Growth of primary embryo cells in a microculture system
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Tai-Hsi Fan | M. Villa | J. Conover | S. Pope | T. Fan | Max Villa | Sara Pope | Joanne Conover
[1] L. Herzenberg,et al. Importance of culturing primary lymphocytes at physiological oxygen levels , 2007, Proceedings of the National Academy of Sciences.
[2] Hynek Wichterle,et al. Induced Pluripotent Stem Cells Generated from Patients with ALS Can Be Differentiated into Motor Neurons , 2008, Science.
[3] Hanry Yu,et al. A practical guide to microfluidic perfusion culture of adherent mammalian cells. , 2007, Lab on a chip.
[4] R. Nuzzo,et al. Microfluidic devices for culturing primary mammalian neurons at low densities. , 2007, Lab on a chip.
[5] David J Beebe,et al. Diffusion dependent cell behavior in microenvironments. , 2005, Lab on a chip.
[6] E. Fuchs,et al. Socializing with the Neighbors Stem Cells and Their Niche , 2004, Cell.
[7] Leah Edelstein-Keshet,et al. Mathematical models in biology , 2005, Classics in applied mathematics.
[8] J. Thomson,et al. Basic Fibroblast Growth Factor Support of Human Embryonic Stem Cell Self‐Renewal , 2006, Stem cells.
[9] G. Whitesides,et al. Poly(dimethylsiloxane) as a material for fabricating microfluidic devices. , 2002, Accounts of chemical research.
[10] K. Jensen,et al. Cells on chips , 2006, Nature.
[11] J. Stuart,et al. Metabolic rate does not scale with body mass in cultured mammalian cells. , 2007, American journal of physiology. Regulatory, integrative and comparative physiology.
[12] George Q. Daley,et al. Disease-Specific Induced Pluripotent Stem Cells , 2008, Cell.
[13] D. Schatz,et al. Reversal of insulin-dependent diabetes using islets generated in vitro from pancreatic stem cells , 2000, Nature Medicine.
[14] Gordon Keller,et al. Differentiation of Embryonic Stem Cells to Clinically Relevant Populations: Lessons from Embryonic Development , 2008, Cell.
[15] T. Merkel,et al. Gas sorption, diffusion, and permeation in poly(dimethylsiloxane) , 2000 .
[16] M. Bennett,et al. Metabolic gene regulation in a dynamically changing environment , 2008, Nature.
[17] Shulan Tian,et al. Induced Pluripotent Stem Cell Lines Derived from Human Somatic Cells , 2007, Science.
[18] K. Plath,et al. The many ways to make an iPS cell , 2008, Nature Biotechnology.
[19] C. Jordan. Cancer stem cell biology: from leukemia to solid tumors. , 2004, Current opinion in cell biology.
[20] Hanry Yu,et al. A novel 3D mammalian cell perfusion-culture system in microfluidic channels. , 2007, Lab on a chip.
[21] S. Quake,et al. Versatile, fully automated, microfluidic cell culture system. , 2007, Analytical chemistry.
[22] J. Voldman,et al. Microfluidic arrays for logarithmically perfused embryonic stem cell culture. , 2006, Lab on a chip.
[23] G. Whitesides. The origins and the future of microfluidics , 2006, Nature.
[24] H. Moore,et al. The regulation of self-renewal in human embryonic stem cells. , 2006, Stem cells and development.
[25] J. Thomson,et al. Embryonic stem cell lines derived from human blastocysts. , 1998, Science.
[26] Uri Dinnar,et al. A parametric study of human fibroblasts culture in a microchannel bioreactor. , 2007, Lab on a chip.
[27] M. Swartz,et al. Fibroblast alignment under interstitial fluid flow using a novel 3-D tissue culture model. , 2003, American journal of physiology. Heart and circulatory physiology.
[28] H. Green,et al. QUANTITATIVE STUDIES OF THE GROWTH OF MOUSE EMBRYO CELLS IN CULTURE AND THEIR DEVELOPMENT INTO ESTABLISHED LINES , 1963, The Journal of cell biology.
[29] S. Yamanaka,et al. Induction of pluripotent stem cells from fibroblast cultures , 2007, Nature Protocols.
[30] Joel Voldman,et al. Cell patterning chip for controlling the stem cell microenvironment. , 2007, Biomaterials.
[31] A. Folch,et al. Biology on a chip: microfabrication for studying the behavior of cultured cells. , 2003, Critical reviews in biomedical engineering.
[32] Albert Folch,et al. Long-term microfluidic cultures of myotube microarrays for high-throughput focal stimulation , 2006, Nature Protocols.
[33] L. Hayflick,et al. The serial cultivation of human diploid cell strains. , 1961, Experimental cell research.
[34] B. Thiers. Induction of Pluripotent Stem Cells from Adult Human Fibroblasts by Defined Factors , 2008 .
[35] Nobuyuki Itoh,et al. Dopaminergic neurons generated from monkey embryonic stem cells function in a Parkinson primate model. , 2005, The Journal of clinical investigation.
[36] C. Cotman,et al. A microfluidic culture platform for CNS axonal injury, regeneration and transport , 2005, Nature Methods.
[37] Sean C. Bendall,et al. IGF and FGF cooperatively establish the regulatory stem cell niche of pluripotent human cells in vitro , 2007, Nature.
[38] F M Watt,et al. Out of Eden: stem cells and their niches. , 2000, Science.
[39] G. Whitesides,et al. Soft lithography in biology and biochemistry. , 2001, Annual review of biomedical engineering.
[40] A. Gossler,et al. Use of coisogenic host blastocysts for efficient establishment of germline chimeras with C57BL/6J ES cell lines. , 2001, BioTechniques.
[41] B. Chung,et al. Human neural stem cell growth and differentiation in a gradient-generating microfluidic device. , 2005, Lab on a chip.