Affiliation: Stanford University
- Response of cartilage and meniscus tissue explants to in vitro compressive overloadJ F Nishimuta
Department of Mechanical Engineering, Stanford University, Stanford, CA 94305 4038, USA
Osteoarthritis Cartilage 20:422-9. 2012..To examine the relative susceptibility of cartilage and meniscus tissues to mechanical injury by applying a single, controlled overload and observing cellular, biochemical, and mechanical changes...
- Aggrecanolysis and in vitro matrix degradation in the immature bovine meniscus: mechanisms and functional implicationsChristopher G Wilson
Wallace H Coulter Department of Biomedical Engineering, 313 Ferst Drive, Georgia Institute of Technology, Atlanta, GA 30332, USA
Arthritis Res Ther 11:R173. 2009....
- Mechanical Stimulation for TMJ Disc Tissue EngineeringMARC LEVENSTON; Fiscal Year: 2003..abstract_text> ..
- Spatiotemporal Progression of Meniscal DegradationMarc E Levenston; Fiscal Year: 2010..These studies will provide important new insights into the progression of meniscal degeneration and could lead to novel diagnostic or therapeutic targets to prevent or delay the progression of OA. ..
- Analysis of Cartilage Morphology and sGAG Content via Contrast Enhanced Micro-CTRobert Guldberg; Fiscal Year: 2007....
- Tensile Stimulation of Tissue Engineered FibrocartilageMARC LEVENSTON; Fiscal Year: 2004..abstract_text> ..
- Modulation of MSC Differentiation for Fibrocartilage Tissue EngineeringMarc E Levenston; Fiscal Year: 2010..This will aid in the development of functional tissue engineered replacements and may aid in understanding why particular approaches to cartilage repair succeed or fail. ..