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  • Gerard E. Mullin Lab

    The Gerard E. Mullin Lab studies nutrition and the way that diet affects weight loss. In particular, we study how having an imbalanced gut microbiome may prevent weight loss in certain people.

    Principal Investigator

    Gerry Mullin, MD

    Department

    Medicine

  • 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.

    Principal Investigator

    John P. Carey, MD

    Department

    Otolaryngology - Head and Neck Surgery

  • Laboratory of Airway Immunity

    We are interested in understanding how innate immune responses regulate lung health. Innate immunity involves ancient, and well-conserved mediators and their actions regulate the balance between homeostasis and pathogenesis. In the lungs, innate immunity play a critical role in response to environmental exposures such as allergen and ambient particulate matter. My lab focuses on how these exposures can promote aberrant mucosal responses that can drive the development of diseases like asthma.
  • Neuro-Vestibular and Ocular Motor Laboratory

    In our laboratory we study the brain mechanisms of eye movements and spatial orientation. -How magnetic stimulation through transcranial devices affects cortical brain regions -Neural mechanisms underlying balance, spatial orientation and eye movement -Mathematical models that describe the function of ocular motor systems and perception of spatial orientation -Short- and long-term adaptive processes underlying compensation for disease and functional recovery in patients with ocular motor, vestibular and perceptual dysfunction Developing and testing novel diagnostic tools, treatments, and rehabilitative strategies for patients with ocular motor, vestibular and spatial dysfunction

    Principal Investigator

    Amir Kheradmand, MD

    Department

    Neurology

  • Elisseeff Lab

    The mission of the Elisseeff Lab is to engineer technologies to repair lost tissues. We aim to bridge academic research and technology discovery to treat patients and address clinically relevant challenges related to tissue engineering. To accomplish this goal we are developing and enabling materials, studying biomaterial structure-function relationships and investigating mechanisms of tissue development to practically rebuild tissues. The general approach of tissue engineering is to place cells on a biomaterial scaffold that is designed to provide the appropriate signals to promote tissue development and ultimately restore normal tissue function in vivo. Understanding mechanisms of cellular interactions (both cell-cell and cell-material) and tissue development on scaffolds is critical to advancement of the field, particularly in applications employing stem cells. Translation of technologies to tissue-specific sites and diseased environments is key to better design, understanding, and ultimately efficacy of tissue repair strategies. We desire to translate clinically practical strategies, in the form of biomaterials/medical devices, to guide and enhance the body's natural capacity for repair. To accomplish the interdisciplinary challenge of regenerative medicine research, we maintain a synergistic balance of basic and applied/translational research.