Engineering tissue from human embryonic stem cells

doi:10.1111/j.1582-4934.2008.00228.x

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Wiley InterScience

Journal of Cellular and Molecular Medicine

Volume 12 Issue 3, Pages 709 - 729

Published Online: 11 Jan 2008

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Tissue Engineering Review Series

Guest Editor: R.E. Horch

Engineering tissue from human embryonic stem cells

C.M. Metallo ^a , S.M. Azarin ^a,b , L. Ji ^a,b , J.J. de Pablo ^a , S.P. Palecek ^a,b,*

^a Department of Chemical and Biological Engineering, University of Wisconsin-Madison, Madison, WI, USA ^b WiCell Research Institute, Madison, WI, USA

*Correspondence to: Sean P. PALECEK,
1415 Engineering Drive,
Madison, WI 53706, USA.
Tel.: +608-262-8931
Fax: +608-262-5434
E-mail: palecek@engr.wisc.edu

KEYWORDS

tissue engineering • cell culture • human embryonic stem cells • differentiation • ectoderm • mesoderm • endoderm

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Stem cell tissue engineering
- –
  Potential cell sources
- –
  Incorporation of hESCs
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Undifferentiated hESC culture engineering
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Ectodermal tissues
- –
  Skin
- –
  Cornea
- –
  Neural lineages
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Mesodermal tissues
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  Heart
- –
  Bone and cartilage
- –
  Circulatory system
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Endodermal tissues
- –
  Pancreas
- –
  Liver
•
Future challenges

ABSTRACT

Recent advances in human embryonic stem cell (hESC) biology now offer an alternative cell source for tissue engineers, as these cells are capable of proliferating indefinitely and differentiating to many clinically relevant cell types. Novel culture methods capable of exerting spatial and temporal control over the stem cell microenvironment allow for more efficient expansion of hESCs, and significant advances have been made toward improving our understanding of the biophysical and biochemical cues that direct stem cell fate choices. Effective production of lineage specific progenitors or terminally differentiated cells enables researchers to incorporate hESC derivatives into engineered tissue constructs. Here, we describe current efforts using hESCs as a cell source for tissue engineering applications, highlighting potential advantages of hESCs over current practices as well as challenges which must be overcome.

Received: Marcht 20, 2007; Accepted: December 21, 2007

DIGITAL OBJECT IDENTIFIER (DOI)

10.1111/j.1582-4934.2008.00228.x About DOI