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Displaying 1 to 3 of 3 results for image-guided surgery

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  • Carey Research Group

    John Carey’s Research Group conducts research regarding diseases of the inner ear that affect both balance and hearing mechanisms. Key interests include superior semicircular canal dehiscence syndrome (SCDS), the normal vestibular reflexes and how they change with age, novel intratympanic treatments (i.e., middle ear injections) for conditions like Menière’s disease and sudden hearing loss, and the mechanisms of vestibular migraine. With Lloyd Minor, Dr. Carey helped develop the operation to repair the superior canal in patients with SCDS using image-guided surgery. Dr. Carey has been funded by the National Institutes of Health – National Institute on Deafness and Other Communication Disorders to study inner ear balance function in Menière’s disease and steroid treatment of sudden hearing loss.

    Research Areas: meniere's disease, vertigo, audiology, neurotology/otology, superior canal dehiscence, cochlear implant, hearing loss

  • URobotics

    URobotics is a research and education program that uses advanced technology to improve how urological diseases are diagnosed and treated. The URobotics lab’s main focus is creating robots that aid in real-time, image-guided interventions. This multidisciplinary team of urologists, radiologists and engineers has teamed up to revolutionize how surgeries are performed.

    Research Areas: robots, image-guided surgery, urology

    Lab Website

    Principal Investigator

    Dan Stoianovici, Ph.D.

    Department

    Urology

  • Vikram Chib Lab

    The goals of the Vikram Chib Lab are to understand how the nervous system organizes the control of movement and how incentives motivate our behaviors. To better understand neurobiological control, our researchers are seeking to understand how motivational cues drive our motor actions. We use an interdisciplinary approach that combines robotics with the fields of neuroscience and economics to examine neuroeconomics and decision making, motion and force control, haptics and motor learning, image-guided surgery and soft-tissue mechanics.

    Research Areas: soft-tissue mechanics, robotics, motor learning, neuroeconomics, movement, neurobiological control, neuroscience, image-guided surgery, economics, decision making, nervous system

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