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E Freed

Showing results (121-130 of 188) with videos related to

Pageof 19
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Biotechnology and Bioengineering|February 17, 2001
Effects of mixing intensity on tissue-engineered cartilageK J Gooch, J H Kwon, T Blunk, et al.
Tissue Engineering|November 3, 2009
Tissue engineering: biomedical applicationsR Langer, J P Vacanti, C A Vacanti, et al.
Tissue Engineering|December 13, 2003
Cultivation in rotating bioreactors promotes maintenance of cardiac myocyte electrophysiology and molecular propertiesNenad Bursac, Maria Papadaki, John A White, et al.
Biotechnology and Bioengineering|May 7, 2002
Effects of oxygen on engineered cardiac muscleRebecca L Carrier, Maria Rupnick, Robert Langer, et al.
Biorheology|August 10, 2004
Long-term culture of tissue engineered cartilage in a perfused chamber with mechanical stimulationJ O Seidel, M Pei, M L Gray, et al.
Experimental Cell Research|May 8, 1998
Chondrogenesis in a cell-polymer-bioreactor systemL E Freed, A P Hollander, I Martin, et al.
Cell|June 8, 2001
Emi1 is a mitotic regulator that interacts with Cdc20 and inhibits the anaphase promoting complexJ D Reimann, E Freed, J Y Hsu, et al.
Tissue Engineering|August 31, 2002
Bone morphogenetic proteins-2, -12, and -13 modulate in vitro development of engineered cartilageK J Gooch, T Blunk, D L Courter, et al.
Gravitational and Space Biology Bulletin : Publication of the American Society for Gravitational and Space Biology|September 7, 2001
Microgravity cultivation of cells and tissuesL E Freed, N Pellis, N Searby, et al.
American Journal of Physiology. Heart and Circulatory Physiology|October 11, 2003
Medium perfusion enables engineering of compact and contractile cardiac tissueMilica Radisic, Liming Yang, Jan Boublik, et al.
Pageof 19

Showing results (121-130 of 188) with videos related to

Sort By:
Pageof 19
Biotechnology and Bioengineering|February 17, 2001
Effects of mixing intensity on tissue-engineered cartilageK J Gooch, J H Kwon, T Blunk, et al.
Tissue Engineering|November 3, 2009
Tissue engineering: biomedical applicationsR Langer, J P Vacanti, C A Vacanti, et al.
Tissue Engineering|December 13, 2003
Cultivation in rotating bioreactors promotes maintenance of cardiac myocyte electrophysiology and molecular propertiesNenad Bursac, Maria Papadaki, John A White, et al.
Biotechnology and Bioengineering|May 7, 2002
Effects of oxygen on engineered cardiac muscleRebecca L Carrier, Maria Rupnick, Robert Langer, et al.
Biorheology|August 10, 2004
Long-term culture of tissue engineered cartilage in a perfused chamber with mechanical stimulationJ O Seidel, M Pei, M L Gray, et al.
Experimental Cell Research|May 8, 1998
Chondrogenesis in a cell-polymer-bioreactor systemL E Freed, A P Hollander, I Martin, et al.
Cell|June 8, 2001
Emi1 is a mitotic regulator that interacts with Cdc20 and inhibits the anaphase promoting complexJ D Reimann, E Freed, J Y Hsu, et al.
Tissue Engineering|August 31, 2002
Bone morphogenetic proteins-2, -12, and -13 modulate in vitro development of engineered cartilageK J Gooch, T Blunk, D L Courter, et al.
Gravitational and Space Biology Bulletin : Publication of the American Society for Gravitational and Space Biology|September 7, 2001
Microgravity cultivation of cells and tissuesL E Freed, N Pellis, N Searby, et al.
American Journal of Physiology. Heart and Circulatory Physiology|October 11, 2003
Medium perfusion enables engineering of compact and contractile cardiac tissueMilica Radisic, Liming Yang, Jan Boublik, et al.
Pageof 19