Rakaia Kenney, Fenge Ni

Mentors: Weihong Lin, Biological Sciences; Tatsuya Ogura, Biological Sciences, UMBC

Abstract:

While e-cigarette usage and associated diseases have been a hot topic for the past year, little research has been done on the adverse health effects caused to the upper respiratory system from vaping. I have been conducting an analysis of how goblet cell proliferation in the mouse nasal respiratory epithelium (RE) is affected by e-cig vapor exposure. Goblet cells are mucus secreting cells, reacting to tissue irritation through increasing their density and producing more mucus, which can block alveoli and indicate inflammation. In my experiment, mice were exposed to nicotine containing e-cig vapors for four weeks, with control mice being exposed under the same conditions but with air. The mice are euthanized, dissected, and the head is preserved, after which coronal sections are placed serially on slides. I proceed with a hematoxylin and eosin stain and take 10- or 20-X images using a light microscope. The goblet cells are manually counted, respiratory epithelia length is measured using ImageJ, and goblet cell density is calculated and compared. I have found a significant difference in goblet cell density in nicotine exposed mouse’ RE of the nose compared to control mice, indicating an inflammatory response in the nose in response to e-cigarettes.