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Showing results (31-40 of 65) with videos related to

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Tissue Engineering|June 29, 2001
Mechanisms of enhanced osteoblast adhesion on nanophase alumina involve vitronectinT J Webster, L S Schadler, R W Siegel, et al.
Medical & Biological Engineering & Computing|April 13, 1999
Three-dimensional changes of the cytoskeleton of vascular endothelial cells exposed to sustained hydrostatic pressureS A Salwen, D H Szarowski, J N Turner, et al.
Circulation Research|February 19, 1999
Exposure of human vascular endothelial cells to sustained hydrostatic pressure stimulates proliferation. Involvement of the alphaV integrinsE A Schwartz, R Bizios, M S Medow, et al.
Biomaterials|January 1, 1992
Osteoblasts on hydroxyapatite, alumina and bone surfaces in vitro: morphology during the first 2 h of attachmentM A Malik, D A Puleo, R Bizios, et al.
Biomaterials|January 1, 1993
Examination of osteoblast-orthopaedic biomaterial interactions using molecular techniquesD A Puleo, K E Preston, J B Shaffer, et al.
The American Journal of Physiology|January 1, 1997
Analysis and modeling of the primary cilium bending response to fluid shearE A Schwartz, M L Leonard, R Bizios, et al.
Journal of Cellular Physiology|December 1, 1993
Morphological and proliferative responses of endothelial cells to hydrostatic pressure: role of fibroblast growth factorA D Acevedo, S S Bowser, M E Gerritsen, et al.
Biomaterials|January 1, 1996
Conditions which promote mineralization at the bone-implant interface: a model in vitro studyK C Dee, D C Rueger, T T Andersen, et al.
Journal of Biomedical Materials Research|June 1, 1991
Osteoblast responses to orthopedic implant materials in vitroD A Puleo, L A Holleran, R H Doremus, et al.
Journal of Biomedical Materials Research|December 1, 1994
Osteoblast function on synthetic biodegradable polymersS L Ishaug, M J Yaszemski, R Bizios, et al.
Pageof 7

Showing results (31-40 of 65) with videos related to

Sort By:
Pageof 7
Tissue Engineering|June 29, 2001
Mechanisms of enhanced osteoblast adhesion on nanophase alumina involve vitronectinT J Webster, L S Schadler, R W Siegel, et al.
Medical & Biological Engineering & Computing|April 13, 1999
Three-dimensional changes of the cytoskeleton of vascular endothelial cells exposed to sustained hydrostatic pressureS A Salwen, D H Szarowski, J N Turner, et al.
Circulation Research|February 19, 1999
Exposure of human vascular endothelial cells to sustained hydrostatic pressure stimulates proliferation. Involvement of the alphaV integrinsE A Schwartz, R Bizios, M S Medow, et al.
Biomaterials|January 1, 1992
Osteoblasts on hydroxyapatite, alumina and bone surfaces in vitro: morphology during the first 2 h of attachmentM A Malik, D A Puleo, R Bizios, et al.
Biomaterials|January 1, 1993
Examination of osteoblast-orthopaedic biomaterial interactions using molecular techniquesD A Puleo, K E Preston, J B Shaffer, et al.
The American Journal of Physiology|January 1, 1997
Analysis and modeling of the primary cilium bending response to fluid shearE A Schwartz, M L Leonard, R Bizios, et al.
Journal of Cellular Physiology|December 1, 1993
Morphological and proliferative responses of endothelial cells to hydrostatic pressure: role of fibroblast growth factorA D Acevedo, S S Bowser, M E Gerritsen, et al.
Biomaterials|January 1, 1996
Conditions which promote mineralization at the bone-implant interface: a model in vitro studyK C Dee, D C Rueger, T T Andersen, et al.
Journal of Biomedical Materials Research|June 1, 1991
Osteoblast responses to orthopedic implant materials in vitroD A Puleo, L A Holleran, R H Doremus, et al.
Journal of Biomedical Materials Research|December 1, 1994
Osteoblast function on synthetic biodegradable polymersS L Ishaug, M J Yaszemski, R Bizios, et al.
Pageof 7