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.
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。
Objective To construct tissue engineered cartilage using cartilage microparticle acellular tissue matrix(CMACTM)as scaffold.
目的探索以异体软骨微粒脱细胞基质为支架构建组织工程化软骨。
Tissue engineered skin constructed by cultured keratinocyte in vitro provides a new way to accelerate skin wound healing and improve the quality of tissue repair.
体外培养表皮细胞构建组织工程化人工皮肤是促进皮肤缺损创面愈合、提高创面修复质量的新途径。
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。
AIM: to compare the keratin pattern between the tissue engineered skin and normal skin so as to investigate the differentiation of tissue engineered epidermis.
目的:对比研究培养的组织工程皮肤与正常皮肤的角蛋白构型,探讨培养后的表皮分化情况。
Objective To explore the methods of tissue-engineered bone prefabrication, and study the feasibility of bone defect repair by prefabricated tissue-engineered bone.
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 Preparing and testing CPC-PLGA polymer tissue engineered bone, providing a new-type scaffold material for bone tissue Engineering.
目的制备并检测CPC - PLGA复合物,为骨组织工程研究提供新的支架材料。
Conclusions Biphasic seeding is an effective method for fabricating tissue-engineered bone, can improve the seeding efficiency and facilitate in vitro maturation of the tissue-engineered bone.
结论双相接种法是一种高效的组织工程骨构建方法,有利于提高接种效率和促进组织工程骨的体外成熟。
Meanwhile the research provides a potential way for heterogenic transplantation of blood vessel tissue engineering, and is also important to succeed construct tissue-engineered blood vessel.
本研究为组织工程血管的异种移植提供了可靠方法学的依据,对组织工程血管的成功构建具有十分重要的意义。
Objective To construct tissue engineered cartilage by combining allogenic cartilage microparticle acellular tissue matrix and chondrocytes.
目的将软骨细胞与异体软骨微粒脱细胞基质相结合,构建组织工程软骨。
The results of the DEXA demonstrated that the vascularized tissue-engineered bone produced more boney tissue.
骨密度测量结果显示血管束植入后组织工程骨新骨生长较未植入血管束者多。
Conclusion: Human oral mucosa can be developed successfully with tissue-engineering methods, and PLGA can be used as scaffold for tissue-engineered oral mucosa.
结论:成功培养全层人口腔黏膜,PLGA可作为口腔黏膜组织工程支架材料。
Conclusion: Human oral mucosa can be developed successfully with tissue-engineering methods, and PLGA can be used as scaffold for tissue-engineered oral mucosa.
结论:成功培养全层人口腔黏膜,PLGA可作为口腔黏膜组织工程支架材料。
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