Search

Our mission is to better unravel the causes and mechanisms underlying tremor disorders as well as understand the clinical features of these disorders.

Our reasearch aims to...

Dr. Prinz's research is focused on the tiny organelles within cells that do the cell’s work, much like the organs in a human body. He is best known for studies into the exchange of fats (also called lipids) between organelles at so-called membrane contact sites where organelles come in close contact within a cell. 

Kong lab aims to harness the cutting-edge technologies in human genetics and genomics, immunology, and molecular biology to better understand the pathogenesis of gastrointestinal inflammation.

The Saha Lab.

The Monson Lab is dedicated to understanding how B cells and T cells impact pathology of disease in the central nervous system.

Meet the Zhang Lab team

The Liu Lab is Interested in developing and evaluating novel therapies, notably targeting tumor vasculatures.

Kim (Jaehyup) lab studies the mechanism of immune regulatory receptor regulation with a special focus on ligand identification and modulation.

Zaman’s Lab focuses on the design and development of novel cutting-edge multi-mode imaging systems to overcome current limitations in clinical systems. Most recent research project is involved with the design and developed of a multimode catheter-based imaging system called a Circumferential Intravascular Radioluminescence Photoacoustic Imaging (CIRPI) for early detection of thin-cap-fibro-atheroma (TCFA), the underlying causes of coronary artery disease, one of the leading causes of morbidity and mortality in the USA and worldwide. Further, the CIRPI system characterizes the plaques based on disease tissue compositions to unravel their complex structures. This CIRPI system integrates optical, photoacoustic, radioluminescence and ultrasound imaging. We seek to better understand the underlying causes of the disease mechanisms. We are dissecting the role of TCFA perturbations on vascular wall processes during atherosclerosis progression. Our lab also studying novel molecular imaging methods to study corona…