Controlling size, shape and homogeneity of embryoid bodies using poly(ethylene glycol) microwells

Directed differentiation of embryonic stem (ES) cells is useful for creating models of human disease and could potentially generate a wide array of functional cell types for therapeutic applications. Methods to differentiate ES cells often involve the formation of cell aggregates called embryoid bod...

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Veröffentlicht in:	Lab on a chip 2007, Vol.7 (6), p.786-794
Hauptverfasser:	Karp, Jeffrey M, Yeh, Judy, Eng, George, Fukuda, Junji, Blumling, James, Suh, Kahp-Yang, Cheng, Jianjun, Mahdavi, Alborz, Borenstein, Jeffrey, Langer, Robert, Khademhosseini, Ali
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Schlagworte:	Cell Adhesion - physiology Cell Aggregation - physiology Cell Culture Techniques Cell Differentiation - physiology Cell Survival - physiology Cells, Cultured Embryo, Mammalian - cytology Embryo, Mammalian - physiology Embryo, Mammalian - ultrastructure Embryonic Stem Cells - cytology Embryonic Stem Cells - physiology Embryonic Stem Cells - ultrastructure Female Humans Polyethylene Glycols - chemistry Pregnancy Tissue Engineering
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container_title	Lab on a chip
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creator	Karp, Jeffrey M Yeh, Judy Eng, George Fukuda, Junji Blumling, James Suh, Kahp-Yang Cheng, Jianjun Mahdavi, Alborz Borenstein, Jeffrey Langer, Robert Khademhosseini, Ali
description	Directed differentiation of embryonic stem (ES) cells is useful for creating models of human disease and could potentially generate a wide array of functional cell types for therapeutic applications. Methods to differentiate ES cells often involve the formation of cell aggregates called embryoid bodies (EBs), which recapitulate early stages of embryonic development. EBs are typically made from suspension cultures, resulting in heterogeneous structures with a wide range of sizes and shapes, which may influence differentiation. Here, we use microfabricated cell-repellant poly(ethylene glycol) (PEG) wells as templates to initiate the formation of homogenous EBs. ES cell aggregates were formed with controlled sizes and shapes defined by the geometry of the microwells. EBs generated in this manner remained viable and maintained their size and shape within the microwells relative to their suspension counterparts. Intact EBs could be easily retrieved from the microwells with high viability (>95%). These results suggest that the microwell technique could be a useful approach for in vitro studies involving ES cells and, more specifically, for initiating the differentiation of EBs of greater uniformity based on controlled microenvironments.
doi_str_mv	10.1039/b705085m
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subjects	Cell Adhesion - physiology Cell Aggregation - physiology Cell Culture Techniques Cell Differentiation - physiology Cell Survival - physiology Cells, Cultured Embryo, Mammalian - cytology Embryo, Mammalian - physiology Embryo, Mammalian - ultrastructure Embryonic Stem Cells - cytology Embryonic Stem Cells - physiology Embryonic Stem Cells - ultrastructure Female Humans Polyethylene Glycols - chemistry Pregnancy Tissue Engineering
title	Controlling size, shape and homogeneity of embryoid bodies using poly(ethylene glycol) microwells
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