Theses most similar to Time-dependent mechanical behavior of newly developing matrix of bovine primary chondrocytes and bone marrow stromal cells using Atomic Force Microscopy (Lee, BoBae; 2009) read it
Probing nanomechanics of aggrecan and the aggrecan-rich pericellular matrix of chondrocytes in cartilage
Ng, Laurel Jean (2005)
- Advisors: Christine Ortiz; Grodzinsky, Alan Jay
- Biological Engineering Division
- Advisor: Grodzinsky, Alan Jay
- Department of Electrical Engineering and Computer Science
Matrix metalloproteinase activity and inhibition in articular cartilage : effects on composition and biophysical properties and relevance to osteoarthritis
Bonassar, Lawrence J. (Lawrence Justin) (1995)
- Advisor: Grodzinsky, Alan Jay
- Department of Materials Science and Engineering
Chondrocyte gene expression and intracellular signaling pathways in cartilage mechanotransduction
Fitzgerald, Jonathan Basil (2005)
- Advisor: Grodzinsky, Alan Jay
- Biological Engineering Division
- Advisors: Christine Ortiz; Grodzinsky, Alan Jay
- Department of Materials Science and Engineering
Investigation of long-term cyclic loading effects on initially intact cartilage
Wu, Bruce Y. C., 1980- (2007)
- Advisors: Martha L. Gray; Socrate, Simona
- Department of Materials Science and Engineering
Ultrastructure and nanomechanical properties of aggrecan from native cartilage and engineered tissue
Lee, Hsu-Yi (2010)
- Advisors: Christine Ortiz; Grodzinsky, Alan Jay
- Department of Electrical Engineering and Computer Science
Self-assembling peptide hydrogels promote in vitro chondrogenesis of bone marrow-derived stromal cells : effects of peptide sequence, cell donor age, and method of growth factor delivery
Kopesky, Paul Wayne (2009)
- Advisor: Grodzinsky, Alan Jay
- Department of Biological Engineering
In vitro models of cartilage degradation following joint injury : mechanical overload, inflammatory cytokines and therapeutic approaches
Lu, Yihong C. S (2010)
- Advisor: Grodzinsky, Alan Jay
- Department of Biological Engineering
- Advisors: Christine Ortiz; Grodzinsky, Alan Jay
- Department of Mechanical Engineering