1. The in vitro preconditioning of myoblasts to enhance subsequent survival in an in vivo tissue engineering chamber model
- Author
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Yi-Wen Gerrand, Wayne A. Morrison, Gregory J. Dusting, E. Michele Davies, Xiao Lian Han, Caroline J. Taylor, Geraldine M. Mitchell, Effie Keramidaris, Jason A. Palmer, Anthony J. Penington, Christina Anne Mitchell, Aaron M. Dingle, and Daniel J. Tilkorn
- Subjects
Cell Survival ,MAP Kinase Signaling System ,Biophysics ,Cell Count ,Bioengineering ,Mice, SCID ,Biology ,Models, Biological ,Cell Line ,Desmin ,Nitric oxide ,Myoblasts ,Prosthesis Implantation ,Biomaterials ,Andrology ,Mice ,chemistry.chemical_compound ,Tissue engineering ,In vivo ,Animals ,Myocyte ,Extracellular Signal-Regulated MAP Kinases ,Protein kinase B ,Cell Size ,Tissue Engineering ,Tissue Scaffolds ,Cell Hypoxia ,Rats ,Platelet Endothelial Cell Adhesion Molecule-1 ,Transplantation ,chemistry ,Mechanics of Materials ,Apoptosis ,Cell culture ,Immunology ,Ceramics and Composites ,Blood Vessels ,Proto-Oncogene Proteins c-akt ,Nitroso Compounds - Abstract
The effects of in vitro preconditioning protocols on the ultimate survival of myoblasts implanted in an in vivo tissue engineering chamber were examined. In vitro testing: L6 myoblasts were preconditioned by heat (42 °C; 1.5 h); hypoxia (
- Published
- 2012
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