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Characterization of occupational exposure to air contaminants in modern tunnelling operations.
Ann Occup Hyg. 2014 Aug;58(7):818-29
Publication Type
Berit Bakke
Bente Ulvestad
Yngvar Thomassen
Torill Woldbaek
Dag G Ellingsen
Ann Occup Hyg. 2014 Aug;58(7):818-29
Publication Type
Aerosols - analysis
Air Pollutants, Occupational - analysis
Carbon - analysis
Environmental monitoring
Follow-Up Studies
Inhalation Exposure - analysis
Likelihood Functions
Occupational Exposure - analysis
Quartz - analysis
Vehicle Emissions - analysis
Personal air measurements of aerosols and gases among tunnel construction workers were performed as part of a 11-day follow-up study on the relationship between exposure to aerosols and gases and cardiovascular and respiratory effects.
Ninety tunnel construction workers employed at 11 available construction sites participated in the exposure study. The workers were divided into seven job groups according to tasks performed. Exposure measurements were carried out on 2 consecutive working days prior to the day of health examination. Summary statistics were computed using maximum likelihood estimation (MLE), and the procedure NLMIXED and LIFEREG in SAS was used to perform MLE for repeated measures data subject to left censoring and for calculation of within- and between-worker variance components.
The geometric mean (GM) air concentrations for the thoracic mass aerosol sub-fraction, a-quartz, oil mist, organic carbon (OC), and elemental carbon (EC) for all workers were 561, 63, 210, 146, and 35.2 µg m(-3), respectively. Statistical differences of air concentrations between job groups were observed for all contaminants, except for OC, EC, and ammonia (P > 0.05). The shaft drillers, injection workers, and shotcreting operators were exposed to the highest GM levels of thoracic dust (7061, 1087, and 865 µg m(-) (3), respectively). The shaft drillers and the support workers were exposed to the highest GM levels of a-quartz (GM = 844 and 118 µg m(-3), respectively). Overall, the exposure to nitrogen dioxide and ammonia was low (GM = 120 and 251 µg m(-) (3), respectively).
Findings from this study show significant differences between job groups with shaft drilling as the highest exposed job to air concentrations for all measured contaminants. Technical interventions in this job should be implemented to reduce exposure levels. Overall, diesel exhaust air concentrations seem to be lower than previously assessed (as EC).
PubMed ID
24902863 View in PubMed
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