因此,获得良好的种植体软组织界面是一个急待解决的问题。
So how to obtain a good interface between implant and soft tissue is essential to solve as soon as possible.
种植体界面骨组织的最大应力位于种植体颈部周围的骨皮质界面;
The value of stress peaks in implants and in bone -implant interface under oblique loads appeared higher than those under vertical loads.
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.
本文综述了种植体表面微结构对种植体-骨组织界面成骨细胞的生物学行为的影响,为研究和设计种植体表面微结构提供参考。
This review summarized effects of different implant surface microstructure on osteoblasts at bone-implant interface, in order to guide optimization of implant surface microstructure.
硬组织切片是一种单层组织切片,制作过程较复杂,但其对种植体-骨界面的细微情况显示较清晰。
Hard tissue section was more complex in the production process. But it was clear to detect the implant bone interface osteogenesis.
通过骨—种植体硬组织切片 ,观察了骨—种植体界面。
The osseo-implant interface by hard tissue slices with both the TM implant and bone were observed.
通过骨—种植体硬组织切片 ,观察了骨—种植体界面。
The osseo-implant interface by hard tissue slices with both the TM implant and bone were observed.
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