Multisystem Toxicity of E-Cigarettes in Preclinical and Clinical Studies: Pathophysiologic Effects of E-Cigarette Aerosol Exposures from Head to Toe

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Authors: Mears, Matthew J. ; Bandaru, Priya ; Neczypor, Evan W. ; Byun, Min Kwang ; Zhang, Michelle ; Gorr, Matthew W. ; Masso-Silva, Jorge A. ; Barnes, Laura ; Perryman, Alexia ; Kumar, Avnee J. ; Hendel, Jeffrey M. ; Fuentes, Ana Lucia ; Wold, Loren E. ; Alexander, Laura E. Crotty

Citation: ANNUAL REVIEW OF PHARMACOLOGY AND TOXICOLOGY, Vol.66(1) : 325-352, 2026-01

MeSH: Aerosols ; Animals ; Electronic Nicotine Delivery Systems* ; Humans ; Inhalation Exposure / adverse effects ; Oxidative Stress / drug effects ; Particulate Matter / adverse effects ; Particulate Matter / toxicity ; Vaping* / adverse effects

Keywords: electronic cigarette ; e-cig ; vaping ; nicotine ; aerosol ; oxidative stress

Abstract: The global population breathes unsafe levels of pollutants. In recent years, electronic cigarettes (e-cigs) have become a significant source of particulate matter (PM), which causes injurious effects across organ systems. E-cig users and bystanders are exposed to concentrated aerosols, commonly called vapor, that we now know can have harmful long-term consequences due to PM and chemicals contained within. E-cigs are diverse in design, and e-liquids vary dramatically, making it difficult to draw broad conclusions from studies of different devices, brands, and flavors. With the rise in popularity of e-cigs, it is important to define the health effects across the body. In this comprehensive review, we dissect and summarize the known organ-specific effects of e-cigs, including underlying molecular mechanisms. Notably, e-cig aerosols broadly cause increased cytokine release and oxidative stress, which are associated with a heightened risk of organ dysfunction. We also highlight ways to minimize harmful e-cig constituents to develop safer products.