Biological Engineering addresses scientific and technological questions across the full breadth of scales in biology: molecular, cellular, tissue, organism, and systems.
生物工程处理的是生物学所有尺度所遇到的科学和科技上的问题:分子、细胞、组织、有机体和系统。
Objective: to investigate a method to remove cellular components from bovine pericardial tissue, resulting a scaffold for tissue engineering of heart valve or cardiovascular patch.
目的:对牛心包材料进行了去污剂—酶联合脱细胞研究,为组织工程学方法研制生物瓣提供适合的生物材料。
This article discusses the resent progresses in the research on immunology and cellular compatibility of silk fibroin used in tissue engineering.
阐述了近年来对丝素蛋白在组织工程学研究中所涉及的免疫学方面及细胞相容性方面的研究概况。
Metabolism engineering referred to the improvement of cellular properties by special biochemical reactions or the construction of new compounds by DNA recombination techniques.
代谢工程是指通过某些特定生化反应的修饰来定向改善细胞的特性或运用DN A重组技术创造新的化合物。
Metabolic engineering is the analysis of metabolic pathway and designing rational genetic modification to optimize cellular properties by using principle of molecular biology.
代谢工程是利用分子生物学原理系统分析代谢途径,设计合理的遗传修饰策略从而优化细胞的生物学特性。
To improve the cellular affinity of chitosan, chitosan-collagen porous composite scaffolds for tissue engineering were prepared in this study.
本研究的目的就是利用细胞亲和力较好的胶原与壳聚糖复合,制备具有较好细胞亲和力的组织工程复合支架。
AIM: To study the in vitro construction process of cellular tissue engineering cornea stroma.
目的:研究体外构建组织工程角膜基质的方法。
Biochemical, cellular, molecular and tissue engineering.
生化,细胞,分子和组织工程。
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。
The cellular automata simulation method was widely used in engineering areas because of its simple structure and adapted to parallel calculating.
元胞自动机模拟方法由于其结构简单、易于并行运算而在工程领域有着广泛的应用。
Materials with a cellular structure have unique mechanical properties, and find increasingly wider use in engineering.
多胞材料具有独特的力学性质,其工程应用日益增加。
Materials with a cellular structure have unique mechanical properties, and find increasingly wider use in engineering.
多胞材料具有独特的力学性质,其工程应用日益增加。
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