Teja Guda, Ph.D.
Dr. Teja Guda's current interests are focused on developing regenerative strategies for bone and skeletal muscle tissue engineering. His on-going projects focus on the employment of mechanical stimulation regimes in bioreactors to improve engraftment of bone and muscle substitutes. The compliance of substrates has a profound influence on the stem cell response and this effect is enhanced by applied mechanical loads. Studying the relative impact of these cues on directed cellular differentiation is important to develop appropriate materials for musculoskeletal interfaces, where there is a steep gradient in mechanical properties. This work is being carried out in close collaboration with Dr. Joseph Wenke’s group at the U.S. Army Institute of Surgical Research.
In support of the tissue regeneration efforts, he works on the correlation of in vivo bone and vessel morphology using micro computed tomography or alternative image bases analyses to scaffold structure and bio-mechanical properties. The spatial architecture of tissue grafts and the resulting initial mechanical properties including strength and permeability directs the efficacy of these grafts to act as suitable substrates to direct tissue regeneration. The non-destructive evaluation of these properties along the translation of the scaffold from material synthesis, through in vitro testing and in vivo evaluation provides a powerful analysis tool with built in feedback for design improvements.
Assistant Professor at The University of Texas at San Antonio
B.Tech, ME, Indian Institute of Technology, Bombay, India
Ph.D., BME, University of Texas at San Antonio / University of Texas Health Science Center at San Antonio
Post-doc, Wake Forest Institute for Regenerative Medicine