股骨的三维重建为髋关节假体的优化设计提供了依据。
The 3d reconstruction for femur provides scientific basis for the prostheses optimal design.
目的:探讨髋关节假体置换后整体康复治疗功能训练的方法和效果。
OBJECTIVE: To explore the method and effect of rehabilitative functional training following hip replacement.
结论髋关节假体置换术可引起骨髓脂肪入侵血液循环并导致血小板激活。
Conclusions Hip prosthesis can cause intravasation of bone marrow fat that leads to platelet activation.
分析了超高分子量聚乙烯(UHMWPE)基人工髋关节假体松动失效的主要因素。
The main factors of ultra high molecular weight polyethylene (UHMWPE) artificial hip joint invalidation were analyzed.
方法将26例髋关节假体置换术患者作为研究组,24例软组织手术患者作为对照组。
Methods Experimental group was consisted of 26 patients receiving hip prosthesis, and control group included 24 patients experiencing soft tissue trauma or other operations.
目的了解不同类型的髋关节假体柄与骨的接触面积,并探讨接触面积的大小与假体松动的关系。
Objective to elucidate the contact areas of stem-bone of the different type prostheses and probe into the relation between the contact areas and prosthesis loosening.
方法:对61例64个髋使用同一种羟基磷灰石涂层人工髋关节假体的中青年患者进行临床和放射线随访观察。
Methods: 64 hips with one kind of HA-coated total hip arthroplasty out of 61 patients were studied by clinical and radiographic analysis.
对全髋关节置换系统进行全面的生物力学分析,有利于了解人工关节假体系统的力学特性,对假体的临床选择及个体化设计有很大帮助。
Biomechanical analysis to the THA system can make for realizing its mechanical properties and giving help to the clinical selection and individual design of prosthesis.
对全髋关节置换系统进行全面的生物力学分析,有利于了解人工关节假体系统的力学特性,对假体的临床选择及个体化设计有很大帮助。
Biomechanical analysis to the THA system can make for realizing its mechanical properties and giving help to the clinical selection and individual design of prosthesis.
应用推荐