Wu Tsai Neurosciences Institute
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Achintya K. Bhowmik, PhD
Adjunct Professor, OHNS/Otology & Neurotology Division
BioDr. Achin Bhowmik serves on the faculty of Stanford University as an adjunct professor at the Stanford School of Medicine, where he advises research and lectures in the areas of sensory augmentation, computational perception, cognitive neuroscience, and intelligent systems. He is also an affiliate faculty member of the Stanford Institute for Human-Centered Artificial Intelligence, Wu Tsai Neurosciences Institute and Human Performance Alliance, and a mentor for the Stanford Institutes of Medicine Summer Research Program.
He is the chief technology officer and executive vice president of engineering at Starkey Hearing Technologies, a privately-held medical devices company with over 5,000 employees and operations in over 100 countries worldwide. In this role, he is responsible for the company’s technology strategy, research and development, engineering and program management departments, and leading the drive to transform hearing aids into multifunction wearable health and communication devices with advanced sensors and artificial intelligence.
Previously, Dr. Bhowmik was the vice president and general manager of the Perceptual Computing Group at Intel Corporation, where he was responsible for the R&D, engineering, operations, and businesses in the areas of 3D sensing and interactive computing, computer vision and artificial intelligence, autonomous robots and drones, and immersive virtual and merged reality devices.
Dr. Bhowmik is a member of the Forbes Technology Council, board of trustees for the National Captioning Institute, board of directors for OpenCV, board of advisors for the Fung Institute for Engineering Leadership at the University of California, Berkeley, and industry advisory board for the Institute for Engineering in Medicine and Biomedical Engineering at the University of Minnesota. He is also on the board of directors and advisors for several technology startup companies.
He has also held adjunct and guest professor positions at the University of California, Berkeley, Liquid Crystal Institute of the Kent State University, Kyung Hee University, Seoul, and the Indian Institute of Technology, Gandhinagar. He received his Bachelor of Technology from the Indian Institute of Technology, Kanpur, PhD from Auburn University, and attended the Executive Program at Stanford University. He has authored over 200 publications, including two books and over 80 granted patents.
His awards and honors include Fellow of the Institute of Electrical and Electronics Engineers (IEEE), Fellow of the Asia-Pacific Artificial Intelligence Association (AAIA), President and Fellow of the Society for Information Display (SID), Top 25 Healthcare Technology CTOs by the Healthcare Technology Report, Notable Leaders in Healthcare by Twin Cities Business, Healthcare Heroes award from the Business Journals, Industrial Distinguished Leader award from the Asia-Pacific Signal and Information Processing Association, IEEE Distinguished Industry Speaker, TIME’s Best Inventions, Red Dot Design award, MUSE Design award, and the Artificial Intelligence Excellence award.
Dr. Bhowmik and his work have been covered in numerous press articles, including TIME, Fortune, Wired, USA Today, US News & World Reports, Wall Street Journal, CBS News, BBC, Forbes, Bloomberg Businessweek, Scientific American, Popular Mechanics, MIT Technology Review, EE Times, The Verge, etc. -
Jill Saylin Wentzell
Executive Director, Wu Tsai Neurosciences Institute
Current Role at StanfordAssociate Director for Programs at the Wu Tsai Neurosciences Institute
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J. Bradley Zuchero
Assistant Professor of Neurosurgery
Current Research and Scholarly InterestsGlia are a frontier of neuroscience, and overwhelming evidence from the last decade shows that they are essential regulators of all aspects of the nervous system. The Zuchero Lab aims to uncover how glial cells regulate neural development and how their dysfunction contributes to diseases like multiple sclerosis (MS) and in injuries like stroke.
Although glia represent more than half of the cells in the human brain, fundamental questions remain to be answered. How do glia develop their highly specialized morphologies and interact with neurons to powerfully control form and function of the nervous system? How is this disrupted in neurodegenerative diseases and after injury? By bringing cutting-edge cell biology techniques to the study of glia, we aim to uncover how glia help sculpt and regulate the nervous system and test their potential as novel, untapped therapeutic targets for disease and injury.
We are particularly interested in myelin, the insulating sheath around neuronal axons that is lost in diseases like MS. How do oligodendrocytes- the glial cell that produces myelin in the central nervous system- form and remodel myelin, and why do they fail to regenerate myelin in disease? Our current projects aim to use cell biology and neuroscience approaches to answer these fundamental questions. Ultimately we hope our work will lead to much-needed therapies to promote remyelination in patients.
