion block.

Background technology

At present, knee joint Cranial defect can be caused by many reasons, including：Out knee angulation deformity caused by arthritis, lack After courageous and upright necrosis, wound, High Tibial Osteotomy and knee joint revision procedure.Femur side or the Cranial defect position of tibial side point For：Cavity type defect and segmental pattern defect.In the prior art, the therapeutic modality of Cranial defect typically can be by the following method：

Cement fixation：Cement fixation is applied to the Cranial defect that cavity type defect depth is less than 5mm, especially old to suffer from Person；But the relatively poor biomechanics characteristic of bone cement makes it not be preferably used for segmental pattern and larger Cranial defect case, especially Young patient；

Bone grafting (autologous bone or allograph bone)：Bone grafting (autologous bone or allograph bone) is applied to the cavity between 5mm-10mm Type Cranial defect, especially young patient；But autologous bone materials are limited, and the security of allograph bone, the remoldability of bone and integration Ability, causes bone grafting to fail；

Custom Prosthesis prosthese：Custom Prosthesis prosthese mainly for femur, shin bone deformity and the more serious patient of Cranial defect, especially Total knee replacement overhauls postoperative patient；But the mobility of Custom Prosthesis prosthese is limited, and Postoperative Satisfaction is low；

And the backing metal used at this stage haves the shortcomings that osteotomy amount big, nonunion, collapses, shifts, metal in addition Cushion block clear-cut margin triggers soft tissue pain etc..

The content of the invention

In order to overcome the shortcoming of above-mentioned prior art, it is used for total knee arthroplasty it is an object of the invention to provide one kind The personalized biological type cushion block of middle Cranial defect, with osteotomy amount is small, nearly long term is fixed well, smoothed with human body natural's bone surface Cross, the advantage of unstressed concentration.

To achieve the above object, the present invention uses following technical scheme：

It is a kind of to be used for the personalized biological type cushion block of Cranial defect in total knee arthroplasty, including pass through spud pile and bone bed Fixed cushion block matrix, cushion block matrix includes solid layer and loose structure, and solid layer upper surface is fixed with tibia support Press-fit contact； Cushion block matrix and spud pile are using 3D printing technique integration manufacture.

The full-size of described loose structure is 0.1~0.4mm.

The porosity adjusting range of described loose structure is 25%~85%, is adjusted according to patient's sclerotin situation, Realize matching for cushion block and patient bone modulus of elasticity.

The porosity of described loose structure carries out gradient in artificial knee joint prosthesis-bone direction, prevents stress collection In.

Described cushion block matrix and spud pile are manufactured using 3D printing technique.

Beneficial effects of the present invention are：

(1) Cranial defect situation of the present invention based on patient carries out profile adjustment matching, improves cushion block and patient bone defective region The matching degree in domain, realizes personalized customization, is that patient retains autologous sclerotin so as to reduce operation osteotomy amount.

(2) present invention is for segmental pattern Cranial defect patient, and the outer surface of cushion block and the anatomical surface of natural skeleton are smoothed Cross, no sharpened edge, it is to avoid the contact pain of peri-prosthetic soft.

(3) spud pile 2 of the present invention gos deep into bone tissue and fixed, and prevents the loosening of cushion block and collapses.

(4) full-size of loose structure 12 of the present invention is 0.1~0.4mm, is the optimum size that bone tissue is grown into；

(5) loose structure 12 and coating of the present invention are conducive to inducing the oriented growth of bone tissue, play fixed work at a specified future date With preventing the loosening of cushion block with collapsing；

(6) present invention can be shortened preparation time, reduced cost using 3D printing technique manufacture.

Brief description of the drawings

Fig. 1-a, Fig. 1-b are the structural representations of Cranial defect bion cushion block of the present invention.

Fig. 2 is Cranial defect bion cushion block scheme of installation of the present invention.

Fig. 3 is the side view of cavity type Cranial defect bion cushion block of the present invention.

Fig. 4 is the top view of cavity type Cranial defect bion cushion block of the present invention.

Fig. 5 is the upward view of cavity type Cranial defect bion cushion block of the present invention.

Fig. 6 is the side view of segmental pattern Cranial defect bion cushion block of the present invention.

Fig. 7 is the top view of segmental pattern Cranial defect bion cushion block of the present invention.

Fig. 8 is the upward view of segmental pattern Cranial defect bion cushion block of the present invention.

Fig. 9 is the spud pile schematic diagram of Cranial defect bion cushion block of the present invention.

Embodiment

Example embodiment is described more fully with reference to the accompanying drawings.However, example embodiment can be in many ways Implement, and be not understood as limited to embodiment set forth herein；On the contrary, thesing embodiments are provided so that the present invention will be complete Face and complete, and the design of example embodiment is comprehensively conveyed into those skilled in the art.Identical accompanying drawing mark in figure Note represents same or similar structure, because their detailed description will be omitted.

It is a kind of to be used for the personalized biological type cushion block of Cranial defect in total knee arthroplasty, including pad referring to Fig. 1 to Fig. 9 Block matrix 1 and spud pile 2, cavity type Cranial defect region 32 and segmental pattern Cranial defect region 33, to ensure that lower limb Holonomic Mechanics are passed Pass.

It is a kind of to be used for the installation implementation process of the preparation of the personalized biological type cushion block of Cranial defect in total knee arthroplasty Including：(1) the CT/MRI view data of patient's lower limb total length is gathered, three-dimensional reconstruction, simulation are carried out to collection image using software Total knee replacement is performed the operation, and obtains simulating the size and shape at surgery patella Cranial defect position；(2) 3D printing skill is used Art disposably prints the titanium alloy bion cushion block of identical Cranial defect size and shape, and loose structure has porosity gradual change Feature；(3) outside and edge of backing metal are handled, coincide Cranial defect position inner surface and human body natural's bone appearance is allowed to Face, does not interfere with the normal activity of knee joint peripheral soft tissue, so as to avoid triggering soft tissue pain；(4) it is surface-treated, makes pad The loose structure surface of block includes bone inductive factor coating, antimicrobial coating and angiogenic growth factor coating；(5) it is actual In installation process of performing the operation, the plane above cushion block is press-fitted fixation of fitting with tibia support, and it is solid that lower surface gos deep into bone bed by spud pile It is fixed；(6) in the short run, cushion block matrix and tibia support be fixed with pressure and the fixation of spud pile and bone bed can play recent fixation Effect, prevent the traversing of cushion block matrix and rotation；(7) from the point of view of long term, loose structure layer surface has induction bone tissue long The growth factor coating entered, the pore-size of loose structure is the optimum size that bone tissue is grown into, and is conducive to bone tissue to grow into pad Block intrinsic silicon, so as to realize the long-term fixation of cushion block matrix；(8) porosity of the loose structure of cushion block matrix is in cushion block-bone The form of gradient is used on direction, cushion block intrinsic silicon stress concentration can be avoided, so as to extend the use longevity of cushion block Life.

The profile of the cushion block is irregular, mainly acts on two kinds of different usage scenarios：Cavity type Cranial defect and section Type Cranial defect.When acting on cavity type Cranial defect position, upper plane and the tibia support Press-fit contact of cushion block are fixed, and lower surface is several What relation is coincide with Cranial defect inner surface, is goed deep into bone bed by spud pile and is fixed with bone tissue.When acting on segmental pattern Cranial defect During position, upper plane and the tibia support Press-fit contact of cushion block are fixed, and lower surface geometrical relationship is coincide with Cranial defect inner surface, is passed through Spud pile gos deep into bone bed to be fixed with bone tissue, and side surface is seamlessly transitted with human body natural's bone surface.

The material selection titanium alloy of the cushion block matrix and spud pile, modulus of elasticity and the skeleton springform of titanium alloy Amount is close, and histocompatbility is good.

The void size of the cushion block be 0.1-0.4mm between, be the optimum size that bone tissue is grown into, after bone tissue is grown into It can effectively realize that the long term of cushion block is fixed, it is to avoid cushion block occur and the complication such as collapse.

The porosity of the cushion block matrix is to be adjusted in the range of 25%-85%, and concrete numerical value is according to patient's bone density Situation is configured.Porosity graded on cushion block-bone direction, can be prevented effectively from the stress concentration inside cushion block.

The irregular surface of the cushion block is determined by the anatomic form in the preoperative CT of patient Cranial defect region.When Cranial defect area When domain is cavity type defect, the upper surface of cushion block is plane, is matched with tibia support lower surface, using being fixed with pressure；Under cushion block Surface is identical with Cranial defect region inner surface.When Cranial defect is segmental pattern defect, the upper surface of cushion block is plane, with shin Bone support lower surface is matched, using being fixed with pressure；Outer surface coincide with patient's Tibia Anatomy face, the outer surface profile and bone of cushion block Bone anatomical surface complete match is smooth, transition, and without sharpened edge；Inner surface and the inner surface in Cranial defect region coincide.

Such as Fig. 2 to Fig. 5, a kind of bion cushion block for knee joint cavity type Cranial defect, its cushion block matrix 1 is by solid layer 11 and loose structure 12 constitute；The contact surface of the solid layer 11 and tibia support is plane, is press-fitted, can prevented with tibia support Cushion block matrix 1 it is traversing, be conducive to the transmission of lower limb mechanics；The outer surface of the loose structure 12 and table in cavity type Cranial defect Face 32 is coincide, and osteotomy amount can be reduced to greatest extent；Loose structure 12 is imitative trabecular bone structure, aperture 0.1~0.4mm it Between, loose structure 12 has various ways, on the basis of enough intensity is ensured, is conducive to growing into for bone tissue, realizes cushion block The long term of matrix 1 is fixed；The porosity of loose structure 12 is adjusted between 25%~85% according to the bone density of patient Match somebody with somebody；The porosity in the vertical direction gradient of loose structure 12, prevents stress concentration；Cushion block matrix 1 is deep by spud pile 2 Enter bone tissue and realize fixation, prevent collapsing for cushion block matrix 1, many collaborations of spud pile 2 can also prevent the rotation of cushion block matrix 1.

Such as Fig. 6 to Fig. 9, a kind of bion cushion block for knee joint segmental pattern Cranial defect, its cushion block matrix 1 is by solid Layer 11 and loose structure 12 are constituted；The contact surface of the solid layer 11 and tibia support is plane, is press-fitted, can prevented with tibia support Only cushion block matrix 1 is traversing, is conducive to the transmission of lower limb mechanics；In the inner surface and segmental pattern Cranial defect of the loose structure 12 Surface 33 is coincide, and osteotomy amount can be reduced to greatest extent；The outer surface of loose structure 12 coincide with skeleton dissection curved surface, The rigid contact with soft tissue is reduced as far as possible, it is to avoid trigger soft tissue pain complication；Loose structure 12 is imitative bone trabecula knot Structure, aperture is between 0.1~0.4mm, and loose structure 12 has various ways, on the basis of enough intensity is ensured, is conducive to Growing into for bone tissue, realizes that the long term of cushion block matrix 1 is fixed；The porosity of loose structure 12 between 25%~85%, according to The bone density situation of patient is adjusted matching；The porosity in the vertical direction gradient of loose structure 12, prevents stress Concentrate；Cushion block matrix 1 gos deep into bone tissue by spud pile 2 and realizes fixation, prevents collapsing for cushion block matrix 1, many spud pile associations It is same to prevent the rotation of cushion block matrix 1.

Specifically show and describe the illustrative embodiments of the present invention above.It should be understood that the invention is not restricted to institute Disclosed embodiment.On the contrary, it is intended to cover comprising various modifications in the spirit and scope of the appended claims And equivalent arrangements.

Claims

1. a kind of be used for the personalized biological type cushion block of Cranial defect in total knee arthroplasty, it is characterised in that：Including cushion block base Body (1), spud pile (2), cushion block matrix are integrally prepared with spud pile；The cushion block matrix (1) includes solid layer (11) and porous Structure sheaf (12), solid layer (11) is integrally prepared with porous structure layer (12), the solid layer (11) and tibia support Press-fit contact Fixed, the porous structure layer (12) matches with spud pile (2).

2. a kind of personalized biological type cushion block for Cranial defect in total knee arthroplasty according to claim 1, its It is characterised by：The material of the cushion block matrix and spud pile is titanium alloy.

3. a kind of personalized biological type cushion block for Cranial defect in total knee arthroplasty according to claim 1, its It is characterised by：Solid layer (11) thickness is the 20%-30% of cushion block matrix (1) height.

4. a kind of personalized biological type cushion block for Cranial defect in total knee arthroplasty according to claim 1, its It is characterised by：The porous structure layer (12) is imitative trabecular bone structure, and pore-size is 0.1~0.4mm.

5. a kind of personalized biological type cushion block for Cranial defect in total knee arthroplasty according to claim 1, its It is characterised by：The porosity of the porous structure layer (12) closes gradual change in gradient on prosthese-bone bed direction along artificial knee, Porosity ranges are 25%-85%.

6. a kind of personalized biological type cushion block for Cranial defect in total knee arthroplasty according to claim 1, its It is characterised by：There is the loose structure layer surface bone inductive factor coating, antimicrobial coating and angiogenic growth factor to apply Layer.

7. a kind of personalized biological type cushion block for Cranial defect in total knee arthroplasty according to claim 1, its It is characterised by：The inner surface geometry that the cushion block matrix is contacted with bone is coincide.