结论OGP(10 - 14)及其衍生物治疗后,在一定程度上提高了骨质疏松大鼠骨组织抗冲击、抗压缩的能力,改善了骨生物力学性能。
Conclusion After the treatment with OGP (10-14) and its derivatives, the anti-impact and anti-compression ability of bone were increased in osteoporotic rats while the biomechanics was improved.
目的:应用自行设计的微创植骨器进行微创植骨术修复骨缺损的生物力学和组织学观察。
AIM to observe the biomechanics and histology of minimally invasive bone grafting in the plerosis of bone defects with self-made minimally invasive bone grafting instrument.
生物力学实验结果表明,使用羟基磷灰石涂层,可以显著提高骨组织与种植体的界面结合强度。
It was revealed by push out test that the hydroxyapatite coating greatly prompt the bonding strength between implant and surrounding hard tissues.
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