经体外诱导成的内皮细胞后,种植于瓣膜支架,构建组织工程瓣膜。
The endothelial cells differentiated in vitro were seeded onto the surface of decellularized scaffolds to construct tissue engineered heart valve.
结论:纤维环细胞种植到有组织的、各异向性的类似纤维环样的支架上产生很好的力学特性。
Conclusion. AF cells seeded on nanofibrous scaffolds elaborated an organized, anisotropic AF-like extracellular matrix, resulting in improved mechanical properties.
自体细胞种植于PLGA支架上培育出的组织工程食管可以替换犬部分颈段食管并取得良好效果。
Seeding autologous seed-cells on PLGA scaffolds can construst TEEs suitable for substituting a segment of the autologous cervical esophagus.
另一种将干细胞种植在充满生长促进剂的各式简单支架上的方法,则有较多进展。
More progress has been made by seeding stem cells onto a variety of simple scaffolds impregnated with growth-promoting chemicals.
目的:拟验证脐静脉内皮细胞低密度种植于脱细胞猪动脉支架实现血管内皮化的可行性。
OBJECTIVE: To explore endothelialization of low density human umbilical vein endothelial cell (HUVEC) seeded on decellularized porcine carotid arteries scaffold.
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 effects of RCCS on cell seeding onto 3-d scaffold and cell-scaffold composite culture in vitro.
随着组织工程学技术的进展,利用培养的自身组织细胞种植于支架材料表面,体外重新构建理想的心脏瓣膜移植物日益成为瓣膜外科的研究热点。
With the development of tissue engineering technology. Tissue engineering of heart valve by seeding cells and scaffolds has become a hot issue in valve surgery.
目的:尝试使用简单的动态种植方法来提高成纤维细胞在三维支架上的种植效率和均匀性,以更有效地构建组织工程皮肤。
Objective:To explore a simple way to improve seeding efficiency and uniformity in constructing 3-D dermal equivalent, in order to effectively construct tissue engineered skin.
体外培养的皮肤成纤维细胞成功种植在支架材料上,在材料上粘附、生长良好。
The skin fibroblasts seeded successfully and were able to attach, grow well on the scaffolds.
体外培养的皮肤成纤维细胞成功种植在支架材料上,在材料上粘附、生长良好。
The skin fibroblasts seeded successfully and were able to attach, grow well on the scaffolds.
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