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Andrew Lane Lab
The Lane laboratory is focused on understanding molecular mechanisms underlying chronic rhinosinusitis, particularly the pathogenesis of nasal polyps, as well as inflammation on the olfactory epithelium. Diverse techniques in molecular biology, immunology, and physiology are utilized to study epithelial cell innate immunity, olfactory loss, and response to viral infection. Ongoing work explores how epithelial cells of the sinuses and olfactory mucosa participate in the immune response and contribute to chronic inflammation. The lab creates and employs transgenic mouse models of chronic nasal/sinus inflammation to support research in this area. Collaborations are in place with the School of Public Health to explore mechanisms of anti-viral immunity in influenza and COVID-19.
Jean Kim Lab
The Jean Kim Laboratory performs translational research in the
area of chronic rhinosinusitis, with a niche interest in the pathogenesis of hyperplastic nasal
polyposis. Studies encompass clinical research to basic wet laboratory research in
studying the underlying immune and autoimmune mediated mechanism of polyp growth and
perpetuation of disease. Human cell and tissue culture models are used. Techniques in the
laboratory include cell and tissue culture, real time PCR, immunoblot, ELISA, flow cytometry,
immunohistochemistry, electron microscopy, gene array analysis, and other molecular
approaches including genetic knockdowns. Approaches used in Dr. Kim’s clinical study
designs include prospective and retrospective analysis of patient outcomes and clinical
biomarkers, as wells controlled clinical trials.
The Ramanathan Lab
Chronic rhinosinusitis (CRS) is a leading cause of morbidity globally and is the single most common self-reported chronic health condition and accounts for billions of dollars in health care costs and lost work days annually. Exposure to air pollutants is thought to be a critical modifier of CRS susceptibility. Despite marked reductions in air pollution levels in the United States, the fine particulate component of air pollution (PM2.5) and ultrafine pollutants secondary to traffic continue to remain a recalcitrant issue globally and in the United States. The Ramanathan Lab focuses on studying the role of air pollution (PM2.5) in CRS. In collaboration with scientists at the Bloomberg School of Public Health, we have utilized a state of the art air pollution exposure system to develop a novel mouse model of air pollution induced rhinosinusitis that mimics many of the features of CRS in humans. Our lab uses transgenic mouse models and novel immunologic/genomic techniques to study the mec...hanisms by which PM2.5 causes eosinophilic inflammation and sinonasal epithelial barrier dysfunction. We are also interested in the role of the antioxidant transcription factor, Nrf2, which has shown to stabilize the epithelial barrier and reduce eosinophilia in PM induced rhinosinusitis as a potential therapeutic target. view more