1) bionic joint capsule
仿生关节囊
1.
A Tester based on bio-artificial-joint was built up to evaluate wear of joints and dynamic fatigue of bionic joint capsule.
结果表明:所建立的装置不仅可以加速考察人工关节配副的磨损特性,还能够加速评价仿生关节囊的动态疲劳性能,同时实现转速、载荷以及运动角度等参数可调并具有较强可操作性;UHMW PE的磨损量与运动周期近似呈线性关系,UHMW-PE的体积磨损率相对稳定,约为70~80 mm3/106周期,且具有较好的重复性与可靠性。
2) bionic joint
仿生关节
1.
To offer the kinematics equation of bionic joint,composed by spherical gear with ring involute teeth, is the aim of this paper.
建立了基于渐开线环形齿球齿轮的仿生关节机构的运动学模型。
2.
Characteristics of the bionic joint with 3-DOF parallel manipulator include a well-knit structure,good bearing capacity and easy control.
自由度仿生关节并联机构具有结构紧凑、承载能力大和易于实现的特点。
4) Four-bar link bionic knee joint
四连杆仿生膝关节
5) joint capsule
关节囊
1.
The anatomic study and clinical significance of the posterior hip joint capsule;
髋后方关节囊的解剖学观测及临床意义
2.
Methods: The pathological and Immune-histochemical features of 60 cases were evaluated in the femoral head and joint capsule.
目的:研究股骨颈骨折后股骨头局部及关节囊VEGF的表达及意义方法:采用光镜观察(HE)和免疫组织化学(SP-9000法)对60例(分为早中晚期组)股骨颈骨折病人的股骨头及关节囊标本进行组织学观察及VEGF检测。
3.
Methods Specimens of the facet joint capsules were obtained from 5 embalmed cadavers for macroscopic investigation, and microscopic observation of L5 facet joint capsules obtained from 2 fresh cadavers was performed after the specimens were stained by way of resorzinoroseine-van Gieson method.
目的 观察腰椎小关节囊的解剖及组织学特点,探讨腰椎活动对关节囊的影响。
6) articular capsule
关节囊
1.
Effect of posterior articular capsule repair for prevention of posterior dislocation after total hip replacement(THR);
后方关节囊舌形瓣成形术对防止全髋置换术后假体后脱位的作用
补充资料:关节囊
关节囊
由纤维结缔组织构成。其两端附着于关节面周围的骨面,为密闭的囊,故它把关节与其外面的结构隔开。关节囊分为内、外两层,外层为纤维层,是致密的纤维结缔组织膜,其厚薄、松紧都与关节的具体作用相适应,它是构成关节各骨之间的主要联系结构,但有时可部分地缺如。纤维层富有血管、神经、淋巴管。内层为滑膜层,由平滑、光亮、薄而柔润的疏松结缔组织膜构成。紧贴于纤维层的内面,附着于关节软骨的周缘,除关节软骨和关节盘以外,滑膜覆盖关节内的一切结构。有时从纤维层缺如处突出、称为滑膜囊。关节的血管穿过纤维层,在关节面周围的滑膜内形成丰富的血管网,并向关节软骨提供部分营养。滑膜层内表面有滑膜绒毛,可增加滑膜面积,并有利于滑膜液的分泌与吸收。较大的滑膜褶皱形成滑膜皱襞,若含脂肪组织,则称脂肪襞或脂肪垫,它们在关节运动时,可起缓冲和调节作用。滑膜液是透明、无色的蛋清样液体,略呈碱性,含透明质酸,润滑性强,是关节软骨、半月板进行物质交换的媒介。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条