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A L Sieminski

Showing results (1-10 of 9) with videos related to

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Biomaterials|October 12, 2000
Biomaterial-microvasculature interactionsA L Sieminski, K J Gooch
Experimental Cell Research|June 24, 2004
The relative magnitudes of endothelial force generation and matrix stiffness modulate capillary morphogenesis in vitroA L Sieminski, R P Hebbel, K J Gooch
Tissue Engineering|November 2, 2005
Improved microvascular network in vitro by human blood outgrowth endothelial cells relative to vessel-derived endothelial cellsA L Sieminski, R P Hebbel, K J Gooch
Journal of Biomedical Materials Research. Part A|January 11, 2008
Primary sequence of ionic self-assembling peptide gels affects endothelial cell adhesion and capillary morphogenesisA L Sieminski, C E Semino, H Gong, et al.
Tissue Engineering|January 25, 2003
Systemic delivery of human growth hormone using genetically modified tissue-engineered microvascular networks: prolonged delivery and endothelial survival with inclusion of nonendothelial cellsA L Sieminski, R F Padera, T Blunk, et al.
Cell Biochemistry and Biophysics|October 2, 2007
The stiffness of three-dimensional ionic self-assembling peptide gels affects the extent of capillary-like network formationA L Sieminski, A S Was, G Kim, 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.
Biochemical and Biophysical Research Communications|August 31, 2001
IGF-I and mechanical environment interact to modulate engineered cartilage developmentK J Gooch, T Blunk, D L Courter, et al.
Growth Factors (Chur, Switzerland)|November 25, 2003
Bone morphogenetic protein 9: a potent modulator of cartilage development in vitroT Blunk, A L Sieminski, B Appel, et al.
Pageof 1

Showing results (1-10 of 9) with videos related to

Sort By:
Pageof 1
Biomaterials|October 12, 2000
Biomaterial-microvasculature interactionsA L Sieminski, K J Gooch
Experimental Cell Research|June 24, 2004
The relative magnitudes of endothelial force generation and matrix stiffness modulate capillary morphogenesis in vitroA L Sieminski, R P Hebbel, K J Gooch
Tissue Engineering|November 2, 2005
Improved microvascular network in vitro by human blood outgrowth endothelial cells relative to vessel-derived endothelial cellsA L Sieminski, R P Hebbel, K J Gooch
Journal of Biomedical Materials Research. Part A|January 11, 2008
Primary sequence of ionic self-assembling peptide gels affects endothelial cell adhesion and capillary morphogenesisA L Sieminski, C E Semino, H Gong, et al.
Tissue Engineering|January 25, 2003
Systemic delivery of human growth hormone using genetically modified tissue-engineered microvascular networks: prolonged delivery and endothelial survival with inclusion of nonendothelial cellsA L Sieminski, R F Padera, T Blunk, et al.
Cell Biochemistry and Biophysics|October 2, 2007
The stiffness of three-dimensional ionic self-assembling peptide gels affects the extent of capillary-like network formationA L Sieminski, A S Was, G Kim, 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.
Biochemical and Biophysical Research Communications|August 31, 2001
IGF-I and mechanical environment interact to modulate engineered cartilage developmentK J Gooch, T Blunk, D L Courter, et al.
Growth Factors (Chur, Switzerland)|November 25, 2003
Bone morphogenetic protein 9: a potent modulator of cartilage development in vitroT Blunk, A L Sieminski, B Appel, et al.
Pageof 1