Effects of hypoxic culture conditions on umbilical cord-derived human mesenchymal stem cells
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[1] F. Stahl,et al. Growth and Differentiation Properties of Mesenchymal Stromal Cell Populations Derived from Whole Human Umbilical Cord , 2011, Stem Cell Reviews and Reports.
[2] Wolfgang Wagner,et al. Different facets of aging in human mesenchymal stem cells. , 2010, Tissue engineering. Part B, Reviews.
[3] Eric Farrell,et al. The role of hypoxia in bone marrow-derived mesenchymal stem cells: considerations for regenerative medicine approaches. , 2010, Tissue engineering. Part B, Reviews.
[4] H. Yoshikawa,et al. Hypoxia responsive mesenchymal stem cells derived from human umbilical cord blood are effective for bone repair. , 2010, Stem cells and development.
[5] Pernilla Eliasson,et al. The hematopoietic stem cell niche: Low in oxygen but a nice place to be , 2010, Journal of cellular physiology.
[6] Cláudia Lobato da Silva,et al. Ex vivo expansion of human mesenchymal stem cells: A more effective cell proliferation kinetics and metabolism under hypoxia , 2009, Journal of cellular physiology.
[7] R. Hass. Rejuvenation in distinct cell populations – What does it mean? , 2009, Experimental Gerontology.
[8] R. Hass. Retrodifferentiation – a mechanism for cellular regeneration? , 2009, Biological chemistry.
[9] Zoran Ivanovic,et al. Hypoxia or in situ normoxia: The stem cell paradigm , 2009, Journal of cellular physiology.
[10] C A van Blitterswijk,et al. Quantifying in vitro growth and metabolism kinetics of human mesenchymal stem cells using a mathematical model. , 2009, Tissue engineering. Part A.
[11] I. Majore,et al. Identification of subpopulations in mesenchymal stem cell-like cultures from human umbilical cord , 2009, Cell Communication and Signaling.
[12] Joost D de Bruijn,et al. Growth, metabolism, and growth inhibitors of mesenchymal stem cells. , 2009, Tissue engineering. Part A.
[13] C. Fong,et al. Taking stem cells to the clinic: Major challenges , 2008, Journal of cellular biochemistry.
[14] D. Link,et al. Hypoxic Preconditioning Results in Increased Motility and Improved Therapeutic Potential of Human Mesenchymal Stem Cells , 2008, Stem cells.
[15] Ralf Hass,et al. Cellular responses to reactive oxygen species-induced DNA damage and aging , 2008, Biological chemistry.
[16] 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.
[17] A. Giordano,et al. From the laboratory bench to the patient's bedside: An update on clinical trials with mesenchymal stem cells , 2007, Journal of cellular physiology.
[18] K. Olbrich,et al. Effects of glutamine, glucose, and oxygen concentration on the metabolism and proliferation of rabbit adipose-derived stem cells. , 2006, Tissue engineering.
[19] Volker Ribitsch,et al. Continuous oxygen monitoring in subcutaneous adipose tissue using microdialysis. , 2006, Analytica chimica acta.
[20] Feng Zhao,et al. Effects of hypoxia on human mesenchymal stem cell expansion and plasticity in 3D constructs , 2006, Journal of cellular physiology.
[21] Hermann Eichler,et al. Comparative Analysis of Mesenchymal Stem Cells from Bone Marrow, Umbilical Cord Blood, or Adipose Tissue , 2006, Stem cells.
[22] N. Denko,et al. HIF-1 mediates adaptation to hypoxia by actively downregulating mitochondrial oxygen consumption. , 2006, Cell metabolism.
[23] O. Ringdén,et al. Mesenchymal Stem Cells Inhibit and Stimulate Mixed Lymphocyte Cultures and Mitogenic Responses Independently of the Major Histocompatibility Complex , 2003, Scandinavian journal of immunology.
[24] Min Zhu,et al. Human adipose tissue is a source of multipotent stem cells. , 2002, Molecular biology of the cell.
[25] W M Miller,et al. Modeling pO(2) distributions in the bone marrow hematopoietic compartment. I. Krogh's model. , 2001, Biophysical journal.
[26] W M Miller,et al. Modeling pO(2) distributions in the bone marrow hematopoietic compartment. II. Modified Kroghian models. , 2001, Biophysical journal.
[27] Oliver Kohls,et al. Setup of a fiber optical oxygen multisensor-system and its applications in biotechnology , 2000 .
[28] S. Jackson,et al. The effects of endotoxin on oxygen consumption of various cell types in vitro: an EPR oximetry study. , 1995, Free radical biology & medicine.
[29] B Fischer,et al. Oxygen tension in the oviduct and uterus of rhesus monkeys, hamsters and rabbits. , 1993, Journal of reproduction and fertility.
[30] W M Miller,et al. Effects of dissolved oxygen concentration on hybridoma growth and metabolism in continuous culture , 1987, Journal of cellular physiology.
[31] G. Vunjak‐Novakovic,et al. Hypoxia and stem cell‐based engineering of mesenchymal tissues , 2009, Biotechnology progress.
[32] J. Ward,et al. Oxygen sensors in context. , 2008, Biochimica et biophysica acta.
[33] K. Asadullah,et al. Cell Communication and Signaling BioMed Central Methodology , 2008 .
[34] A. Biswas,et al. Comparative growth behaviour and characterization of stem cells from human Wharton's jelly. , 2007, Reproductive biomedicine online.
[35] Guido Kroemer,et al. Cell death by necrosis: towards a molecular definition. , 2007, Trends in biochemical sciences.
[36] P. Rameshwar,et al. Oxygen saturation in the bone marrow of healthy volunteers. , 2002, Blood.
[37] B. Halliwell,et al. Damage to DNA by reactive oxygen and nitrogen species: role in inflammatory disease and progression to cancer. , 1996, The Biochemical journal.