Preparation of Electro Conductive-piezoelectric Nanocomposite for Cartilage Tissue Engineering, M.Sc. Thesis Sharif University of Technology ; Ramazani, Ahmad (Supervisor) ; Nasrollahzadeh, Naser (Co-Supervisor)
Abstract
Articular cartilage resides in a complex and dynamic mechanical and biophysical environment in vivo. Chondrocyte physiology and biosynthetic activity is influenced by these signals, allowing them to modulate the structural organization and function of tissue at all stages, including development, growth and repair. . In articular cartilage, during physical activity and mechanical loading, electric signal have been observed in form of stress-generated electric potential following the movement of the positive mobile ions (in interstitial fluid) away from the fixed negative charges.Despite increasing evidence that mechanical and electrical stimuli have positive effects on chondrogenesis, to...
Cataloging briefPreparation of Electro Conductive-piezoelectric Nanocomposite for Cartilage Tissue Engineering, M.Sc. Thesis Sharif University of Technology ; Ramazani, Ahmad (Supervisor) ; Nasrollahzadeh, Naser (Co-Supervisor)
Abstract
Articular cartilage resides in a complex and dynamic mechanical and biophysical environment in vivo. Chondrocyte physiology and biosynthetic activity is influenced by these signals, allowing them to modulate the structural organization and function of tissue at all stages, including development, growth and repair. . In articular cartilage, during physical activity and mechanical loading, electric signal have been observed in form of stress-generated electric potential following the movement of the positive mobile ions (in interstitial fluid) away from the fixed negative charges.Despite increasing evidence that mechanical and electrical stimuli have positive effects on chondrogenesis, to...
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