Bitumen workers handling mastic versus rolled asphalt in a tunnel: assessment of exposure and biomarkers of irritation and genotoxicity
Emission levels of vapours and aerosols of bitumen are different when processing rolled asphalt compared to mastic asphalt, with working temperatures up to 180 and 250°C, respectively. During the Human Bitumen Study, we examined six workers handling rolled asphalt and mastic asphalt in two consecuti...
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| Published in: | Archives of toxicology Vol. 85; no. Suppl 1; pp. 81 - 87 |
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| Main Authors: | , , , , , , , , , , |
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| Abstract | Emission levels of vapours and aerosols of bitumen are different when processing rolled asphalt compared to mastic asphalt, with working temperatures up to 180 and 250°C, respectively. During the Human Bitumen Study, we examined six workers handling rolled asphalt and mastic asphalt in two consecutive weeks at the same construction site in a tunnel. In addition to the determination of exposure to bitumen and polycyclic aromatic hydrocarbons (PAH) during shift, we examined urinary PAH metabolites, irritative and genotoxic effects before and after shift. Median personal shift concentration of vapours and aerosols of bitumen was 1.8 (range 0.9–2.4) mg/m
3
during the application of rolled asphalt and 7.9 (range 4.9–11.9) mg/m
3
when mastic asphalt was applied. Area measurement of vapours and aerosols of bitumen revealed higher concentrations than the personal measurements for mastic asphalt (mastic asphalt: 34.9 mg/m
3
; rolled asphalt: 1.8 mg/m
3
). Processing mastic asphalt was associated also with higher PAH concentrations. Urinary 1-hydroxypyrene and the sum of 1-, 2+ 9-, 3- and 4-hydroxyphenanthrene increased slightly during shift without clear difference between mastic and rolled asphalt application. However, the post-shift urinary PAH-metabolite concentrations did not reflect the different PAH exposure during mastic and rolled asphalt application. Individual workers could be identified by their spirometry results indicating that these data reflect more chronic than acute effects. In most cases, an increase of 8-oxodGuo adducts was observed during shift that was independent of the asphalt application. 8-oxodGuo and (+)-
anti
-BPDE-DNA adducts were higher than in exposed workers of the Human Bitumen Study independent of the asphalt application. The DNA-strand breaks were considerably higher pre-shift and decreased during shift. In this study, mastic asphalt application led to significantly higher exposure to vapours and aerosols of bitumen, as well as to airborne PAH, compared to rolled asphalt application. Nevertheless, no differences in the excretion of urinary PAH metabolites, lung function impairment and genotoxic markers were detected. However, higher levels of genotoxicity markers on both examination days compared with the results of the Human Bitumen Study may indicate a possible influence of the specific tunnel setting. |
|---|---|
| AbstractList | Emission levels of vapours and aerosols of bitumen are different when processing rolled asphalt compared to mastic asphalt, with working temperatures up to 180 and 250°C, respectively. During the Human Bitumen Study, we examined six workers handling rolled asphalt and mastic asphalt in two consecutive weeks at the same construction site in a tunnel. In addition to the determination of exposure to bitumen and polycyclic aromatic hydrocarbons (PAH) during shift, we examined urinary PAH metabolites, irritative and genotoxic effects before and after shift. Median personal shift concentration of vapours and aerosols of bitumen was 1.8 (range 0.9–2.4) mg/m
3
during the application of rolled asphalt and 7.9 (range 4.9–11.9) mg/m
3
when mastic asphalt was applied. Area measurement of vapours and aerosols of bitumen revealed higher concentrations than the personal measurements for mastic asphalt (mastic asphalt: 34.9 mg/m
3
; rolled asphalt: 1.8 mg/m
3
). Processing mastic asphalt was associated also with higher PAH concentrations. Urinary 1-hydroxypyrene and the sum of 1-, 2+ 9-, 3- and 4-hydroxyphenanthrene increased slightly during shift without clear difference between mastic and rolled asphalt application. However, the post-shift urinary PAH-metabolite concentrations did not reflect the different PAH exposure during mastic and rolled asphalt application. Individual workers could be identified by their spirometry results indicating that these data reflect more chronic than acute effects. In most cases, an increase of 8-oxodGuo adducts was observed during shift that was independent of the asphalt application. 8-oxodGuo and (+)-
anti
-BPDE-DNA adducts were higher than in exposed workers of the Human Bitumen Study independent of the asphalt application. The DNA-strand breaks were considerably higher pre-shift and decreased during shift. In this study, mastic asphalt application led to significantly higher exposure to vapours and aerosols of bitumen, as well as to airborne PAH, compared to rolled asphalt application. Nevertheless, no differences in the excretion of urinary PAH metabolites, lung function impairment and genotoxic markers were detected. However, higher levels of genotoxicity markers on both examination days compared with the results of the Human Bitumen Study may indicate a possible influence of the specific tunnel setting. Emission levels of vapours and aerosols of bitumen are different when processing rolled asphalt compared to mastic asphalt, with working temperatures up to 180 and 250°C, respectively. During the Human Bitumen Study, we examined six workers handling rolled asphalt and mastic asphalt in two consecutive weeks at the same construction site in a tunnel. In addition to the determination of exposure to bitumen and polycyclic aromatic hydrocarbons (PAH) during shift, we examined urinary PAH metabolites, irritative and genotoxic effects before and after shift. Median personal shift concentration of vapours and aerosols of bitumen was 1.8 (range 0.9-2.4) mg/m(3) during the application of rolled asphalt and 7.9 (range 4.9-11.9) mg/m(3) when mastic asphalt was applied. Area measurement of vapours and aerosols of bitumen revealed higher concentrations than the personal measurements for mastic asphalt (mastic asphalt: 34.9 mg/m(3); rolled asphalt: 1.8 mg/m(3)). Processing mastic asphalt was associated also with higher PAH concentrations. Urinary 1-hydroxypyrene and the sum of 1-, 2+ 9-, 3- and 4-hydroxyphenanthrene increased slightly during shift without clear difference between mastic and rolled asphalt application. However, the post-shift urinary PAH-metabolite concentrations did not reflect the different PAH exposure during mastic and rolled asphalt application. Individual workers could be identified by their spirometry results indicating that these data reflect more chronic than acute effects. In most cases, an increase of 8-oxodGuo adducts was observed during shift that was independent of the asphalt application. 8-oxodGuo and (+)-anti-BPDE-DNA adducts were higher than in exposed workers of the Human Bitumen Study independent of the asphalt application. The DNA-strand breaks were considerably higher pre-shift and decreased during shift. In this study, mastic asphalt application led to significantly higher exposure to vapours and aerosols of bitumen, as well as to airborne PAH, compared to rolled asphalt application. Nevertheless, no differences in the excretion of urinary PAH metabolites, lung function impairment and genotoxic markers were detected. However, higher levels of genotoxicity markers on both examination days compared with the results of the Human Bitumen Study may indicate a possible influence of the specific tunnel setting. Emission levels of vapours and aerosols of bitumen are different when processing rolled asphalt compared to mastic asphalt, with working temperatures up to 180 and 250°C, respectively. During the Human Bitumen Study, we examined six workers handling rolled asphalt and mastic asphalt in two consecutive weeks at the same construction site in a tunnel. In addition to the determination of exposure to bitumen and polycyclic aromatic hydrocarbons (PAH) during shift, we examined urinary PAH metabolites, irritative and genotoxic effects before and after shift. Median personal shift concentration of vapours and aerosols of bitumen was 1.8 (range 0.9-2.4) mg/m^sup 3^ during the application of rolled asphalt and 7.9 (range 4.9-11.9) mg/m^sup 3^ when mastic asphalt was applied. Area measurement of vapours and aerosols of bitumen revealed higher concentrations than the personal measurements for mastic asphalt (mastic asphalt: 34.9 mg/m^sup 3^; rolled asphalt: 1.8 mg/m^sup 3^). Processing mastic asphalt was associated also with higher PAH concentrations. Urinary 1-hydroxypyrene and the sum of 1-, 2+ 9-, 3- and 4-hydroxyphenanthrene increased slightly during shift without clear difference between mastic and rolled asphalt application. However, the post-shift urinary PAH-metabolite concentrations did not reflect the different PAH exposure during mastic and rolled asphalt application. Individual workers could be identified by their spirometry results indicating that these data reflect more chronic than acute effects. In most cases, an increase of 8-oxodGuo adducts was observed during shift that was independent of the asphalt application. 8-oxodGuo and (+)-anti-BPDE-DNA adducts were higher than in exposed workers of the Human Bitumen Study independent of the asphalt application. The DNA-strand breaks were considerably higher pre-shift and decreased during shift. In this study, mastic asphalt application led to significantly higher exposure to vapours and aerosols of bitumen, as well as to airborne PAH, compared to rolled asphalt application. Nevertheless, no differences in the excretion of urinary PAH metabolites, lung function impairment and genotoxic markers were detected. However, higher levels of genotoxicity markers on both examination days compared with the results of the Human Bitumen Study may indicate a possible influence of the specific tunnel setting.[PUBLICATION ABSTRACT] |
| Author | Brüning, Thomas Marczynski, Boleslaw Spickenheuer, Anne Pesch, Beate Rühl, Reinhold Bramer, Rainer Welge, Peter Heinze, Evelyn Raulf-Heimsoth, Monika Angerer, Jürgen Kendzia, Benjamin |
| Author_xml | – sequence: 1 givenname: Monika surname: Raulf-Heimsoth fullname: Raulf-Heimsoth, Monika email: raulf@ipa-dguv.de organization: Institute for Prevention and Occupational Medicine of German Social Accident Insurance, Institute of the Ruhr University Bochum (IPA) – sequence: 2 givenname: Boleslaw surname: Marczynski fullname: Marczynski, Boleslaw organization: Institute for Prevention and Occupational Medicine of German Social Accident Insurance, Institute of the Ruhr University Bochum (IPA) – sequence: 3 givenname: Anne surname: Spickenheuer fullname: Spickenheuer, Anne organization: Institute for Prevention and Occupational Medicine of German Social Accident Insurance, Institute of the Ruhr University Bochum (IPA) – sequence: 4 givenname: Beate surname: Pesch fullname: Pesch, Beate organization: Institute for Prevention and Occupational Medicine of German Social Accident Insurance, Institute of the Ruhr University Bochum (IPA) – sequence: 5 givenname: Peter surname: Welge fullname: Welge, Peter organization: Institute for Prevention and Occupational Medicine of German Social Accident Insurance, Institute of the Ruhr University Bochum (IPA) – sequence: 6 givenname: Reinhold surname: Rühl fullname: Rühl, Reinhold – sequence: 7 givenname: Rainer surname: Bramer fullname: Bramer, Rainer organization: Institute for Prevention and Occupational Medicine of German Social Accident Insurance, Institute of the Ruhr University Bochum (IPA) – sequence: 8 givenname: Benjamin surname: Kendzia fullname: Kendzia, Benjamin organization: Institute for Prevention and Occupational Medicine of German Social Accident Insurance, Institute of the Ruhr University Bochum (IPA) – sequence: 9 givenname: Evelyn surname: Heinze fullname: Heinze, Evelyn organization: Institute for Prevention and Occupational Medicine of German Social Accident Insurance, Institute of the Ruhr University Bochum (IPA) – sequence: 10 givenname: Jürgen surname: Angerer fullname: Angerer, Jürgen organization: Institute for Prevention and Occupational Medicine of German Social Accident Insurance, Institute of the Ruhr University Bochum (IPA), Institute and Outpatient Clinic of Occupational, Social and Environmental Medicine, University of Erlangen-Nuremberg – sequence: 11 givenname: Thomas surname: Brüning fullname: Brüning, Thomas organization: Institute for Prevention and Occupational Medicine of German Social Accident Insurance, Institute of the Ruhr University Bochum (IPA) |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/21360192$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1007_s00204_012_0959_3 crossref_primary_10_1007_s00204_011_0678_1 crossref_primary_10_1016_j_envres_2023_115824 crossref_primary_10_1080_10408444_2017_1391170 crossref_primary_10_1007_s00204_011_0680_7 crossref_primary_10_1007_s00420_016_1173_z crossref_primary_10_3389_fsysb_2022_928962 crossref_primary_10_3390_toxics10080480 crossref_primary_10_1007_s11869_019_00667_y |
| Cites_doi | 10.1093/carcin/23.2.273 10.1093/annhyg/mel001 10.1111/0272-4332.205059 10.1016/0006-291X(84)90411-X 10.1097/00008571-199804000-00003 10.1158/1055-9965.EPI-05-0562 10.1080/15287390801985315 10.1016/0014-4827(88)90265-0 10.1007/s00204-011-0677-2 10.1007/s00204-011-0680-7 10.1007/s00204-011-0682-5 10.1093/toxsci/46.1.11 10.1007/s00204-011-0681-6 10.1007/s00204-011-0679-0 |
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| Keywords | Genotoxic biomarkers Spirometry Mastic asphalt Rolled asphalt PAH metabolites Bitumen |
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| References | Bouchard, Krishnan, Vian (CR1) 1998; 46 Östling, Johanson (CR11) 1984; 123 CR2 Burstyn, Kromhout (CR4) 2000; 20 CR3 Lintelmann, Angerer, Angerer, Schaller (CR6) 1999 Raulf-Heimsoth, Angerer, Pesch, Marczynski, Hahn, Spickenheuer, Preuss, Rühl, Rode, Brüning (CR13) 2008; 71 Rojas, Alexandrov, Cascorbi, Brockmöller, Likhachev, Pozharisski, Bouvier, Auburtin, Mayer, Kopp-Schneider, Roots, Bartsch (CR16) 1998; 8 CR5 Marczynski, Rihs, Rossbach, Hölzer, Angerer, Scherenberg, Hoffmann, Brüning, Wilhelm (CR7) 2002; 23 CR9 CR15 CR14 CR12 Rühl, Musanke, Kolmsee, Prieß, Zoubek, Breuer (CR17) 2006; 50 CR20 Marczynski, Raulf-Heimsoth, Preuss, Kappler, Schott, Pesch, Zoubek, Hahn, Mensing, Angerer, Käfferlein, Brüning (CR8) 2006; 15 Singh, McCoy, Tice, Schneider (CR18) 1988; 175 (CR10) 2000 685_CR2 M Raulf-Heimsoth (685_CR13) 2008; 71 M Rojas (685_CR16) 1998; 8 O Östling (685_CR11) 1984; 123 B Marczynski (685_CR7) 2002; 23 NP Singh (685_CR18) 1988; 175 685_CR9 685_CR5 685_CR3 J Lintelmann (685_CR6) 1999 M Bouchard (685_CR1) 1998; 46 R Rühl (685_CR17) 2006; 50 685_CR15 685_CR14 685_CR12 B Marczynski (685_CR8) 2006; 15 NIOSH (685_CR10) 2000 685_CR20 I Burstyn (685_CR4) 2000; 20 |
| References_xml | – volume: 23 start-page: 273 year: 2002 end-page: 281 ident: CR7 article-title: Analysis of 8-oxo-7, 8-dihydro-2’-deoxyguanosine and DNA strand breaks in white blood cells of occupationally exposed workers: comparison with ambient monitoring, urinary metabolites and enzyme polymorphisms publication-title: Carcinogenesis doi: 10.1093/carcin/23.2.273 contributor: fullname: Wilhelm – ident: CR3 – ident: CR14 – ident: CR15 – ident: CR2 – volume: 50 start-page: 459 year: 2006 end-page: 468 ident: CR17 article-title: Vapours and aerosols of bitumen: exposure data obtained by the German Bitumen Forum publication-title: Ann Occup Hyg doi: 10.1093/annhyg/mel001 contributor: fullname: Breuer – volume: 20 start-page: 653 year: 2000 end-page: 663 ident: CR4 article-title: Are the members of a paving crew uniformly exposed to bitumen fume, organic vapour, and Benzo(a)pyrene? publication-title: Risk Anal doi: 10.1111/0272-4332.205059 contributor: fullname: Kromhout – ident: CR12 – 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| SubjectTerms | Adolescent Adult Aerosols Air Pollutants, Occupational - metabolism Air Pollutants, Occupational - toxicity Asphalt Biomarkers Biomarkers - urine Biomedical and Life Sciences Biomedicine Construction Materials - toxicity DNA Adducts DNA Breaks Dose-Response Relationship, Drug Employment - classification Environmental Health Environmental Monitoring - methods Genotoxicity and Carcinogenicity Hazardous materials Health risk assessment Human exposure Humans Hydrocarbons - metabolism Hydrocarbons - toxicity Inhalation Exposure - adverse effects Inhalation Exposure - analysis Male Middle Aged Occupational Exposure - adverse effects Occupational Exposure - analysis Occupational health Occupational Medicine/Industrial Medicine Pharmacology/Toxicology Polycyclic Aromatic Hydrocarbons - urine Respiratory Function Tests Risk Assessment Toxicology Volatilization Young Adult |
| Title | Bitumen workers handling mastic versus rolled asphalt in a tunnel: assessment of exposure and biomarkers of irritation and genotoxicity |
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