tissue construction

Carry out a primary study of artery tissue construction and provide a fundamental basis for tissue engineered artery and its clinical application .

进行组织工程动脉组织构建的初步实验，为最终获得组织工程动脉移植体并应用到临床奠定实验基础。

Tissue Engineering involves three key factors , that is seeding cell , cell scaffold and tissue construction .

组织工程涉及种子细胞、细胞支架、组织构建三方面的内容。

Study on tissue construction of onychomycosis by FTIR

傅立叶变换红外光谱对灰指甲组织结构的研究

Cell seeding for large-area tissue construction in bioreactor

采用生物反应器体外构建大面积组织的接种技术

A Preliminary Studies on th Tissue Construction Commercial Eriocaulon Buergerianum and Its Counterfeit in Guizhou

贵州商品谷精草及其伪品组织构造初研

MSCs , with the characteristics of easy separation , multiplex differentiation capacity and weak immune rejection , have already become a kind of very important seeded cells for tissue engineering construction .

MSCs具有容易分离培养、多向分化能力、免疫排斥反应小的特点，已经成为构建组织工程十分重要的种子细胞。

The experiment results and analysis show that the device was designed reasonable , it can carry out sine loading and also can determine the change regulation of the strain and the tissue engineering construction in under pressure loading .

实验结果和数据分析表明，装置设计合理，能够实现正弦加载，并能测定组织构建物中压应力的变化规律和应变规律。

Tissue Culture and Construction of Clones of Zoysia sinica Hance

中华结缕草节间组织培养及无性系建立的研究

Conclusion Cyclic mechanical stretches act directly to stimulate tendon cell growth and these results are compatible with a significant role for stretch in tissue engineered tendon construction .

结论周期性机械应变直接作用于肌腱细胞可以刺激其生长，这对于应用机械应变促进组织工程化肌腱的构建具有重要应用价值。

Progress in Tissue Engineering and Tendon Construction

肌腱构建与组织工程技术研究新进展

Conclusion BMSC can be used as the seed cells for bone tissue engineering , the construction of the artificial bone in vitro is feasible .

在体外，生物可降解材料ε-己内酯与环氧乙烷共聚物与种子细胞复合培养后可以构建出具有活细胞成分的组织工程骨。

This experiment is the application of tissue engineering technology and construction of tissue-engineered bone to assess the process of blood vessels , which provide a feasible plan for the reconstruction of the blood supply of the femoral head .

本实验主要是应用组织工程技术，构建组织工程化骨来评估体内血管化的过程，进而为重建股骨头的血运提供一种可行性方案。

Fabrication of allogenic cartilage in predetermined shapes with tissue engineering technique Experimental study of tissue engineered cartilage construction with scaffold of allogenic cartilage microparticle acellular tissue matrix

同种异体组织工程预定形态软骨的研究应用离心管技术以异体微粒软骨脱细胞基质为支架体外构建组织工程软骨