骨组织修复材料长期以来都是生物医学材料领域的热门课题。
The material for repairing bone tissue is a hot topic in the field of biomedical materials.
骨组织修复材料作为骨缺损的替换材料,具有功能上的特殊性——应用于负载的力学性能、生物相容性、骨传导性及骨诱导性。
Materials for defect replacement and repairing process special functional requirements for mechanical properties for bone-bearing, biocompatibility, osteoconductivity and osteoinductivity.
纳米材料与纳米技术为寻求修复各种原因引起的骨组织缺损、畸形的新型材料和技术起了很大的推动作用。
The research of new materials and techniques repair defect and deformity of bone tissue, which caused by various disease, is an important challenge in life science and biomaterial science.
此材料可望成为优异的骨修复材料及骨组织工程支架材料。
The material is expected to be a good candidate for bone-repairing and bone tissue engineering scaffold materials.
PHB可以作为组织工程材料中的一种来修复骨缺损。
PHB is one of the ideal scaffold material in bone tissue engineering.
术后4、8、12周分别处死动物,取缺损修复区和材料—骨界面标本,观察组织动态学。
After the operation, the animals were executed 4, 8, 12 weeks respectively. The defect restoration areas and the material-bone interface samples were taken to observe tissue dynamics.
寻求修复各种原因引起的骨组织缺损、畸形的新型材料和技术一直是生命科学和生物材料科学领域的一个重要课题。
The research on new materials and techniques to repair defect and deformity of bone tissue, which caused by various disease, is an important challenge in life science and biomaterial science.
寻求修复各种原因引起的骨组织缺损、畸形的新型材料和技术一直是生命科学和生物材料科学领域的一个重要课题。
The research of new materials and techniques to repair defect and deformity of bone tissue, which caused by various disease, is an important challenge in life science and biomaterial science.
非软骨类组织和材料只能阻止小面积生长板缺损内骨桥形成,无再生修复能力。
Non cartilaginous tissue and material could only prevent formation of bony bridge in small defect of growth plate and lacked ability of regenerative repair.
作者认为,将几类生物材料复合加工,研制出类似于人体骨组织的材料,将是今后骨修复材料的发展趋势。
We think that the ideal bone repair material should be a composite of some kinds of biomaterials, which is similar to human bone tissue.
羟基磷灰石(HAP)是一种生物相容性优良的骨修复和替换材料,植入生物体后可以与生物骨结合为一体,但陶瓷的脆性限制了其在骨组织替换中的应用。
HAP is a good type of biomedical material, which can form a bond with the neighboring bone after planted in the human body, but the brittleness of the ceramic limits it's use.
方法:在实验研究成功的基础上,将冷冻异体骨膜作为引导组织再生膜性材料应用于引导即刻种植义齿植体周围骨缺损的修复。
Methods:Based on successful laboratory research, we treated the patients with bone loss around instant implants by using frozen homologous periosteum as Guided Tissue Regeneration membrane.
带血管蒂腓骨复合组织瓣是修复下颌骨复合缺损较理想的材料。
The authors suggest that the complex tissue flap of vascular pedicled fibula is an optimal material for repairing the mandible defect.
载药磷酸钙骨水泥是一种集骨修复和局部药物缓释于一体的新型硬组织修复材料。
Calcium phosphate cements (CPC) are used for bone defect filling and may also be used as delivery systems for active agents.
可注射性骨组织工程支架材料,可通过非侵害或微创伤方式达到修复和治疗骨缺损和骨畸形的目的。
Injectable scaffold materials of tissue engineering can rehabilitate or cure bone lack and bone abnormality in unharmful or tiny harmful way.
比较结果显示,COL - HA生物支架材料相对于COL生物支架材料更适合用于软骨下骨或骨组织缺损的修复。
The results showed that COL-HA scaffolds were more suitable for the subchondral bone or bone defects repair than the COL scaffolds.
实验表明,此种材料与骨组织能牢固结合,是一种较好的骨质缺损的修复材料,可用于临床。
The results showed that the implant substance firmly combined with bone tissue in a progressing pattern. lt indicated that Hydrox…
纳米羟基磷灰石具有良好的生物相容性和生物活性,是较好的生物材料,被广泛应用于骨组织的修复与替代技术。
Nano-hydroxyapatite has been widely used as reconstructive and prosthetic material for osseous tissue, owing to its excellent biocompatibility and tissue bioactivity.
应用骨组织工程技术修复大的骨缺损成为近年来的研究热点。而成骨细胞和支架材料在体外的复合,是组织工程研究的重点和难点之一。
Repairing main bone defect by bone tissue engineering has been one of popular studies currently, complex osteoblasts and scaffolds in vitro is important and difficult.
非软骨组织材料只能阻止小面积生长板缺损内骨桥形成,无再生修复能力。
Noncartilaginous tissue and material could only prevent formation of bony bridge in small defect of growth plate and lacked ability of regenerative repair.
结论:无机活性诱导元素骨组织工程支架材料具有良好的细胞亲和性,是一种较为全面的极具潜力的骨修复材料。
Conclusions: the inorganic active element induced bone scaffold materials possess preferable cellular affinity, which could be the high potential scaffold material of bone tissue engineering.
结论:无机活性诱导元素骨组织工程支架材料具有良好的细胞亲和性,是一种较为全面的极具潜力的骨修复材料。
Conclusions: the inorganic active element induced bone scaffold materials possess preferable cellular affinity, which could be the high potential scaffold material of bone tissue engineering.
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