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Cellular Mechanics, BioMEMs/microfabrication/microfluidics, hematology (platelet and leukocyte biology, sickle cell disease, thrombosis), Endothelial cell biology, Cancer, Pediatric Medical Devices and Diagnostics
Bioengineering; Biomechanics of single cells and single molecules, cell adhesion kinetics, and bio-MEMS
Host responses to combination products, Biomaterial interactions with dendritic cells, Tissue engineering for rheumatoid arthritis, Targeted DNA vaccine delivery, Biomaterial-applied immunology
Traumatic brain and spinal cord injury, Neural tissue engineering, Injury biomechanics, Neural interfacing, and Cognitive impairment associated with brain injury and aging.
Biomechanics and neural control of movement, Movement disorders, Rehabilitation, Musculoskeletal modeling, Computational neuroscience, Neuromechanical simulation of movement, Biorobotics
Development and applicaton of new machine learning and pattern recognition methods in bioinformatics and biological systems.
Mechanobiology and cardiovascular diseases, atherosclerosis and aortic valve disease, Role of shear stress in vascular inflammation and neovascularization, In vivo siRNA delivery
My research area is biomechanics and mechanobiology, with focus on:
Georgia Institute of TechnologyNorth Avenue, Atlanta, GA 30332Phone: 404-894-2000