Health effects research and regulation of diesel exhaust: an historical overview focused on lung cancer risk

Hesterberg, Thomas W.; Long, Christopher M.; Bunn, William B.; Lapin, Charles A.; McClellan, R.O.; Valberg, Peter A.

doi:10.3109/08958378.2012.691913

Cited by 84 publications

(43 citation statements)

References 192 publications

(439 reference statements)

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“…More than 5000 different compounds including heterogeneous mixtures of gases, uncondensed vapors and particulate matter containing many different aromatic amines, carbonyls, phenolics, polycyclic aromatic hydrocarbons (PAHs), nitroaromatics, nitroheterocyclics, inorganics, organics, volatile hydrocarbons, metals, aldehydes, ketones, etc. have been identified during combustion processes (Hesterberg et al, 2012;Prasad andBella, 2010 Zhang andTao, 2009;Ravindra et al, 2008;Venkatachari et al, 2007;Donaldson et al, 2005). Common human pathological effects of these toxicants include direct oxidation of biomolecules, generation of free radicals, induction of the inflammatory response system (Kampa and Castanas, 2008) and interference with signaling pathways (Valko et al, 2006;Hesterberg et al, 2012).…”

Section: Introductionmentioning

confidence: 93%

Laccase oxidation and removal of toxicants released during combustion processes

et al. 2016

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Section: Introductionmentioning

confidence: 93%

Laccase oxidation and removal of toxicants released during combustion processes

et al. 2016

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“…The diversity of these products is huge, and their estimated number may be as high as several thousand different chemical compounds occurring as gas or in the form of solid particles. The basic gaseous components of exhaust fumes emitted by compression-ignition (diesel) engines are: carbon oxides, nitrogen and its compounds, oxygen, steam, sulfur IJOMEH 2016;29(4) 669 cancer [1,6,13]. In 2012, the International Agency for Research on Cancer (IARC) classified diesel exhaust fumes as carcinogenic to humans (group 1 of IARC classification).…”

Section: Introductionmentioning

confidence: 99%

Exposure to diesel exhaust fumes in the context of exposure to ultrafine particles

Bujak-Pietrek

Mikołajczyk

Kamińska

et al. 2016

Int J Occup Med Environ Health

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Objectives: Diesel exhaust fumes emission is a significant source of ultrafine particles, the size of which is expressed in nanometers. People occupationally exposed to diesel exhaust particles include mainly workers servicing vehicles with engines of this type. This article presents the analysis of measurements of ultrafine particle concentrations occurring in the bus depot premises during the work connected with everyday technical servicing of buses. Material and Methods: The measurements were carried out in the everyday servicing (ES) room of the bus depot before, during and after the work connected with bus servicing. Determinations included: particle concentrations in terms of particle number and particle surface area, and mass concentrations of aerosol. Results: Mean value of number concentration of 10-to 1000-nm particles increased almost 20-fold, from 7600 particles/cm 3 before starting bus servicing procedures to 130 000 particles/cm 3 during the bus servicing procedures in the room. During the procedures, the mean surface area concentration of particles potentially deposited in the alveolar (A) region was almost 3 times higher than that of the particles depositing in the tracheo-bronchial (TB) region: 356.46 μm 2 /cm 3 vs. 95.97 μm 2 /cm 3 , respectively. The mass concentration of the fraction of particulate matter with aerodynamic diameter 0.02-1 μm (PM 1 ) increased 5-fold during the analyzed procedures and was 0.042 mg/m 3 before, and 0.298 mg/m 3 while the procedures continued. Conclusions: At the time when bus servicing procedures continued in the ES room, a very high increase in all parameters of the analyzed particles was observed. The diesel exhaust particles exhibit a very high degree of fragmentation and, while their number is very high and their surface area is very large, their mass concentration is relatively low. The above findings confirm that ultrafine particles found in diesel exhaust fumes may be harmful to the health of the exposed people, and to their respiratory tract in particular.

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“…[5] For both DEPs and WSPs, variations in the organic fraction composition have been reported, depending on the fuel type and combustion conditions. [6,7] Several studies have indicated that the organic fraction of combustion PM is responsible for the toxicological effects. [8][9][10][11][12][13][14][15] We recently compared the potency of native DEPs, their corresponding methanol extracts and residual particles to induce expression of multiple pro-inflammatory linked genes in human bronchial epithelial cells.…”

Section: Introductionmentioning

confidence: 99%

The occurrence of polycyclic aromatic hydrocarbons and their derivatives and the proinflammatory potential of fractionated extracts of diesel exhaust and wood smoke particles

Totlandsdal

Øvrevik

Cochran

et al. 2013

Journal of Environmental Science and Health, Part A

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Exposure to combustion emissions, including diesel engine exhaust and wood smoke particles (DEPs and WSPs), has been associated with inflammatory responses. To investigate the possible role of polycyclic aromatic hydrocarbons (PAHs) and PAH-derivatives, the DEPs and WSPs methanol extracts were fractionated by solid phase extraction (SPE), and the fractions were analyzed for more than ∼120 compounds. The pro-inflammatory effects of the fractionated extracts were characterized by exposure of bronchial epithelial lung cells (BEAS-2B). Both native DEPs and WSPs caused a concentration-dependent increase in IL-6 and IL-8 release and cytotoxicity. This is consistent with the finding of a rather similar total content of PAHs and PAH-derivatives. Yet, the samples differed in specific components, suggesting that different species contribute to the toxicological response in these two types of particles. The majority of the IL-6 release and cytotoxicity was induced upon exposure to the most polar (methanol) SPE fraction of extracts from both samples. In these fractions hydroxy-PAHs, carboxy-PAHs were observed along with nitro-amino-PAHs in DEP. However, the biological effects induced by the polar fractions could not be attributed only to the occurrence of PAH-derivatives. The present findings indicate a need for further characterization of organic extracts, beyond an extensive analysis of commonly suspected PAH and PAH-derivatives.

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Health effects research and regulation of diesel exhaust: an historical overview focused on lung cancer risk

Cited by 84 publications

References 192 publications

Laccase oxidation and removal of toxicants released during combustion processes

Laccase oxidation and removal of toxicants released during combustion processes

Exposure to diesel exhaust fumes in the context of exposure to ultrafine particles

The occurrence of polycyclic aromatic hydrocarbons and their derivatives and the proinflammatory potential of fractionated extracts of diesel exhaust and wood smoke particles

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