References
- Acciani TH, Brandt EB, Khurana Hershey GK, Le Cras TD. (2013). Diesel exhaust particle exposure increases severity of allergic asthma in young mice. Clin Exp Allergy 43:1406–18
- Bates JH, Irvin CG. (2003). Measuring lung function in mice: the phenotyping uncertainty principle. J Appl Physiol 94:1297–306
- Behndig AF, Larsson N, Brown JL, et al. (2011). Proinflammatory doses of diesel exhaust in healthy subjects fail to elicit equivalent or augmented airway inflammation in subjects with asthma. Thorax 66:12–19
- Brandt EB, Kovacic MB, Lee GB, et al. (2013). Diesel exhaust particle induction of IL-17A contributes to severe asthma. J Allergy Clin Immunol 132:1194–204.e2
- Brito JM, Belotti L, Toledo AC, et al. (2010). Acute cardiovascular and inflammatory toxicity induced by inhalation of diesel and biodiesel exhaust particles. Toxicol Sci 116:67–78
- Bunger J, Krahl J, Schroder O, et al. (2012). Potential hazards associated with combustion of bio-derived versus petroleum-derived diesel fuel. Crit Rev Toxicol 42:732–50
- Carlsten C, Kaufman JD, Peretz A, et al. (2007). Coagulation markers in healthy human subjects exposed to diesel exhaust. Thromb Res 120:849–55
- Carlsten C, Macnutt MJ, Zhang Z, et al. (2014). Anti-oxidant N-acetylcysteine diminishes diesel exhaust-induced increased airway responsiveness in person with airway hyper-reactivity. Toxicol Sci 139:479–87
- Dixon D, Herbert RA, Sills RC, Boorman GA. (1999). Lungs, pleura, and mediastinum. In: Maronpot R. (ed.) Pathology of the mouse. Vienna (IL): Cache River Press, 293–332
- Driscoll KE. (1994). Macrophage inflammatory proteins: biology and role in pulmonary inflammation. Exp Lung Res 20:473–90
- Durrant DM, Metzger DW. (2010). Emerging roles of T helper subsets in the pathogenesis of asthma. Immunol Invest 39:526–49
- EPA. (2002). Health assessment document for diesel engine exhaust [Online]. U.S. Environmental Protection Agency. Springfield (VA): National Technical Information Service. Available from: http://www.epa.gov/ttn/atw/dieselfinal.pdf. [Last accessed: 7 Sep 2014]
- Ezratty V, Guillossou G, Neukirch C, et al. (2014). Repeated nitrogen dioxide exposures and eosinophilic airway inflammation in asthmatics: a randomized crossover study. Environ Health Perspect 122:850–5
- Farraj AK, Haykal-Coates N, Ledbetter AD, et al. (2006). Inhibition of pan neurotrophin receptor p75 attenuates diesel particulate-induced enhancement of allergic airway responses in C57/Bl6J mice. Inhal Toxicol 18:483–91
- Finch GL, Hobbs CH, Blair LF, et al. (2002). Effects of subchronic inhalation exposure of rats to emissions from a diesel engine burning soybean oil-derived biodiesel fuel. Inhal Toxicol 14:1017–48
- Finkelman FD, Hogan SP, Hershey GK, et al. (2010). Importance of cytokines in murine allergic airway disease and human asthma. J Immunol 184:1663–74
- Fujimaki H, Saneyoshi K, Shiraishi F, et al. (1997). Inhalation of diesel exhaust enhances antigen-specific IgE antibody production in mice. Toxicology 116:227–33
- Ghio AJ, Sobus JR, Pleil JD, Madden MC. (2012). Controlled human exposures to diesel exhaust. Swiss Med Wkly 142:w13597
- Hao M, Comier S, Wang M, et al. (2003). Diesel exhaust particles exert acute effects on airway inflammation and function in murine allergen provocation models. J Allergy Clin Immunol 112:905–14
- Harkema JR, Carey SA, Wagner JG. (2006). The nose revisited: a brief review of the comparative structure, function, and toxicologic pathology of the nasal epithelium. Toxicol Pathol 34:252–69
- Hiura TS, Kaszubowski MP, Li N, Nel AE. (1999). Chemicals in diesel exhaust particles generate reactive oxygen radicals and induce apoptosis in macrophages. J Immunol 163:5582–91
- Karthikeyan S, Thomson EM, Kumarathasan P, et al. (2013). Nitrogen dioxide and ultrafine particles dominate the biological effects of inhaled diesel exhaust treated by a catalyzed diesel particulate filter. Toxicol Sci 135:437–50
- Krishnan RM, Sullivan JH, Carlsten C, et al. (2013). A randomized cross-over study of inhalation of diesel exhaust, hematological indices, and endothelial markers in humans. Part Fibre Toxicol 10:7
- Laumbach RJ, Kipen HM. (2012). Respiratory health effects of air pollution: update on biomass smoke and traffic pollution. J Allergy Clin Immunol 129:3–11; quiz 12-13
- Levine SJ, Wenzel SE. (2010). Narrative review: the role of Th2 immune pathway modulation in the treatment of severe asthma and its phenotypes. Ann Intern Med 152:232–7
- Li N, Kim S, Wang M, et al. (2002). Use of a stratified oxidative stress model to study the biological effects of ambient concentrated and diesel exhaust particulate matter. Inhal Toxicol 14:459–86
- Li N, Venkatesan MI, Miguel A, et al. (2000). Induction of heme oxygenase-1 expression in macrophages by diesel exhaust particle chemicals and quinones via the antioxidant-responsive element. J Immunol 165:3393–401
- Manners S, Alam R, Schwartz DA, Gorska MM. (2013). A mouse model links asthma susceptibility to prenatal exposure to diesel exhaust. J Allergy Clin Immunol 134:63–72
- McCreanor J, Cullinan P, Nieuwenhuijsen MJ, et al. (2007). Respiratory effects of exposure to diesel traffic in persons with asthma. N Engl J Med 357:2348–58
- Meyer KC, Raghu G, Baughman RP, et al. (2012). An official American Thoracic Society clinical practice guideline: the clinical utility of bronchoalveolar lavage cellular analysis in interstitial lung disease. Am J Respir Crit Care Med 185:1004–14
- Miyabara Y, Takano H, Ichinose T, et al. (1998). Diesel exhaust enhances allergic airway inflammation and hyperresponsiveness in mice. Am J Respir Crit Care Med 157:1138–44
- Mutlu E, Nash DG, King C, et al. (2015). Generation and characterization of diesel engine combustion emissions from petroleum diesel and soybean biodiesel fuels and application for inhalation exposure studies. Inhal Toxicol 27:515–532
- Nials AT, Uddin S. (2008). Mouse models of allergic asthma: acute and chronic allergen challenge. Dis Model Mech 1:213–20
- Nordenhall C, Pourazar J, Ledin MC, et al. (2001). Diesel exhaust enhances airway responsiveness in asthmatic subjects. Eur Respir J 17:909–15
- NREL. (2009). Biodiesel handling and use guide [Online]. National Renewable Energy Laboratory. Springfield (VA): National Technical Information Service. Available from: http://www.nrel.gov/transportation/pdfs/43672.pdf. [Last accessed: 1 June 2015]
- Renne R, Brix A, Harkema J, et al. (2009). Proliferative and nonproliferative lesions of the rat and mouse respiratory tract. Toxicol Pathol 37:5s–73s
- Shvedova AA, Yanamala N, Murray AR, et al. (2013). Oxidative stress, inflammatory biomarkers, and toxicity in mouse lung and liver after inhalation exposure to 100% biodiesel or petroleum diesel emissions. J Toxicol Environ Health A 76:907–21
- Stenfors N, Nordenhall C, Salvi SS, et al. (2004). Different airway inflammatory responses in asthmatic and healthy humans exposed to diesel. Eur Respir J 23:82–6
- Stevens T, Cho SH, Linak WP, Gilmour MI. (2009). Differential potentiation of allergic lung disease in mice exposed to chemically distinct diesel samples. Toxicol Sci 107:522–34
- Takano H, Ichinose T, Miyabara Y, et al. (1998a). Inhalation of diesel exhaust enhances allergen-related eosinophil recruitment and airway hyperresponsiveness in mice. Toxicol Appl Pharmacol 150:328–37
- Takano H, Ichinose T, Miyabara Y, et al. (1998b). Diesel exhaust particles enhance airway responsiveness following allergen exposure in mice. Immunopharmacol Immunotoxicol 20:329–36
- Takano H, Yoshikawa T, Ichinose T, et al. (1997). Diesel exhaust particles enhance antigen-induced airway inflammation and local cytokine expression in mice. Am J Respir Crit Care Med 156:36–42
- Young JT. (1981). Histopathologic examination of the rat nasal cavity. Fundam Appl Toxicol 1:309–12