...入物调换)的比率即使在 好的临床结果中也能达到2%-3%。小心地设计第一次植入物和替换植入物必须 面对应力屏蔽(stress shielding)和骨贮存(bone stock)损失问题。大部分现有技术 的涂层是有裂缝的且具有差的玻璃-金属界面'H:性。
基于8个网页-相关网页
同时,也使用2种骨重建算法和实验性骨矿含量检查了潜在的应力屏蔽效应。
Also, the potential stress shielding effect was examined using the 2 bone remodeling algorithms and the experimental bone mineral data.
这些合金具有低弹性模量,因此有望减弱“应力屏蔽”效应,延长植入物材料的使用寿命。
It is expected that these novel low elastic modulus Ti-Nb-Zr alloys, can decrease the stress shielding and prolong the implant service life.
应用于植入性下肢假肢的骨植入体多为一段式结构,长期使用下产生的应力屏蔽效应容易引起骨质疏松,继而导致植入体植入失败。
One-part implant widely used for osseointegrated artificial lower limb attachment would lead to osteoporosis caused by stress shielding after a long time of implantation, and result in failure.
应用推荐