Ulf Bergendorf scite author profile

These analyses suggest that on average exposure levels of inhalable dust and its CSF in the European rubber manufacturing industry have steadily declined. Most likely genotoxic risks have also lessened over time since exposure levels have decreased and the most toxic chemicals have been replaced. In addition to differences in exposure reductions and levels among various stages of the production process, large differences across countries were noted. These patterns should be taken into account in retrospective assessment of exposure for epidemiological studies assessing cancer risk in the rubber industry.

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Annoyance and performance during the experimental chemical challenge of subjects with multiple chemical sensitivity

Österberg¹,

Ørbæk²,

Karlson³

et al. 2003

Scand J Work Environ Health

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Levels of 2-thiothiazolidine-4-carboxylic acid (TTCA) and effect modification of polymorphisms of glutathione-related genes in vulcanization workers in the southern Sweden rubber industries

Jönsson

Broberg

Bergendorf

et al. 2007

Int Arch Occup Environ Health

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Comparison and Evaluation of Multiple Users’ Usage of the Exposure and Risk Tool: Stoffenmanager 5.1

Landberg

Berg

Andersson

et al. 2015

ANNHYG

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Stoffenmanager is an exposure and risk assessment tool that has a control banding part, with risk bands as outcome, and a quantitative exposure assessment part, with the 90 th percentile of the predicted exposure as a default outcome. The main aim of the study was to investigate whether multiple users of Stoffenmanager came to the same result when modelling the same scenarios. Other aims were to investigate the differences between outcomes of the control banding part with the measured risk quota and to evaluate the conservatism of the tool by testing whether the 90 th percentiles are above the measured median exposures. We investigated airborne exposures at companies in 4 different types of industry: wood, printing, metal foundry, and spray painting. Three scenarios were modelled and measured, when possible, at each company. When modelled, 13 users visited each company on the same occasion creating individual assessments. Consensus assessments were also modelled for each scenario by 6 occupational hygienists. The multiple users' outcomes were often spread over 2 risk bands in the control banding part, and the differences in the quantitative exposure outcomes for the highest and lowest assessments per scenario varied between a factor 2 and 100. Four parameters were difficult for the users to assess and had a large impact on the outcome: type of task, breathing zone, personal protection and control measures. Only 2 scenarios had a higher measured risk quota than predicted by the control banding part, also 2 scenarios had slightly higher measured median exposure value than modelled consensus in the quantitative exposure assessment part. Hence, the variability between users was large but the model performed well.

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Emissions into the Air from Bitumen and Rubber Bitumen—Implications for Asphalt Workers’ Exposure

Nilsson

Bergendorf

Tinnerberg

et al. 2018

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The risk among asphalt workers of developing adverse health effects may increase due to their occupational exposure. One area of special concern arises when rubber granules are mixed into bitumen to enhance asphalt properties. This research characterizes and compares bitumen and rubber bitumen regarding the emissions of and workers' exposure to particulates, polycyclic aromatic hydrocarbons (PAHs) and benzothiazole. A laboratory and a field study were carried out. In the laboratory, two types of bitumen, one with and one without rubber, were heated up to two temperatures (140°C and 160°C). The concentrations and chemical compositions of the emissions were determined. In the field at asphalt work sites, both emissions and worker exposure measurements were performed. The methods applied included direct-reading sampling techniques next to the asphalt work area and personal sampling techniques on asphalt workers. The exposure measurements on asphalt workers for respirable dust, total dust, particle number and mass, and total PAH concentrations showed similar concentrations when both standard and rubber bitumen were used. The asphalt-surfacing machine operators were the workers with the highest observed exposure followed by the screed operators and roller drivers. Both laboratory and field measurements showed higher concentrations of benzothiazole when rubber bitumen was used, up to 7.5 times higher in the laboratory. The levels of naphthalene, benzo(a)pyrene, and total particles were lower for both types compared with the Swedish occupational exposure limits, 8-h time weighted average concentrations. Benzo(a)pyrene exceeded however the health-based guideline value given by the WHO for both types of bitumen. The study concludes that several air pollutants such as benzothiazole and PAHs are emitted into the air during asphalt work, but it is not evident if exposure to rubber bitumen possesses a higher risk than exposure to standard bitumen in terms of asphalt worker exposure.

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Ulf Bergendorf

Exposure to inhalable dust and its cyclohexane soluble fraction since the 1970s in the rubber manufacturing industry in the European Union

Annoyance and performance during the experimental chemical challenge of subjects with multiple chemical sensitivity

Levels of 2-thiothiazolidine-4-carboxylic acid (TTCA) and effect modification of polymorphisms of glutathione-related genes in vulcanization workers in the southern Sweden rubber industries

Comparison and Evaluation of Multiple Users’ Usage of the Exposure and Risk Tool: Stoffenmanager 5.1

Emissions into the Air from Bitumen and Rubber Bitumen—Implications for Asphalt Workers’ Exposure

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