The micro-environment in which stem cells reside regulates their fate, and synthetic materials have recently been designed to emulate these regulatory processes for various medical applications. Ligands inspired by the natural extracellular matrix, cell–cell contacts, and growth factors have been incorporated into synthetic materials with precisely engineered density and presentation. Furthermore, material architecture and mechanical properties are material design parameters that provide a context for receptor–ligand interactions and thereby contribute to fate determination of uncommitted stem cells. Although significant progress has been made in biomaterials development for cellular control, the design of more sophisticated and robust synthetic materials can address future challenges in achieving spatiotemporal control of cellular phenotype and in implementing histocompatible clinical therapies.
Описание
Designing synthetic materials to control stem cell phenotype
%0 Journal Article
%1 saha2007designing
%A Saha, Krishanu
%A Pollock, Jacob F
%A Schaffer, David V
%A Healy, Kevin E
%D 2007
%J Current Opinion in Chemical Biology
%K biomaterial biophyscues differentiation ecm phd review stemcell
%N 4
%P 381--387
%R http://dx.doi.org/10.1016/j.cbpa.2007.05.030
%T Designing synthetic materials to control stem cell phenotype
%U http://www.sciencedirect.com/science/article/pii/S1367593107000749
%V 11
%X The micro-environment in which stem cells reside regulates their fate, and synthetic materials have recently been designed to emulate these regulatory processes for various medical applications. Ligands inspired by the natural extracellular matrix, cell–cell contacts, and growth factors have been incorporated into synthetic materials with precisely engineered density and presentation. Furthermore, material architecture and mechanical properties are material design parameters that provide a context for receptor–ligand interactions and thereby contribute to fate determination of uncommitted stem cells. Although significant progress has been made in biomaterials development for cellular control, the design of more sophisticated and robust synthetic materials can address future challenges in achieving spatiotemporal control of cellular phenotype and in implementing histocompatible clinical therapies.
@article{saha2007designing,
abstract = {The micro-environment in which stem cells reside regulates their fate, and synthetic materials have recently been designed to emulate these regulatory processes for various medical applications. Ligands inspired by the natural extracellular matrix, cell–cell contacts, and growth factors have been incorporated into synthetic materials with precisely engineered density and presentation. Furthermore, material architecture and mechanical properties are material design parameters that provide a context for receptor–ligand interactions and thereby contribute to fate determination of uncommitted stem cells. Although significant progress has been made in biomaterials development for cellular control, the design of more sophisticated and robust synthetic materials can address future challenges in achieving spatiotemporal control of cellular phenotype and in implementing histocompatible clinical therapies. },
added-at = {2015-03-09T12:53:12.000+0100},
author = {Saha, Krishanu and Pollock, Jacob F and Schaffer, David V and Healy, Kevin E},
biburl = {https://www.bibsonomy.org/bibtex/27fb8c0ae5d91e7f6cb260fe04862df94/bkoch},
description = {Designing synthetic materials to control stem cell phenotype},
doi = {http://dx.doi.org/10.1016/j.cbpa.2007.05.030},
interhash = {9a5946fc4efe501c1f25b42057dc413d},
intrahash = {7fb8c0ae5d91e7f6cb260fe04862df94},
issn = {1367-5931},
journal = {Current Opinion in Chemical Biology },
keywords = {biomaterial biophyscues differentiation ecm phd review stemcell},
note = {Next-generation therapeutics },
number = 4,
pages = {381--387},
timestamp = {2015-03-09T12:53:12.000+0100},
title = {Designing synthetic materials to control stem cell phenotype },
url = {http://www.sciencedirect.com/science/article/pii/S1367593107000749},
volume = 11,
year = 2007
}