Cell-Substrate Interactions: Tuning of Collagen Scaffold Properties Modulates Embedded Endothelial Cell Regulatory Phenotype in Repair of Vascular Injuries In Vivo (Adv. Healthcare Mater. 15/2015)

Biomaterials exhibit dramatically varying behavior and efficacy in different tissue microenvironments. On p. 2220, S. Unterman, N. Artzi, and co‐workers describe how tuning material properties can enhance efficacy of implanted endothelial cells in the injured perivascular environment. The rational d...

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Veröffentlicht in:	Advanced healthcare materials 2015-10, Vol.4 (15), p.2180-2180
Hauptverfasser:	Unterman, Shimon, Freiman, Alina, Beckerman, Margarita, Abraham, Eytan, Stanley, James R. L., Levy, Ela, Artzi, Natalie, Edelman, Elazer
Format:	Artikel
Sprache:	eng
Schlagworte:	degradation endothelial cell endothelialization in vivo test scaffold
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container_title	Advanced healthcare materials
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creator	Unterman, Shimon Freiman, Alina Beckerman, Margarita Abraham, Eytan Stanley, James R. L. Levy, Ela Artzi, Natalie Edelman, Elazer
description	Biomaterials exhibit dramatically varying behavior and efficacy in different tissue microenvironments. On p. 2220, S. Unterman, N. Artzi, and co‐workers describe how tuning material properties can enhance efficacy of implanted endothelial cells in the injured perivascular environment. The rational design of materials for optimal in vivo efficacy is dependent on real‐time monitoring of tissue, material (red), and implanted cell (green) state using live animal fluorescent imaging.
doi_str_mv	10.1002/adhm.201570087
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subjects	degradation endothelial cell endothelialization in vivo test scaffold
title	Cell-Substrate Interactions: Tuning of Collagen Scaffold Properties Modulates Embedded Endothelial Cell Regulatory Phenotype in Repair of Vascular Injuries In Vivo (Adv. Healthcare Mater. 15/2015)
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