Stanford University
Showing 51-60 of 203 Results
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Andrey Finegersh, MD, PhD
Assistant Professor of Otolaryngology - Head & Neck Surgery (OHNS)
BioDr. Finegersh is a fellowship-trained head and neck surgical oncologist with board certification in otolaryngology and an Assistant Professor with the Stanford School of Medicine Department of Otolaryngology.
He specializes in treatment of benign and malignant tumors of the head and neck and has received additional training in microvascular reconstruction and transoral robotic surgery. He takes tremendous pride in providing compassionate care for patients and managing challenging diagnoses.
Dr. Finegersh completed his MD and PhD degrees at the University of Pittsburgh School of Medicine's combined Medical Scientist Training Program. He went on to complete residency in otolaryngology at the University of California San Diego (UCSD) and his fellowship at Stanford University, where he stayed on as faculty.
He has extensive research experience in head and neck cancer epigenetics and completed post-doctoral research at the University of Pittsburgh and UCSD. He has received grants from the NIH and American Academy of Otolaryngology and has an active research lab studying molecular mechanisms of cancer. Dr. Finegersh has additional clinical interests in studying the role of minimally invasive surgery to improve outcomes for head and neck cancer patients. -
Matthew Fitzgerald, PhD
Associate Professor of Otolaryngology - Head & Neck Surgery (OHNS)
Current Research and Scholarly InterestsMy research encompasses several translational projects. One focus is to modify the routine audiologic test battery such that it places equal weight on hearing acuity and hearing function. This work includes measures of speech in noise, or electrophysiologic responses such as the FFR. I also explore tools to better assess and maximize performance in users of hearing aids and cochlear implants. Finally, I am also investigating the benefits of telemedicine, and new treatments for tinnitus.
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Olya Gary
Web Designer 3, OHNS/Otolaryngology/Head & Neck Surgery
Current Role at StanfordAs a senior web designer at Otolaryngology — Head & Neck Surgery Department and a member of the OHNS web team, I support the entire department web presence: http://med.stanford.edu/ohns.html.
I oversee a large number of projects related to the main OHNS site, research lab Wordpress sites, work on the website updates, and create visuals and photographs highlighting the department teams and places. I work with a large number of the department team members - from the administrative staff to the faculty members. -
Varun Goyal, PhD
Postdoctoral Scholar, Otolaryngology - Head & Neck Surgery
BioDr. Varun Goyal is a Postdoctoral Scholar in Otolaryngology at Stanford University, applying his expertise in nonlinear systems, biomechanics, acoustics, and vibrations to advance the understanding of hearing. He earned his Ph.D. in Mechanical Engineering from the University of Michigan, where he worked at the intersection of mechanics and biological systems to develop computational frameworks for mechanosensory transduction in mammalian ears, with a particular focus on inner-ear hair bundles.
His background spans structural and fluid dynamics, finite element analysis, and control systems, with a strong emphasis on applying these techniques to problems in ear physiology. Dr. Goyal also conducted research at the Center for Nondestructive Evaluation (CNDE) during his bachelor's and master’s studies at IIT Madras, where he designed multifunctional acoustic waveguides for ultrasonic energy transmission and temperature sensing.
He has led and contributed to high-impact R&D projects across leading academic institutions, including RWTH Aachen University in Germany, Nanyang Technological University in Singapore, and Nagaoka University of Technology in Japan, as well as industry partners such as Mondelez International and Plasma Giken Co., Ltd. in Japan. Driven by curiosity and a commitment to understanding how complex systems operate, Dr. Goyal's work integrates theory, computation, and experiment to address fundamental questions in auditory biomechanics.
