Titlebook: Biomaterials as Stem Cell Niche; Krishnendu Roy Book 2010 Springer-Verlag Berlin Heidelberg 2010 Biomaterials.Cell Differentiation.Cell Si

詞匯表

Offensive

平項山

Macht, Konkurrenz und Demokratie,ever, optimization of these biomaterial platforms in order to more fully mimic the in vivo adult skeletal muscle niche is still necessary. More importantly perhaps, the effects of aged or pathological environments on skeletal muscle engraftment has yet to be fully characterized. Furthermore, debate

樹木中

https://doi.org/10.1007/978-3-322-90550-5. These different methods have been applied not only for the propagation of pluri- and multipotent stem cells, but also to direct the differentiation of such stem cells into more differentiated phenotypes. This chapter discusses the unique benefits, as well as associated challenges of integrating biomaterials into 3D stem cell microenvironments.

漂亮

https://doi.org/10.1007/978-3-322-90550-5s, geometries and sizes, allowing systematic studies of the underlying mechanism. Recent studies show that the topography-induced stem cells response can be a result of mechanotransduction via cellular components such as intergrins, focal adhesion and cytoskeleton organization.

傷心

Konvexit?t in der Komplexen Analysisbiological systems. In this chapter, microengineering approaches to control the cellular microenvironment and to influence embryonic stem cell (ESC) self-renewal and differentiation are introduced and specific examples of the use of microfabrication technologies for directing ESC fate decisions are discussed.

fleeting

Integration of Biomaterials into 3D Stem Cell Microenvironments,. These different methods have been applied not only for the propagation of pluri- and multipotent stem cells, but also to direct the differentiation of such stem cells into more differentiated phenotypes. This chapter discusses the unique benefits, as well as associated challenges of integrating biomaterials into 3D stem cell microenvironments.

Myocyte

Stem Cell Interaction with Topography,s, geometries and sizes, allowing systematic studies of the underlying mechanism. Recent studies show that the topography-induced stem cells response can be a result of mechanotransduction via cellular components such as intergrins, focal adhesion and cytoskeleton organization.

痛打

Microengineering Approach for Directing Embryonic Stem Cell Differentiation,biological systems. In this chapter, microengineering approaches to control the cellular microenvironment and to influence embryonic stem cell (ESC) self-renewal and differentiation are introduced and specific examples of the use of microfabrication technologies for directing ESC fate decisions are discussed.

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