Abstract
This case involves a 36 year old non-smoker who worked in a factory producing food flavourings for potato crisps. He developed exertional breathlessness associated with fixed airway obstruction shortly after an uncharacteristically high exposure to the food flavouring chemical diacetyl. Unfortunately, even though he was removed from further exposure to this agent, his symptoms and spirometry did not improve.
BACKGROUND
This is the first documented UK example of bronchiolitis obliterans resulting from occupational exposure to diacetyl containing food flavouring.
CASE PRESENTATION
The patient was a 36-year-old man who had never smoked and had no relevant family history. He kept dogs and a cat and for 4 years had spent about 30 minutes daily in pig husbandry. From 2004 he worked in a factory producing food flavourings, principally for potato crisps/chips, having worked previously as a baker/food processor, warehouse packer/dispatcher, shop stock controller, driver and pest controller. A routine health check in May 2004 was unremarkable, and spirometry in November 2004 was normal. In mid to late summer 2005 he developed undue exertional breathlessness which was moderately disabling when first reported in August 2005. It showed no obvious variability, and so appeared unrelated to his animal contacts. He was not aware of wheeze or cough, but had chest tightness. He noted no benefit from the use of asthma medications, including oral steroid, and a serum α1-antitrypsin measurement was normal.
He worked irregularly with diacetyl, which was used at various concentrations in a number of flavouring products. During a particular work shift in April 2005 he used diacetyl at the highest concentration in a product that was needed urgently. Because of this, the heated diacetyl-containing mixture was managed unusually in unsealed containers and, because he substituted for an absent workmate, he worked with diacetyl (and recognised its odour) for an unusually long period–several hours compared with the usual 30 min. During the last few hours of this shift his eyes became sore and reddened, and a sticky conjunctival secretion developed soon after. He was treated topically with steroid and antihistamine, but resolution required several days. He had no respiratory symptoms, and spirometry remained normal when remeasured in June 2005.
INVESTIGATIONS
By the time of his evaluation by a respiratory physician in December 2005 his breathlessness was stable, and there was no abnormality on physical examination. Spirometry gave 2.25/3.60 (respectively 64% and 87% predicted), and both the carbon monoxide transfer factor and transfer coefficient exceeded predicted values. A flow-volume study was suggestive of small airway disease, with flow at 75%, 50% and 25% of total lung capacity being reduced disproportionately to the reduction in forced expiratory volume in 1 s (to 41%, 33% and 27% of predicted, respectively, vs 64%). Flow between 75% and 25% of total lung capacity was 30% of predicted. Plain chest radiographs and CT scans (inspiratory and expiratory) were unremarkable, and skin prick tests with common allergens were negative. Figure 1 shows the serial spirometric measurements.
Figure 1. Spirometric measurements of patient between November 2004 and July 2007.
FEV1, forced expiratory volume in 1 s; FVC, forced vital capacity. Bronchodilator inhalation produced no more than a minor and inconsistent improvement. NB. The initial measurements of November 2004 and June 2005 were not obtained from an accredited lung function laboratory and may be underestimated.
DIFFERENTIAL DIAGNOSIS
Occupational asthma.
TREATMENT
Removal from exposure to diacetyl.
OUTCOME AND FOLLOW-UP
Ongoing exposure to diacetyl was restricted from December 2005 and he was placed on permanent “sick leave” in December 2006 before ceasing employment in March 2007. None of these changes was associated with any change in disability or spirometry.
DISCUSSION
Evidence that bronchiolitis obliterans could result from inhaled popcorn flavouring ingredients was first published in 2002.1,2 Its recognition in eight former workers from a single American factory packaging popcorn for microwave use led to the appellation “popcorn worker’s lung”. It was sufficiently severe in four cases that lung transplantation was considered. Investigations by the National Institute for Occupational Safety and Health showed that the prevalence of fixed airway obstruction among continuing employees was 3.3-fold that expected; that bronchiolitis obliterans could be detected in workers from four of five subsequently studied microwave popcorn plants; and that a prominent ingredient providing a butter taste (the oily organic chemical 2,3-butanedione (diacetyl)) could cause airway necrosis when inhaled by laboratory animals.
The development, over a few months, of fixed airway obstruction of moderate severity in the case reported here is most readily attributed to bronchiolitis obliterans, and exposure to diacetyl provides the most likely explanation. Although no other examples had been published from outside the USA by the time this case came to light, a paper has very recently described four Dutch cases from a chemical plant making diacetyl.3 “Popcorn worker’s lung” is consequently more widespread than is generally supposed, and is occurring in settings unrelated to popcorn. “Food flavourer’s lung” might be a more appropriate diagnostic label.
It is tempting with the present case to speculate whether the unusual work shift of April 2005, with high diacetyl exposure, played a critical role. Diacetyl is known to pose a risk of ocular toxicity, and American experience has shown that bronchiolitis obliterans may progress for some months after exposure ceases. However, spirometry in June 2005 remained normal, and symptoms were not recognised for a further 1–2 months.
No evidence at present suggests that diacetyl is hazardous when ingested, but the possibility is not lightly dismissed. A number of orally administered drugs are known to cause inflammatory/fibrotic reactions at the bronchiolar level, similar to paraquat and a notorious batch of adulterated cooking oil.4 More relevant is the ingestion, as an appetite suppressant, of leaf extracts from the Asian shrub Sauropus androgynus which also induces life-threatening bronchiolitis obliterans.5 The inhalation of acramin (a garment dye) and fragmented synthetic polymer fibres completes a recently observed causal spectrum for the development of subacute bronchiolar disease.6,7 With causes of such a disparate nature–both inhaled and ingested–it may be prudent to look out for others.
LEARNING POINTS
Bronchiolitis obliterans is a cause of fixed airway obstruction and may result from inhalation or ingestion of a diverse range of organic molecules
Diacetyl is a food flavouring agent which has the potential to cause bronchiolitis in exposed food production workers.
Popcorn worker’s lung is occurring in other countries than the USA and in other settings than the production of microwave popcorn.
Acknowledgments
This article has been adapted with permission from Hendrick DJ. “Popcorn worker’s lung” in Britain in a man making potato crisp flavouring. Thorax 2008;63:267–8.
Footnotes
Competing interests: None.
REFERENCES
- 1.Anon Fixed obstructive lung disease in workers at a microwave popcorn factory – Missouri, 2000–2002. MMWR 2002; 51: 345–7 [PubMed] [Google Scholar]
- 2.Kreiss K, Gomaa A, Kullman G, et al. Clinical bronchiolitis obliterans in workers at a microwave-popcorn plant. N Engl J Med 2002; 347: 330–8 [DOI] [PubMed] [Google Scholar]
- 3.van Rooy FBGJ, Rooyackers JM, Prokop M, et al. Bronchiolitis obliterans syndrome in chemical workers producing diacetyl for food flavourings. Am J Respir Crit Care Med 2007; 176: 498–504 [DOI] [PubMed] [Google Scholar]
- 4.Fernadez-Segoviano P, Esteban A, Martinez-Cabruja R. Pulmonary vascular lesions in the toxic oil syndrome in Spain. Thorax 1983; 38: 724. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 5.Chang H, Wang JS, Tseng HIT, et al. Histopathological study of Sauropus androgynus associated constrictive bronchiolitis obliterans: a new cause of constrictive bronchiolitis obliterans. Am J Surg Pathol 1997; 21: 35–42 [DOI] [PubMed] [Google Scholar]
- 6.Moya C, Anto JM, Newman Taylor AJ, et al. Outbreak of organising pneumonia in textile printing sprayers. Lancet 1994; 343: 498–502 [DOI] [PubMed] [Google Scholar]
- 7.Kern DG, Crausman RS, Durand KTH, et al. Flock worker’s lung: chronic interstitial lung disease in the nylon flocking industry. Ann Intern Med 1998; 129: 261–72 [DOI] [PubMed] [Google Scholar]
