Occupational Asthma and Its Causation in the UK Seafood Processing Industry

doi:10.1093/annweh/wxaa055

. 2020 Oct 8;64(8):817-825.

doi: 10.1093/annweh/wxaa055.

Occupational Asthma and Its Causation in the UK Seafood Processing Industry

Howard J Mason¹, Melanie Carder², Annemarie Money², Gareth Evans¹, Martin Seed², Raymond Agius², Martie van Tongeren²

Affiliations

¹ Health and Safety Executive Science and Research Centre, Biohazards Team, Harpur Hill, Buxton, UK.
² Centre for Occupational and Environmental Health, University of Manchester, Manchester, UK.

PMID: 32491156
PMCID: PMC7543999
DOI: 10.1093/annweh/wxaa055

Occupational Asthma and Its Causation in the UK Seafood Processing Industry

Howard J Mason et al. Ann Work Expo Health. 2020.

. 2020 Oct 8;64(8):817-825.

doi: 10.1093/annweh/wxaa055.

Authors

Howard J Mason¹, Melanie Carder², Annemarie Money², Gareth Evans¹, Martin Seed², Raymond Agius², Martie van Tongeren²

Affiliations

¹ Health and Safety Executive Science and Research Centre, Biohazards Team, Harpur Hill, Buxton, UK.
² Centre for Occupational and Environmental Health, University of Manchester, Manchester, UK.

PMID: 32491156
PMCID: PMC7543999
DOI: 10.1093/annweh/wxaa055

Abstract

Objectives: The processing of seafood (fish and shellfish) for human consumption can lead to health consequences, including occupational asthma (OA). Several non-UK studies have reported both respiratory outcomes and airborne levels of major allergens in seafood processing. However, there is a paucity of such evidence in the UK land-based seafood processing sector, which employs some 20 000 workers.

Methods: University of Manchester's Surveillance of Work-related and Occupational Respiratory Disease (SWORD) reporting system has been interrogated over the period 1992-2017 to define the incidence rate of OA cases that can be ascribed to the UK land-based processing sector, and the seafood species implicated. Airborne allergen monitoring data undertaken at Health and Safety Executive's laboratory from 2003 to 2019 have also been collated.

Results: The estimated annual OA incidence rate in seafood processors was 70 [95% confidence intervals (CIs) 48.9, 91.1] per 100 000 workers compared with 2.9 (95% CIs 2.8, 3.1) in 'all other industries'. The annual calculated percentage trend in OA (1992-2017) was -8.1% (95% CIs -15.9, 0.4) in seafood processing showing a similar trend to 'all other industries' (mean -7.0%; 95% CIs -7.8, -6.1). Prawns and salmon/trout were notably implicated by SWORD as causative species related to OA. There is a general paucity of available UK airborne allergen monitoring data, particularly concerning processing salmon or trout. Available airborne monitoring for salmon parvalbumin in seven processors ranged between the limit of detection and 816 ng m-3 (n = 64). Available air monitoring levels of the major shellfish allergen (tropomyosin) during processing of crabs and prawns ranged between 1 and 101 600 ng m-3 (n = 280), highlighting that high levels of exposure can occur.

Conclusions: These data show an excess incidence of OA in the UK seafood processing industry during 1992-2017, with limited airborne monitoring data for the processing of prawn, crab, and salmon suggesting that significant exposure to major seafood allergens can occur in this industry. Further investigation of current levels of respiratory ill-health and the sources of allergen exposure are warranted.

Keywords: allergens; asthma incidence rate; asthmagens; fish; occupational asthma; parvalbumin; seafood processing; shellfish; tropomyosin.

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Comment in

Letter to the Editor, 'Occupational Asthma and Its Causation in the UK Seafood Processing Industry'. Do Not Forget Preservatives and Endotoxins.
Lucas D, Gourier G, Pougnet R, Dewitte JD, Loddé B. Lucas D, et al. Ann Work Expo Health. 2021 Jul 3;65(6):738-739. doi: 10.1093/annweh/wxaa137. Ann Work Expo Health. 2021. PMID: 33616174 No abstract available.

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References

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1. Carder M, Hussey L, Money A et al. (2017) The Health and Occupation Research Network: an evolving surveillance system. Saf Health Work; 8: 231–6. - PMC - PubMed
1. Carder M, McNamee R, Gittins M et al. (2017) Time trends in the incidence of work-related ill-health in the UK, 1996–2016: estimation from THOR surveillance data. Report to the UK Health and Safety Executive. Manchester, UK: Centre for Occupational and Environmental Health, University of Manchester.
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[1] Barraclough R, Walker J, Hamilton N et al. (2006) Sensitization to king scallop (Pectin maximus) and queen scallop (Chlamys opercularis) proteins. Occup Med; 56: 63–6. - PubMed

[2] Barraclough R, Walker J, Hamilton N et al. (2006) Sensitization to king scallop (Pectin maximus) and queen scallop (Chlamys opercularis) proteins. Occup Med; 56: 63–6. - PubMed

[3] Carder M, Hussey L, Money A et al. (2017) The Health and Occupation Research Network: an evolving surveillance system. Saf Health Work; 8: 231–6. - PMC - PubMed

[4] Carder M, Hussey L, Money A et al. (2017) The Health and Occupation Research Network: an evolving surveillance system. Saf Health Work; 8: 231–6. - PMC - PubMed

[5] Carder M, McNamee R, Gittins M et al. (2017) Time trends in the incidence of work-related ill-health in the UK, 1996–2016: estimation from THOR surveillance data. Report to the UK Health and Safety Executive. Manchester, UK: Centre for Occupational and Environmental Health, University of Manchester.

[6] Carder M, McNamee R, Gittins M et al. (2017) Time trends in the incidence of work-related ill-health in the UK, 1996–2016: estimation from THOR surveillance data. Report to the UK Health and Safety Executive. Manchester, UK: Centre for Occupational and Environmental Health, University of Manchester.

[7] Carder M, McNamee R, Turner S et al. (2011) Improving estimates of specialist-diagnosed, work-related respiratory and skin disease. Occup Med (Lond); 61: 33–9. - PubMed

[8] Carder M, McNamee R, Turner S et al. (2011) Improving estimates of specialist-diagnosed, work-related respiratory and skin disease. Occup Med (Lond); 61: 33–9. - PubMed

[9] Dahlman-Höglund A, Renström A, Larrson P et al. (2012) Salmon allergen exposure, occupational exposure and respiratory symptoms among salmon processing workers. Am J Ind Med; 55: 624–30. - PubMed

[10] Dahlman-Höglund A, Renström A, Larrson P et al. (2012) Salmon allergen exposure, occupational exposure and respiratory symptoms among salmon processing workers. Am J Ind Med; 55: 624–30. - PubMed

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Occupational Asthma and Its Causation in the UK Seafood Processing Industry

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Occupational Asthma and Its Causation in the UK Seafood Processing Industry

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