我们从组织工程化组织构建的角度,提出了一种可用于应变场细胞三维培养的组织工程支架。
This article introduces a three dimensional scaffold which is used to perform three dimensional cell culture under mechanical stretch from the point of construction of tissue engineered tissue.
组织工程学的研究成果将会为临床医学提供工程化组织,以修复组织缺损,重建或改善组织、器官功能。
The research achievements of the tissue engineering study will provide engineered tissues for clinical medicines, and repair bone defect, reconstruct or improve the tissues and organs.
目的探索应用离心管培养技术进行体外构建组织工程化关节软骨组织的可行性,并研究其结构和功能。
Objective To explore the feasibility of tissue engineered articular cartilage constructed by the technique of centrifuge tube culture and study its structure and function.
生物衍生骨是天然生物组织经一系列理化方法处理而得,是理想的组织工程化骨的支架材料。
Bio - derived bone can be obtained from nature tissue by a serious of physical and chemistry method, so it is one of the best stand of tissue engineering.
目的探索组织工程化骨预制的方法,研究组织工程化预制骨修复骨缺损的可行性及实用性。
Objective To explore the methods of tissue-engineered bone prefabrication, and study the feasibility of bone defect repair by prefabricated tissue-engineered bone.
从组织工程骨的预制、血管化及预制骨骨缺损修复作用三个方面对组织工程化骨预制技术研究的现状和发展趋势进行了回顾和展望。
We review and preview the status quo and tendency of tissue engineering bone prefabrication from bone prefabrication, vascularization and the reconstruction action of bone defect.
结果术后8周见组织工程化肌腱呈白色、有光泽,组织学可见胶原组织平行排列,但仍可见未降解的PGA及少量炎性细胞;
Results At postoperative 8 weeks the engineered tendon assumed white and shiny, with parallel arrangement of the collagen tissue. Undegraded PGA and a few inflammatory cells could still be seen.
本实用新型所述的组织工程骨移植物可用于制备修复大段骨缺损的功能性组织工程化骨移植物。
The tissue engineering bone graft of the utility model is a functional tissue engineering bone graft which can be used for making and repairing a large section of bone defect.
结论:蚕丝蛋白生物支架具有良好的三维空间结构和生物降解性,人脐带间充质干细胞接种于蚕丝蛋白生物支架可用于组织工程化脂肪组织的研究;
Conclusions The silk fibroin scaffold is a new type of scaffold with 3D space structure and good biodegradation. hUCMSCs could be used in the research of tissue engineering adipose.
结论:蚕丝蛋白生物支架具有良好的三维空间结构和生物降解性,人脐带间充质干细胞接种于蚕丝蛋白生物支架可用于组织工程化脂肪组织的研究;
Conclusions The silk fibroin scaffold is a new type of scaffold with 3D space structure and good biodegradation. hUCMSCs could be used in the research of tissue engineering adipose.
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