Occupation exposures and sperm morphology: a case-referent analysis of a multi-centre study.

OBJECTIVE: We examined occupational exposures and sperm morphology to establish whether exposures implicated differed from those affecting motile sperm concentration. METHODS: Computer aided sperm morphometric assessment was undertaken on morphology slides obtained as part of a multi-centre study in 1999-2002 of occupational factors in male infertility. Men attending 14 fertility clinics across the UK were recruited and gave a semen sample. Before results of the semen analysis were known, the men completed detailed questionnaires about their employment and lifestyle. Occupational exposures were assessed by occupational hygienists. Data were analysed using an unmatched case-referent design, allowing for clustering and for confounders. Three case definitions were used: poor morphology (normal morphology <4%), low motile sperm count (MSC) (<4.8×10(6)) and either condition. RESULTS: Morphology results were available for 1861/2011 men employed at the time of recruitment. Of these 1861, 296 (15.9%) had poor morphology; of the 2011with sperm count, 453 (22.5%) had low MSC; 654/1981 (33.0%) had either condition. Poor morphology, adjusted for confounding, was related to self-reported lifetime exposure to lead (OR=1.33; 95% CI 1.00 to 1.75). Low MSC was also related to self-reported lead and to hygienist-assessed glycol ether exposure. Self-reported use of paint stripper (OR=1.47; 95% CI 1.07 to 2.03) and lead, but not glycol ether, were significantly related to the combined case definition. CONCLUSIONS: While this study did not identify any occupational exposure uniquely related to sperm morphology, the capacity of the study to detect risk was increased by including morphology with sperm concentration and motility.

'Dippers' flu' and its relationship to PON1 polymorphisms.

OBJECTIVES: Sheep-dippers report an acute flu-like condition (dippers' flu: DF) but the cause and relation to chronic disability are unknown. METHODS: In a case-referent study previously reported, 175 sheep dippers with chronic disability and 234 referents, sheep dippers in good health, completed an interview with information on dipping, type of pesticide used and health for each year 1970-2000 and gave blood for typing of PON1 polymorphisms. RESULTS: Reports of DF were much higher (66.3% 116/175) in the chronically unwell than in those without chronic ill-health (18.0% 42/234: OR=8.99 95% CI 5.69-14.21). No significant relation was seen between reported exposures and DF in those with chronic illness, but risk was higher with concentrate handling in those without. An R allele at position 192 on PON1 related to reports of DF both in those with chronic illness (OR=2.04 95% CI 1.08-3.87) and in those who started dipping after 1969 and were not chronically unwell (OR=2.52 95%CI 1.00-6.37). Interaction between handling diazinon concentrate and PON1 (192R) increased the risk of DF. No precipitating factor was identified in a case-crossover analysis. In the group without chronic illness those with 192R developed DF earlier (risk ratio 2.49 95%CI 1.03-6.02). CONCLUSION: 'Dippers' flu' and chronic ill-health attributed to dipping share a common polymorphism (192R). The interaction between handling diazinon concentrate and PON1 genotype supports the conclusion that organophosphates may cause DF. Sheep dippers who are still healthy but experience 'dippers' flu' may be wise to further limit exposures to organophosphates.

Paraoxonase and susceptibility to organophosphorus poisoning in farmers dipping sheep.

OBJECTIVES: Human serum paraoxonase (PON1) hydrolyses organophosphate pesticides (OPs) entering the blood circulation and tissue fluid thus limiting toxicity. The PON1 coding region has two polymorphisms involving the amino acids at position 55 (Lt<--M) and 192 (Qt<--R), giving rise to isoenzymes which differ in their catalytic rate for the hydrolysis of OPs. We therefore hypothesized that individuals inheriting low activity isoforms of PON1 would be more liable to report symptoms of OP toxicity. METHODS: We have therefore investigated the relationship between PON1 genetic polymorphisms and PON1 activity in farmers reporting chronic ill health which they attributed to OP exposure whilst sheep dipping (cases) and farmers who carried out similar activities, but remained well (controls). Diazoxon, paraoxon and phenylacetate were used as substrates for PON1. Diazoxon is the active metabolite of diazinon, the sheep dip most commonly used in the UK. RESULTS: Cases were found to be more likely to have the R192 allele ( 0.01) and to have the L55 allele ( 0.05) than the controls. This combination of R and L genotypes was associated with lower PON1 activity towards diazoxon in both cases and controls. Farmers in the lowest quintile for the rate of serum diazoxon hydrolysis had a greater risk of being a case i.e. of reporting ill health (odds ratio 2.47 (95% CI 1.35-2.82)), than the other four quintiles of diazoxon hydrolysis. The rate of serum hydrolysis of paraoxon was greatest in cases and controls with the R/L haplotype (both 0.001). CONCLUSIONS: The farmers reporting chronic ill health due to organophosphate exposure have a higher proportion of the PON1-192R polymorphism associated with lower rates of diazoxon hydrolysis and lower rates of diazoxon hydrolysis than the controls and that their ill health may be explained by a lower ability to detoxify diazoxon.

Paraoxonase (PON1) polymorphisms in farmers attributing ill health to sheep dip.

Human serum paraoxonase (PON1) hydrolyses diazinonoxon, the active metabolite of diazinon, which is an organophosphate used in sheep dip. In a case-referent study, 175 farmers with ill health that they attributed to sheep dip nominated 234 referent farmers who also dipped sheep and whom they believed to be in good health. We calculated odds ratios for polymorphisms in PON1 at positions 192 and 55, and for PON1 activity with diazinonoxon as substrate. Cases were more likely than referents to have at least one R allele at position 192 (glutamine to arginine aminoacid substitution; odds ratio 1.93, 95% CI 1.24-3.01), both alleles of type LL (1.70, 1.07-2.68) at position 55, and to have diazoxonase activity below normal median (1.77, 1.18-2.67). Our results support the hypothesis that organophosphates contribute to the reported ill health of people who dip sheep.