1) artificial bone
人工骨
1.
Experimental study of Nano-Hydroxyapatite/rhBMP-2 composite artificial bone;
纳米羟基磷灰石/重组人骨形成蛋白-2复合人工骨的实验研究
2.
Study on onlay implant with artificial bone scaffolds manufactured by low-temperature rapid prototyping technology;
低温快速成形人工骨的敷贴植骨实验研究
3.
Use the biomaterials of GTR membrane,artificial bone and bFGF to treat periodontal bone damage:Experimental study;
应用GTR膜与人工骨、bFGF等生物材料治疗牙周骨缺损的实验研究
2) artifical bone
人工骨
1.
Objective To observe the effects and adverse reactions in the repair of Metacarpal bone defects after using Cem-Ostetic~(TM) artifical bone graft.
目的C em-O steticTM人工骨浆为多种无机钙盐与纯净水混合物,观察C em-O steticTM人工骨浆修复掌骨缺损的临床疗效及不良反应。
2.
[Result]The average porosity rate of artifical bone with TIPS method was 85.
[目的]研制新型三维多孔复合人工骨材料并评价其相关性能。
3.
The average porosity rate of artifical bone with TIPS method was 85.
研制性能优良的新型三维多孔复合人工骨材料,并评价其相关性能。
3) synthetic bone
人工骨
1.
Objective:To discuss the role of calcaneus Ti-Plate and synthetic bone grafting in the treatment of calcaneus fracture.
目的:探讨应用跟骨钛板及人工骨移植在重建跟骨关节面塌陷骨折的完整和稳定性中的作用。
2.
Synthetic bone can be replaced by new bone with metabolism, but the key is how to let the bioactive products(growth factor and osteocyte)and tissue fluid deep into the structure, which su.
近年来,提出了生物制造工程这一新概念,其利用先进制造科学中快速成型技术、医学领域的细胞培养和三维建模技术,进行人工骨的研究。
4) bone substitute
人工骨
1.
Biocompatibility and degradation of an injectable nano-sized composite bone substitute;
注射式复合纳米人工骨的生物相容性和降解性能的实验研究
2.
Objective To evaluate the degradative and structual characteristics of a new injectable nano-hydroxyapatite/ calcium sulphate bone substitute under simulated body fluid environment,and to study it s correlation to bone-inducing activity.
目的将纳米羟基磷灰石与半水硫酸钙组合构建一种可注射的人工骨材料,研究其在模拟体液环境中的降解与物质变化,并探讨该变化与材料成骨活性的关系。
5) The manpower bone establishes a bone
人工骨植骨
6) artificial skull
人工颅骨
1.
Detecting content of trace MMA from composite materials of artificial skull with gas phase chromatography method;
人工颅骨用复合材料中微量甲基丙烯酸甲酯的气相色谱法测定
2.
s:This artificial skull was molded with medical silicone rubber and polyester fiber.
由医用硅橡胶和聚酯纤维复合模压制成了人工颅骨 ,简要介绍了其制备工艺、性能及临床应用结
3.
The preparation and mechanics capability of artificial skull which is made with carbon fiber and glass fiber hybrid reinforced polymethyl methacrylate(PMMA)/hydroxyapatite (HA)are presented in this paper.
主要论述了碳纤维 (CF)和玻璃纤维 (GF)混杂增强聚甲基丙烯酸甲酯 (PMMA) /羟基磷灰石 (HA)复合材料人工颅骨的制备方法及其力学性能。
补充资料:人工骨
分子式:
CAS号:
性质:用人工材料制造的人骨的替代品或者骨折固定的材料,主要有高分子合成材料,如聚甲基丙烯酸甲酯、高密度聚乙烯、聚砜、聚左旋乳酸、乙醇酸共聚物、液晶自增强聚乳酸、自增强聚乙醇酸等,无机材料,如羟基磷灰石、氧化铝生物陶瓷等,可以替代人体头盖骨、肩、臂、指、肥肉关节等,其加工容易,价廉物美,在体内老化与腐蚀性小,但存在耐磨性差,同时人工骨与生物体愈合承受过重外力时又会发生骨吸收现象,从而造成人体骨的脱离。
CAS号:
性质:用人工材料制造的人骨的替代品或者骨折固定的材料,主要有高分子合成材料,如聚甲基丙烯酸甲酯、高密度聚乙烯、聚砜、聚左旋乳酸、乙醇酸共聚物、液晶自增强聚乳酸、自增强聚乙醇酸等,无机材料,如羟基磷灰石、氧化铝生物陶瓷等,可以替代人体头盖骨、肩、臂、指、肥肉关节等,其加工容易,价廉物美,在体内老化与腐蚀性小,但存在耐磨性差,同时人工骨与生物体愈合承受过重外力时又会发生骨吸收现象,从而造成人体骨的脱离。
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