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Rolling artificial knee joint

An artificial knee joint and rolling technology, applied in the direction of knee joints, elbow joints, joint implants, etc., can solve the problems of long-term failure of prosthesis, large amount of wear, low friction coefficient, etc., to avoid biological toxicity, Considerable economic benefits, obvious social benefits and excellent effects

Inactive Publication Date: 2005-01-26
SHANGHAI SIXTH PEOPLES HOSPITAL +1
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The defects of these artificial knee joints are: (1) in order to reduce the friction coefficient between the femoro-tibial articular surfaces, artificial knee joints mostly adopt ultra-high molecular weight polyethylene and metal with low friction coefficient as the friction pair
However, ultra-high molecular weight polyethylene has a large amount of wear and tear, which can easily lead to long-term failure of the prosthesis
And its abrasive particles will cause severe osteolysis, which will lead to high loosening rate of the prosthesis in the medium and long term, and shorten the service life of the artificial joint.
(2) The restrictive prosthesis is limited to a single plane of movement, which can easily cause abnormal concentration of stress at the prosthesis-bone cement-bone tissue interface
The flat polyethylene platform has a small degree of knee joint activity, but because the femoro-tibial joint is in point contact when the knee is flexed, the local compressive stress load is greatly increased, which aggravates the wear of polyethylene and affects its service life
If the articular surface of the polyethylene platform is cup-shaped and the curvature matches the shape of the femoral condyle, increasing the contact between the femoral and tibial articular surfaces can reduce the compressive stress load per unit area of ​​the joint, but this design also limits joint motion, especially Rotational movement, causing the interface stress of prosthesis-bone cement-bone tissue to increase
After literature search, it was found that H.ThabeBad Kreuznach.Germany wrote an article "Mobile Bearing Total Knee Arthroplasty (Mobile Meniscal Type Total Knee Arthroplasty) in "Proceedings of the Seventh National Artificial Joint Academic Conference and International Symposium" pp112-115 ", this paper proposes a design concept of a mobile meniscus type artificial knee joint, which is used to solve the contradiction between the matching between the articular surfaces and the range of motion of the joint. The wear problem of polyethylene can be solved by improving the polyethylene manufacturing process and additives. However, due to the extremely strict requirements for medical implant materials, it is extremely difficult to improve and obtain approval of materials, and it still cannot avoid the wear and tear problem of polyethylene. In addition, this artificial knee joint also adds a The new wear area is the wear between the substrate and the mobile meniscus of the polyethylene

Method used

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  • Rolling artificial knee joint
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Embodiment Construction

[0015] Such as figure 1 , figure 2 , image 3 , Figure 4 As shown, the present invention mainly comprises: femoral component 1, rolling body 2, mandrel 3 and tibial component 4, and its connection mode is: femoral component 1 and mandrel 3 respectively have two raceways 12 and 16, and corresponding raceway Combined to form two annular spaces 5 with a circular cross-section, the rolling body 2 is arranged in the annular space 5, the columnar protrusion 19 of the tibial component 4 is connected with the concave hole 15 of the mandrel 3, and the mandrel 3 is located in the femoral component In the inner and outer condyles 11 of 1, the femoral component 1, the rolling body 2, and the mandrel 3 form a structure equivalent to two rolling bearings.

[0016] Femoral component 1 comprises: intramedullary stem 9, femoral plateau 10, inner and outer condyle 11, raceway 12, balling gap 13, and its connection mode is: except intramedullary stem 9, each position of femoral component 1 ...

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Abstract

The present invention belongs to the field of artificial joint. The rolling artificial knee joint includes thigh part, roller, spindle and tibia part. The connection mode includes via the two roller tracks in the thigh part and the two roller tracks in the spindle to form one ring space, setting the roller in the ring space, connecting the libia part and the spindle, setting the spindle in the internal and external condyles and forming two rolling bearing-like structures with the thigh part, roller and spindle. The present invention has reduced prosthesis wear, prolonged use period, low production cost and no biological toxic action of polyethylene and can meet the treatment requirement of patient.

Description

technical field [0001] The invention relates to an artificial knee joint, in particular to a rolling artificial knee joint, which belongs to the field of artificial joints. Background technique [0002] The existing basic structures of artificial knee joints include three types of prostheses: restrictive, semi-restrictive and non-restrictive. Their structure is different, but the joint surface of femorotibial joint adopts the sliding friction method. The defect of these artificial knee joints is: (1) in order to reduce the friction coefficient between the femoro-tibial articular surfaces, the artificial knee joint mostly adopts ultra-high molecular weight polyethylene and metal with low friction coefficient as the friction pair. However, ultra-high molecular weight polyethylene has a large amount of wear and tear, which can easily lead to long-term failure of the prosthesis. And its abrasive particles will cause severe osteolysis, which will lead to high loosening rate of ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61F2/38A61F2/64
CPCA61F2002/30639A61F2/38
Inventor 于仲嘉王成焘
Owner SHANGHAI SIXTH PEOPLES HOSPITAL