References
- Balouet JC, Winder C. Aerotoxic syndrome in air crew as a result of exposure to airborne contaminants in aircraft. Paper presented at: The American Society of Testing and Materials Symposium on Air Quality and Comfort in Airliner Cabins; 1999 October 27–28; New Orleans, LA.
- Schuchardt S, Koch W, Rosenberger W. Cabin air quality- Quantitative comparison of volatile air contaminants at different flight phases during 177 commercial flights. Build Environ. 2019;148:498–507.
- de Ree H, van den Berg M, Brand T, et al. Health risk assessment of exposure to tricresyl phosphates (TCPs) in aircraft: a commentary. Neurotoxicol. 2014;45:209–215.
- Michaelis S. A survey of health symptoms in BALPA Boeing 757 pilots. J Occup Health Safe- Aust NZ. 2003;19:253–261.
- Winder C, Fonteyn P, Balouet JC. Aerotoxic syndrome: a descriptive epidemiological survey of aircrew exposed to in-cabin airborne contaminants. J Occup Health Safety-Aust NZ. 2002;18:321–338.
- Hageman G, Pal TM, Nihom J, et al. Three patients with probable aerotoxic syndrome. Clin Toxicol. 2019;16:1. doi:10.1080/15563650.2019.1616092
- Costa LG, Vitalone A, Cole TB, et al. Modulation of paraoxonase (PON 1) activity. Biochem Pharmacol. 2005;69:541–550.
- Polimanti R, Piacentini S, Manfellotto D, et al. Human genetic variation of CYP450 superfamily: analysis of functional diversity in worldwide populations. Pharmacogen. 2012;13:1951–1960.
- Mackenzie Ross S. Cognitive function following exposure to contaminated air on commercial aircraft: a case series of 27 pilots seen for clinical purposes. J Nutrit Environm Med. 2008;17:111–126.
- Abou-Donia MB, Abou-Donia MM, ElMasry EM, et al. Autoantibodies to nervous system-specific proteins are elevated in sera of flight crew members: biomarkers for nervous system injury. J Toxicol Environm Health. 2013;76:363–380.
- Reneman R, Schagen SB, Mulder M, et al. Cognitive impairment and associated loss in brain white microstructure in aircrew members exposed to engine oil fumes. Brain Imag Behav. 2016;10:437–444.