Selected Publications

Zavala, Jose, et al. “The Gillings Sampler–An electrostatic air sampler as an alternative method for aerosol in vitro exposure studies.” Chemico-biological interactions 220 (2014): 158-168. 

Zavala, Jose, et al. “Regulating temperature and relative humidity in air–liquid interface in vitro systems eliminates cytotoxicity resulting from control air exposures.” Toxicology research 6.4 (2017): 448-459. 

Zavala, Jose, et al. “New Approach Methods to Evaluate Health Risks of Air Pollutants: Critical Design Considerations for In Vitro Exposure Testing.” Int. J. Environ. Res. Public Health 2020, 17, 2124. 

Lampe, Olivia CG, et al. “Application of a human bronchoepithelial—air–liquid interface model to assess respiratory hazard of VOCs using a benchmark concentration modeling approach.” Inhalation Toxicology (2026): 1-13. 

Dodero, Alana J., et al. “Effects of Atmospheric Aging on the Respiratory Toxicity of Polystyrene Nanoplastic Particles.” Chemical Research in Toxicology 38.11 (2025): 1905-1915.

Vitucci, E., C. L. Cannon, and N. Johnson. “ALI Benzene Exposure Induces Oxidative Stress in the Bronchial Epithelium and Promotes Immune Cell Chemotaxis In Vitro.” American Journal of Respiratory and Critical Care Medicine 211.Supplement_1 (2025): A5109-A5109.

Beard, Jonathan M., et al. “Lung cell toxicological effects of 3D printer aerosolized filament byproducts.” Environmental Science and Pollution Research 32.9 (2025): 5078-5090.

Henriquez, Andres R., et al. “Ozone and particulate matter co-exposure at the air-liquid interface: Establishing an approach to assess pollutant interactions in vitro.” Toxicology in Vitro 107 (2025): 106060.

Beard, Jonathan M., et al. “In vitro toxicity and chemical analysis of e-cigarette aerosol produced amid dry hitting.” Toxicology 506 (2024): 153865. 

He, Xiaojia, et al. “Real-time exposure to 3D-printing emissions elicits metabolic and pro-inflammatory responses in human airway epithelial cells.” Toxics 12.1 (2024): 67. 

Xia, Li, et al. “Compositional variations in metal nanoparticle components of welding fumes impact lung epithelial cell toxicity.” Journal of Toxicology and Environmental Health, Part A 86.20 (2023): 735-757. 

Guénette, Josée, Dalibor Breznan, and Errol M. Thomson. “Establishing an air-liquid interface exposure system for exposure of lung cells to gases.” Inhalation toxicology 34.3-4 (2022): 80-89. 

Kaur, Kamaljeet, et al. “Effect of combustion particle morphology on biological responses in a Co-culture of human lung and macrophage cells.” Atmospheric Environment 284 (2022): 119194. 

Kaur, Kamaljeet, et al. “Comparison of biological responses between submerged, pseudo-air-liquid interface, and air-liquid interface exposure of A549 and differentiated THP-1 co-cultures to combustion-derived particles.” Journal of Environmental Science and Health, Part A 57.7 (2022): 540-551. 

Kaur, Kamaljeet, et al. “Determining real-time mass deposition with a quartz crystal microbalance in an electrostatic, parallel-flow, air-liquid interface exposure system.” Journal of aerosol science 151 (2021): 105653.