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  • 1.
    Löfstedt, Håkan
    et al.
    Örebro universitet, Institutionen för hälsovetenskaper. Department of Occupational and Environmental Medicine, Örebro University Hospital, Örebro, Sweden.
    Hagström, Katja
    Department of Occupational and Environmental Medicine, Faculty of Medicine and Health Örebro University, Örebro, Sweden.
    Bryngelsson, Ing-Liss
    Department of Occupational and Environmental Medicine, Faculty of Medicine and Health Örebro University, Örebro, Sweden.
    Holmström, Mats
    Division of Ear, Nose and Throat Diseases, Department of Clinical Science, Intervention and Technology, Karolinska Institutet, Stockholm, Sweden.
    Rask-Andersen, Anna
    Department of Medical Sciences, Occupational and Environmental Medicine, Uppsala University, Uppsala, Sweden.
    Respiratory symptoms and lung function in relation to wood dust and monoterpene exposure in the wood pellet industry2017Inngår i: Upsala Journal of Medical Sciences, ISSN 0300-9734, E-ISSN 2000-1967, Vol. 122, nr 2, s. 78-84Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    INTRODUCTION: Wood pellets are used as a source of renewable energy for heating purposes. Common exposures are wood dust and monoterpenes, which are known to be hazardous for the airways. The purpose of this study was to study the effect of occupational exposure on respiratory health in wood pellet workers.

    MATERIALS AND METHODS: Thirty-nine men working with wood pellet production at six plants were investigated with a questionnaire, medical examination, allergy screening, spirometry, and nasal peak expiratory flow (nasal PEF). Exposure to wood dust and monoterpenes was measured.

    RESULTS: The wood pellet workers reported a higher frequency of nasal symptoms, dry cough, and asthma medication compared to controls from the general population. There were no differences in nasal PEF between work and leisure time. A lower lung function than expected (vital capacity [VC], 95%; forced vital capacity in 1 second [FEV1], 96% of predicted) was noted, but no changes were noted during shifts. There was no correlation between lung function and years working in pellet production. Personal measurements of wood dust at work showed high concentrations (0.16-19 mg/m(3)), and exposure peaks when performing certain work tasks. Levels of monoterpenes were low (0.64-28 mg/m(3)). There was no association between exposure and acute lung function effects.

    CONCLUSIONS: In this study of wood pellet workers, high levels of wood dust were observed, and that may have influenced the airways negatively as the study group reported upper airway symptoms and dry cough more frequently than expected. The wood pellet workers had both a lower VC and FEV1 than expected. No cross-shift changes were found.

  • 2.
    Löfstedt, Håkan
    et al.
    Örebro universitet, Institutionen för hälsovetenskap och medicin.
    Westerlund, Jessica
    Örebro universitet, Institutionen för hälsovetenskap och medicin.
    Graff, Pål
    Örebro universitet, Institutionen för hälsovetenskap och medicin.
    Bryngelsson, Ing-Liss
    Department of Occupational and Environmental Medicine, Faculty of Medicine and Health, Örebro University, Örebro, Sweden.
    Mölleby, Göte
    Department of Occupational and Environmental Medicine, Faculty of Medicine and Health, Örebro University, Örebro, Sweden.
    Olin, Anna-Carin
    Sahlgrenska Academy at University of Gothenburg, Gothenburg, Sweden.
    Eriksson, Kåre
    Umeå University, Umeå, Sweden.
    Westberg, Håkan
    Örebro universitet, Institutionen för naturvetenskap och teknik.
    Respiratory and ocular symptoms among employees at Swedish indoor swimming poolsManuskript (preprint) (Annet vitenskapelig)
  • 3.
    Löfstedt, Håkan
    et al.
    Örebro universitet, Institutionen för hälsovetenskaper. Department of Occupational and Environmental Medicine, Faculty of Health and Medical Sciences, Örebro University, Örebro, Sweden.
    Westerlund, Jessica
    Örebro universitet, Institutionen för medicinska vetenskaper. Department of Occupational and Environmental Medicine, Faculty of Health and Medical Sciences, Örebro University, Örebro, Sweden; Department of Clinical Medicine, Faculty of Health and Medical Sciences, Örebro University, Örebro, Sweden.
    Graff, Pål
    Örebro universitet, Institutionen för medicinska vetenskaper. Department of Occupational and Environmental Medicine, Örebro University Hospital, Örebro, Sweden.
    Bryngelsson, Ing-Liss
    Department of Occupational and Environmental Medicine, Faculty of Medicine and Health, Örebro University Hospital, Örebro, Sweden.
    Mölleby, Göte
    Department of Occupational and Environmental Medicine, Faculty of Medicine and Health, Örebro University Hospital, Örebro, Sweden.
    Olin, Anna-Carin
    Section of Occupational and Environmental Medicine, Department of Public Health and Community Medicine, Institute of Medicine, Sahlgrenska Academy, University of Gothenburg, Gothenburg, Sweden.
    Eriksson, Kåre
    Department of Occupational and Environmental Medicine, Umeå University, Umeå, Sweden.
    Westberg, Håkan
    Örebro universitet, Institutionen för naturvetenskap och teknik. Department of Occupational and Environmental Medicine, Faculty of Medicine and Health, Örebro University Hospital, Örebro, Sweden.
    Respiratory and Ocular Symptoms Among Employees at Swedish Indoor Swimming Pools2016Inngår i: Journal of Occupational and Environmental Medicine, ISSN 1076-2752, E-ISSN 1536-5948, Vol. 58, nr 12, s. 1190-1195Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    Background: This study investigated trichloramine exposure and prevalence of respiratory and ocular symptoms among Swedish indoor swimming pool workers.

    Methods: Questionnaires were distributed to pool workers and referents. Lung function and fraction of exhaled nitric oxide (FeNO) were measured before and after work. Exposure to trichloramine and trihalomethanes was measured over work shifts.

    Results: The mean personal trichloramine exposure was 36g/m(3). Significantly more exposed workers reported ocular and nasal symptoms. There were significant differences between groups in FeNO change following work, with exposed showing increased FeNO, which grew when analyses included only nonsmokers.

    Conclusions: The findings indicate that indoor swimming pool environments may have irritating effects on mucous membranes. FeNO data also indicate an inflammatory effect on central airways, but the clinical relevance is unclear. Low trichloramine levels found in this study were not associated with health effects.

  • 4.
    Westerlund, Jessica
    et al.
    Örebro universitet, Institutionen för medicinska vetenskaper. Department of Occupational and Environmental Medicine.
    Bryngelsson, Ing-Liss
    Department of Occupational and Environmental Medicine, Faculty of Medicine and Health, Örebro University, Örebro, Sweden.
    Löfstedt, Håkan
    Örebro universitet, Institutionen för hälsovetenskaper. Department of Occupational and Environmental Medicine.
    Eriksson, Kåre
    Department of Occupational and Environmental Medicine, Umeå University, Umeå, Sweden.
    Westberg, Håkan
    Örebro universitet, Institutionen för naturvetenskap och teknik. Department of Occupational and Environmental Medicine.
    Graff, Pål
    Örebro universitet, Institutionen för medicinska vetenskaper. Department of Occupational and Environmental Medicine, Faculty of Medicine and Health, Örebro University, Örebro, Sweden; Department of Chemical and Biological Work Environment, National Institute of Occupational Health, Oslo, Norway.
    Occupational exposure to trichloramine and trihalomethanes: adverse health effects among personnel in habilitation and rehabilitation swimming pools2019Inngår i: Journal of Occupational and Environmental Hygiene, ISSN 1545-9624, E-ISSN 1545-9632, Vol. 16, nr 1, s. 78-88Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    Personnel in swimming pool facilities typically experience ocular, nasal, and respiratory symptoms due to water chlorination and consequent exposure to disinfection by-products in the air. The aim of the study was to investigate exposure to trichloramine and trihalomethanes (chloroform, bromodichloromethane, dibromochloromethane, and bromoform) from the perspective of adverse health effects on the personnel at Swedish habilitation and rehabilitation swimming pools. The study included ten habilitation and rehabilitation swimming pool facilities in nine Swedish cities. The study population comprised 24 exposed swimming pool workers and 50 unexposed office workers. Personal and stationary measurements of trichloramine and trihalomethanes in air were performed at all the facilities. Questionnaires were distributed to exposed workers and referents. Spirometry, fraction of exhaled nitric oxide (FENO) and peak expiratory flow (PEF) were measured. Personal and stationary measurements yielded trichloramine levels of 1-76 µg/m3 (average: 19 µg/m3) and 1-140 µg/m3 (average: 23 µg/m3), respectively. A slightly higher, but not significant, prevalence of reported eye- and throat-related symptoms occurred among the exposed workers than among the referents. A significantly increased risk of at least one ocular symptom was attributed to trichloramine exposure above the median (20 µg/m3). Lung function (FVC and FEV1) was in the normal range according to the Swedish reference materials, and no significant change in lung function before and after shift could be established between the groups. Average FENO values were in the normal range in both groups, but the difference in the values between the exposed workers and referents showed a significant increase after shift. Hourly registered PEF values during the day of the investigation did not show any unusual individual variability. In conclusion, the increased risk of developing at least one ocular symptom at personal trichloramine concentrations over 20 µg/m3 combined with an increase in the difference in FENO during the work shift of the exposed workers should not be neglected as an increased risk of respiratory inflammation in the habilitation and rehabilitation swimming pool environment.

  • 5.
    Westerlund, Jessica
    et al.
    Örebro universitet, Institutionen för hälsovetenskap och medicin.
    Graff, Pål
    Örebro universitet, Institutionen för hälsovetenskap och medicin.
    Bryngelsson, Ing-Liss
    Department of Occupational and Environmental Medicine, Örebro University Hospital, Örebro, Sweden.
    Westberg, Håkan
    Örebro universitet, Institutionen för naturvetenskap och teknik.
    Eriksson, Kåre
    Department of Public Health and Clinical Medicine, Occupational and Environmental Medicine, Umeå University, Umeå, Sweden.
    Löfstedt, Håkan
    Örebro universitet, Institutionen för hälsovetenskap och medicin.
    Occupational Exposure to Trichloramine and Trihalomethanes in Swedish Indoor Swimming Pools: Evaluation of Personal and Stationary Monitoring2015Inngår i: Annals of Occupational Hygiene, ISSN 0003-4878, E-ISSN 1475-3162, Vol. 59, nr 8, s. 1074-1084Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    Introduction: Chlorination is a method commonly used to keep indoor swimming pool water free from pathogens. However, chlorination of swimming pools produces several potentially hazardous by-products as the chlorine reacts with nitrogen containing organic matter. Up till now, exposure assessments in indoor swimming pools have relied on stationary measurements at the poolside, used as a proxy for personal exposure. However, measurements at fixed locations are known to differ from personal exposure.

    Methods: Eight public swimming pool facilities in four Swedish cities were included in this survey. Personal and stationary sampling was performed during day or evening shift. Samplers were placed at different fixed positions around the pool facilities, at similar to 1.5 m above the floor level and 0-1 m from the poolside. In total, 52 personal and 110 stationary samples of trichloramine and 51 personal and 109 stationary samples of trihalomethanes, were collected.

    Results: The average concentration of trichloramine for personal sampling was 71 mu g m(-3), ranging from 1 to 240 mu g m(-3) and for stationary samples 179 mu g m(-3), ranging from 1 to 640 mu g m(-3). The air concentrations of chloroform were well below the occupational exposure limit (OEL). For the linear regression analysis and prediction of personal exposure to trichloramine from stationary sampling, only data from personal that spent > 50% of their workday in the pool area were included. The linear regression analysis showed a correlation coefficient (r (2)) of 0.693 and a significant regression coefficient beta of 0.621; (95% CI = 0.329-0.912, P = 0.001).

    Conclusion: The trichloramine exposure levels determined in this study were well below the recommended air concentration level of 500 mu g m(-3); a WHO reference value based on stationary sampling. Our regression data suggest a relation between personal exposure and area sampling of 1:2, implying an OEL of 250 mu g m(-3) based on personal sampling.

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