Kit S. Lam

Professor and Chair, Department of Biochemistry and Molecular Medicine
Professor, Hematology and Oncology
Director, Kit Lamb Lab

Dr. Lam is an expert in combinatorial chemistry, chemical biology, drug development, molecular imaging, nanotherapeutics and medical oncology. His laboratory is engaged in the development and application of combinatorial library methods for basic research and drug discovery. Lam is also interested in signal transduction, antibiotics development, molecular immunology, chemical microarray, and proteomics.

Lihong Wang

Professor of Biomedical Engineering
Director, Optical Imaging Laboratory

His lab reported the first functional photoacoustic tomography, 3D photoacoustic microscopy (PAM), optical-resolution PAM, photoacoustic Doppler effect, photoacoustic reporter gene imaging, microwave-induced thermoacoustic tomography, the universal photoacoustic reconstruction algorithm, frequency-swept ultrasound-modulated optical tomography, time-reversed ultrasonically encoded (TRUE) optical focusing, sonoluminescence tomography, Mueller-matrix optical coherence tomography, and optical coherence computed tomography.

Euisik Yoon

Professor of Electrical Engineering and Computer Science and Biomedical Engineering
Principal Investigator, Yoon Lab

Yoon’s research group realizes self-contained microsystems that combine and process natural signals (such as bio, chemical, optical and thermal signals) as well as electrical signals on a single chip platform by integrating new MEMS/nano structures with low-power, wireless VLSI circuits and systems.

Changhuei Yang

Professor of Electrical Engineering, Bioengineering and Medical Engineering
Director, Biophotonics Lab

Professor Yang’s research efforts are in the areas of novel microscopy development and time-reversal based optical focusing. Prof. Yang’s group is developing a number of technologies aimed at transforming the conventional microscope into high throughput, automated and cost-effective formats. Prof. Yang’s group is working on the use of ‘time-reversal’ techniques to undo the effect of tissue light scattering.

Loren M Frank

Core Faculty, Program in Biological Sciences, UCSF Physiology Department
Director: Frank Laboratory

Frank’s research interests center around learning and spatial coding in the hippocampal-cortical circuit. Frank is interested in understanding the neural correlates of learning and memory. In particular, his laboratory focuses on the circuitry of the hippocampus and adjacent regions. His goal is to examine the relationships among neural firing patterns, behavior, and anatomy to understand how the brain uses and stores information.

John Yu-Luen Lin

Research Scientist, Tsien Lab

Lin’s current research interests include developing new molecular techniques to map activities of neurons, manipulating the strength of communication between neurons and disrupting intracellular signaling. These new techniques can be used to understand how neurons encode and store information, with potential implications for ameliorating Alzheimer’s disease, addiction, traumatic brain injury, and neurodegeneration.

Lin Tian

Assistant Professor, Department of Biochemistry and Molecular Medicine
Director, Tian Lab

The goal of Tian’s research is to invent new molecular tools for analyzing and engineering functional neural circuits. We also leverage these tools, combined with optical imaging techniques, to study molecular mechanisms of neurological disorders at system level and to empower searching for novel therapeutic treatments.

Kendall H Lee

Professor of Neurosurgery and Physiology

The research interests of Kendall H. Lee, M.D., Ph.D., are to develop deep brain stimulation (DBS) for the treatment of Parkinson’s disease, tremor, depression, obsessive-compulsive disorder and epilepsy. Dr. Lee is fascinated with the possibility of combining sophisticated electrophysiological recordings with miniaturized analytical elements (microprocessors) to augment or repair disrupted function of the brain.

Michael Roukes

Professor of Physics, Applied Physics, and Bioengineering, CalTech Division of Engineering and Applied Sciences
Director, Roukes Group

Roukes research activities are currently focused on developing advanced nanodevices, engineering them into complex systems, and using them to enable fundamental problems in neuroscience and proteomics. A continuing thread in theoretical and experimental investigations focuses on fundamental properties of nanomechanical systems.

Tim Gardner

Assistant Professor of Biology in Boston University Department of Biology
Principal Investigator, Gardner Lab

Gardner studies the mechanisms of temporal sequence perception and production, focusing on vocal learning in songbirds.The song circuit produces stereotyped structure over a range of time-scales from milliseconds to tens of seconds. He also develops minimally invasive electrodes that provide stable neural recordings in behaving animals.

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