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负重对生物活性骨水泥与骨结合界面微力学及化学成分的影响
引用本文:倪国新,曲广运,吕维加,谭兵,颜庆云,李朝阳,陆瓞骥. 负重对生物活性骨水泥与骨结合界面微力学及化学成分的影响[J]. 中华创伤骨科杂志, 2006, 8(2): 143-147
作者姓名:倪国新  曲广运  吕维加  谭兵  颜庆云  李朝阳  陆瓞骥
作者单位:1. 香港大学矫形及创伤外科学系
2. 香港大学机械工程学系
摘    要:
目的探讨负重对含锶羟基磷灰石(Sr-HA)生物活性骨水泥与骨结合界面微力学及化学成分的影响。方法12只兔随机分为两组,将Sr-HA活性骨水泥注入其中一组兔的髂骨内(非负重状态),另一组中,Sr-HA活性骨水泥被用于单侧半髋关节置换(负重状态)。术后6个月,我们分别对两种状态下骨与Sr-HA活性骨水泥界面的组织学、化学成分及力学特性等进行了研究和比较。结果组织学观察可见,在两种状态下,骨与Sr-HA活性骨水泥均能紧密结合。但负重组的骨-骨水泥界面可见活跃的新骨形成及骨的重建。能谱(EDX)分析的结果显示:负重组界面的钙与磷含量明显高于非负重组。此外,两种状态下,界面的力学性能表现出不同的特性:负重组界面的杨氏模量及硬度高于骨及骨水泥;而非负重组界面的力学性能介于骨与骨水泥之间。结论负重有利于骨的代谢及骨-骨水泥界面的力学特性。

关 键 词:负重  锶羟基磷灰石  界面  纳米压痕  生物活性骨水泥
收稿时间:2005-10-20
修稿时间:2005-10-20

Effect of weight-bearing on micromechanics and chemical components of interface between bioactive bone cement and bone
Guoxin NI, Peter KY CHIU, WUiam W LO.. Effect of weight-bearing on micromechanics and chemical components of interface between bioactive bone cement and bone[J]. Chinese Journal of Orthopaedic Trauma, 2006, 8(2): 143-147
Authors:Guoxin NI   Peter KY CHIU   WUiam W LO.
Affiliation:Department of Orthopaedics and Traumatology, The University of Hong Kong, Hong Kong
Abstract:
Objective To examine the effect of weight- bearing on the bone- bonding behavior of the strontium- containing hydroxyapatite (Sr- HA) cement. Methods 12 rabbits were randomized into 2 groups. In one group, Sr- HA cement was injected into rabbit ilium (non- weight- bearing conditions). Unilateral hip replacement was performed with Sr- HA cement (weight- bearing conditions) in the other group. 6 months later, all the rabbits were sacrificed. The histological examination, scanning electron microscopy (SEM) with energy- dispersive X- ray (EDX) analysis, as well as nanoindentation test were taken and cancellous bone- Sr- HA cement interfaces under non- weight- bearing and weight- bearing conditions were compared. Results Intimate contact between bone and Sr- HA cement was observed in both groups. However, increased bone formation and remodeling was suggested under weight- bearing conditions. EDX analysis also showed that the contents of calcium and phosphorus under weight- bearing conditions were considerably higher than those under non- weight- bearing conditions. Results of nanoindentation test revealed that both the Young' s modulus and hardness of the interface were higher than those of either cancellous bone or Sr- HA cement under weight- bearing conditions, and lower than the cancellous bone' s but higher than the Sr- HA cement' s under non- weight- bearing conditions. Conclusion Weight- bearing has positive effect on the bone metabolism and mechanical properties of bone- cement interface
Keywords:Weight- bearing  Strontium- containing hydroxyapatite(Sr- HA)  Interface  Nanoindentation  Bioactive bone cement  
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