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

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Studies in Mechanobiology, Tissue Engineering and Biomaterialshttp://image.papertrans.cn/b/image/187882.jpg

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https://doi.org/10.1007/978-3-642-13893-5Biomaterials; Cell Differentiation; Cell Signaling; Regenerative Medicine; Scaffolds; Stem Cells; Tissue E

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,Konversationen über Literatur,parable damage to native tissue. However, mimicking the complexity of the in vivo milieu has proved to be a serious challenge for current biomaterials. For example, one common strategy involves incorporating a short known biologically active motifs into the biomaterial to encourage cellular attachme

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https://doi.org/10.1007/978-3-322-96894-4oenvironment, consisting of soluble bioactive agents and the extracellular matrix.While the dynamic extracellular matrix is difficult to mimic in its entirety, recent research has successfully mimicked individual matrix-centric cues using synthetic polymeric systems to influence differentiation of s

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,Fixpunktsätze und Anwendungen,ethods for the preparation of nanofibrous matrices, including electrospinning, solution phase separation and self-assembly are reviewed and contrasted. Their effect on stem cell adhesion, survival, migration, proliferation and differentiation are discussed. In particular the applications of these na

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Konvexität in der Komplexen Analysisscale can be used to control the cellular microenvironment to direct stem cell behavior. For stem cells, this control greatly improves our ability to study cell–microenvironment interactions in a rapid and precise manner to regulate stem cell behaviors such as differentiation and proliferation. Comb