A preliminary investigation on role of auto - solidification calcium phosphate cement loaded with drugs in treating traumatic osteomyelitis 自固化磷酸钙人工骨载药治疗创伤性骨髓炎的初步观察
An experimental study on repairing bone defect with the compound of bone morphogenic protein , red bone morrow , hydroxyapatite and fibrin sealant 脱钙骨基质人工骨修复兔桡骨大段骨缺损的实验研究
Transfer of calcium phosphate artificial bone combined with mesenchymal stem cells for repair of segmental bone defects : an experimental study 磷酸钙人工骨结合骨髓基质干细胞移植修复骨缺损的实验研究
Treatment of thoracolumbar vertebrae fractures with vertebral pedicle screw system and artificial bones filled with autosolidification calcium phosphate cement 椎弓根螺钉系统加自固化磷酸钙人工骨灌注治疗胸腰椎骨折
Treatment of serious comminuted distal radius fractures in aged patients by dynamic external fixator combined with minimally - invasive injectable graft 动力外固定支架结合微创可注射型人工骨治疗老年桡骨远端粉碎性骨折
Results : the mechanical properties of bone cement were improved by adding a certain proportion of chitin , aluminum borate and / or demineralized rabbit bone 几种水门汀中,羟基磷灰石人工骨的晶须加强型和脱矿骨甲基丙烯酸正丁酯水门汀的机械强度较好。
Not only the size and distribution but also the shape and structure of micro - holes are considered . the model is fundamentally similar in structure characters of bone tissue , so assuring the bioactivity of bone in structure 它不仅考虑了微孔的大小、分布,而且还考虑了微孔的形状、结构,比较充分地体现了骨内部微细结构的特点,从而在结构上保证了人工骨的生物活性。
This article advances the individuation modeling technology of artificial bone substitute , which is applying reverse engineering and rapid prototyping technology to manufacturing individuation artificial bone substituting for the question of artificial bone matching 摘要本文针对人工骨替代物的形状匹配问题,提出了将反求工程技术应用于个性化骨替代物的建模,实现人工骨替代物个性化的制造方法。
The material was sintered at 1050 for three hours to get the porous artificial bone , that its apparent porosity was54 % , its volume density was 1 . 28 g / cm3 , and its bending strength was 13 . 25mpa . the results showed that the sintering temperature was reduced by adding bioglass 本研究采用含生物玻璃前驱体粉末原料,添加柠檬酸造孔剂,模压成型,在1050烧结保温3小时,获得了显气孔率为54 、体积密度为1 . 28s cm ~ 3 、抗弯强度为13 . 25mpa的多孔hap人工骨材料。
The research on 3 dimension system suggests that though the 2 dimension model can not be used directly to the 3 dimension system , we can realize the automatic simulation of 3 dimension after a full and enough study on the 3 dimension system and its characters reflected in the 2 dimension sections . we can judge the features of material and predict the development of material in vivo , which is significant for study on the actual degrading process of bioceramic in vivo 对三维系统在二维截面上特征的研究表明,生物陶瓷在二维空间的降解模型虽然不能直接应用于三维系统的动态仿真之中,但是只需要对模型的三维特征进行充分的研究,可以实现三维空间降解过程的动态模拟,并对材料的综合性能作出科学而准确的评价,对人工骨的降解变化过程进展作出预报,这对于考察实际生物陶瓷体内降解过程的实验研究,具有相当重要的意义。