Immunoengineering, Cancer, Metastasis, Immunotherapy, Drug delivery
Incorporating mechanics with cellular engineering, biochemistry, biomaterials, and immunology to 1) elucidate how physical forces regulate seemingly unrelated aspects of cancer such as metastasis and immune suppression as well as 2) develop novel immunotherapeutics to treat cancer.
Biofluid Mechanics and Atherosclerosis, Intravascular Ultrasound, Hemodynamics of the Carotid Arteries and Coronary Arteries, Effects of Fluid Dynamics on Vascular Function & Vessel Adaptation, Biofluid Dynamics of the Liver
Neuroengineering tools and robotics, ultra-high throughput genomics and molecular measurement instrumentation; 3-D microfabrication and bioMEMS technologies for neuroscience and genomics applications; and micro-lenslet arrays
Neuroengineering, ultra-high throughput genomics instrumentation; detection, separation, amplification of DNA; 3-D microfabrication technologies for genomics applications; and micro-lenslet arrays