Objective to investigate the effects of RCCS on cell seeding onto 3-d scaffold and cell-scaffold composite culture in vitro.
目的观察微重力旋转培养系统对细胞种植于支架和细胞支架复合物体外培养的影响。
Objective To investigate the feasibility on making a urinary tract cell-scaffold composite in vitro by tissue engineering methods.
目的利用组织工程方法在体外构建尿路细胞-支架复合体。
After ethanol treatment, the bio-mechanical properties of the composite scaffold increased significantly and water-dissolved rate decreased remarkable.
经有机醇处理后,复合支架的生物力学性能显著提高,水中溶失率明显下降。
The papers provided an experimental basis for the composite tubular scaffold used as tissue engineering blood vessel.
论文为该复合管状支架用于组织工程提供了实验依据。
The cells seeded on the composite scaffold could migrate to the inside of the composite scaffold and grew well.
在复合支架上培养的细胞能够迁移至支架内部旺盛生长。
Conclusion the PLLA-PDXB composite has a good cell affinity, and this kind of composite can hopefully become a new scaffold material to be used in the bone tissue engineering.
结论PLLA—PD XB复合材料具有优良的细胞亲和性,可望成为一类新的骨组织工程细胞支架材料。
Conclusion the PLLA-PDXB composite has a good cell affinity, and this kind of composite can hopefully become a new scaffold material to be used in the bone tissue engineering.
结论PLLA—PD XB复合材料具有优良的细胞亲和性,可望成为一类新的骨组织工程细胞支架材料。
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