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A biomimetic surface hip prosthesis with high long-term stability

A hip joint prosthesis, bionic technology, applied in hip joints, prostheses, joint implants, etc., can solve the problems of unable to restore the force form of the hip joint, unable to rebuild the physiological fulcrum, loss of osseointegration, etc. Avoid foreign body rejection, reduce stress shielding effect, and reduce osteolysis effect

Active Publication Date: 2022-08-05
JIASITE HUAJIAN MEDICAL EQUIP (TIANJIN) CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The friction interface between the acetabular cup and the femoral head prosthesis of the existing surface hip joint prosthesis is the "gold-to-gold" interface of cobalt-chromium-molybdenum metal, although the friction coefficient of the "gold-to-gold" interface is relatively lower than other friction interfaces. Low, but the "gold-to-gold" interface will lead to the precipitation of cobalt and chromium metal ions, which will produce adverse biological reactions, including toxic effects on soft tissues near joints, delayed hypersensitivity reactions, osteolysis, and certain carcinogenicity , eventually leading to prosthetic loosening and failure
The osseointegration interface of the acetabular cup of the existing surface hip prosthesis is sprayed with hydroxyapatite coating, which may cause the risk of coating falling off or being absorbed within a certain period of time, resulting in loss of corresponding osseointegration effect
The existing superficial hip joint prosthesis is prone to femoral neck fracture and femoral head collapse. The main reason is that the design of the fixed shaft of the femoral head prosthesis cannot reconstruct the physiological fulcrum and cannot restore the normal human hip joint force form, resulting in fixation. failure and complications

Method used

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  • A biomimetic surface hip prosthesis with high long-term stability
  • A biomimetic surface hip prosthesis with high long-term stability
  • A biomimetic surface hip prosthesis with high long-term stability

Examples

Experimental program
Comparison scheme
Effect test

specific Embodiment approach 1

[0035] Embodiment 1, the femoral head prosthesis is integrally formed with a sleeve 5, the rear end of the main nail is inserted into the sleeve, and the main nail is provided with an oblique insertion hole 4, and the auxiliary nail is inserted into the oblique insertion hole and arranged to cross the main nail. A sleeve is integrally formed in the femoral head prosthesis, and the sleeve is connected with the main nail, and then the auxiliary nail and the main nail are arranged crosswise. long-term stability, and the design of the main nail and the auxiliary nail can play a role in fixing and anti-rotation.

[0036] Further, the sleeve has a conical structure and is set obliquely, the rear end of the main nail is a conical structure matched with the sleeve, and the smooth surface part without external threads in the middle is a trabecular structure, and the angle of the sleeve can be set as required. , and the sleeve is a conical structure, the rear end of the main nail is a c...

specific Embodiment approach 2

[0039] Specific embodiment 2, the main nail and the femoral head prosthesis are integrally formed, the main nail is provided with a slot 6 extending to the front end, and the auxiliary nail is inserted into the slot to cross the main nail. The main nail and the femoral head prosthesis are integrally formed, so the operation is more convenient, and the slot arrangement facilitates the cross implantation of the auxiliary nail and the main nail.

[0040] Further, the opening at the front end of the slot is larger than the opening at the rear, which can play a guiding role and facilitate the cross implantation of the auxiliary nail and the main nail.

[0041] During the operation, the operation is performed at the femoral head. The specific implementation method is first to assemble the main nail and the sleeve, then implant the main nail into the cortical bone, and then insert the auxiliary nail into the oblique socket to connect with the active cross, and then the end Implant co...

specific Embodiment 1

[0047] In the specific embodiment 1, when the oblique insertion hole is arranged at the neck of the femur, please refer to the appendix for details. Figure 7 , area> control group area, the stress is evenly distributed within 0.01-2.67MPa, and the area accounts for a large proportion, the stress damage of the prosthesis acting on the human femur is small.

[0048] In the specific embodiment 1, when the oblique socket is arranged at the femoral head, please refer to the appendix for details. Figure 8 , the stress concentrated in the area of ​​0.01 ~ 2.67MPa is 83.3%. If the area is greater than the area of ​​the control group, the stress is evenly distributed within 0.01-2.67MPa, and the area accounts for a large proportion. Therefore, the stress damage of the prosthesis acting on the human femur is small. See picture comparison Figure 4-5 shown.

[0049] The finite element model of the specific embodiment 2 of the present invention and the control group is subjected to f...

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Abstract

The invention relates to the technical field of medical device design, in particular to a bionic surface hip joint prosthesis with high long-term stability, which comprises an acetabular cup prosthesis, a femoral head prosthesis, a main nail and an auxiliary nail, and the femoral head prosthesis is designed Inside the acetabular cup prosthesis and the inner surface of the acetabular cup prosthesis and the outer surface of the femoral head prosthesis are hemispherical sliding friction fit, the acetabular cup prosthesis and the femoral head prosthesis print the bone trabecular structure, the femoral head prosthesis A sleeve is integrally formed in the body, the front ends of the main nail and the auxiliary nail are respectively provided with external threads, the rear end of the main nail is inserted into the sleeve, and the main nail is provided with an oblique insertion hole, and the auxiliary nail is inserted into the oblique insertion hole and is connected to the sleeve. Main pegs cross set. The device provided by the invention has low friction coefficient and metal ion precipitation, has good long-term bone ingrowth performance and can reconstruct the physiological fulcrum of the hip joint.

Description

technical field [0001] The invention relates to the technical field of medical device design, in particular to a bionic surface hip joint prosthesis with high long-term stability. Background technique [0002] Surface hip prostheses are orthopaedic implants used to replace part of the human hip joint. For superficial hip replacement surgery. The surface hip joint prosthesis mainly includes an acetabular outer cup prosthesis and a femoral head prosthesis which is sheathed in the acetabular outer cup prosthesis and inserted into the human femoral head. The superficial hip can theoretically preserve femoral bone, slow disease progression, and improve the patient's hip function in relation to future revision surgery. [0003] However, with the widespread development of superficial hip arthroplasty, the procedure also has some drawbacks. The main causes of prosthesis failure include: femoral neck fracture, femoral head collapse and prosthesis loosening. The friction interface...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61F2/34A61F2/36
CPCA61F2/34A61F2/36A61F2/3609A61F2002/3611A61F2002/30985A61F2002/3625A61F2310/00095A61F2310/00089
Inventor 张殿英刘念马信龙周一新柴伟许建中刘国栋郁凯王艳华张晓萌唐缪田张立佳杨剑
Owner JIASITE HUAJIAN MEDICAL EQUIP (TIANJIN) CO LTD
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