Occupational and environmental risk factors for respiratory symptoms in rural Beijing, China

Cor pulmonale is the second leading cause of death in China and mortality rates for this condition are reported to be approximately equal in males and females despite the low prevalence of tobacco smoking among females 1. The effect of cigarette smoking on lung function has been found to be considerably less among residents of China compared with those of Western countries 2. Although this may be due to lower daily cigarette consumption in China or ethnic differences, the possibility that other risk factors, such as exposure to outdoor or indoor air pollution 3–5 or occupational pollutants 6, 7, may also be responsible for chronic obstructive lung disease and cor pulmonale must be critically assessed.

A survey has been carried out on adults in randomly selected villages in two rural counties of the municipality of Beijing, China 8, using the International Union Against Tuberculosis and Lung Disease (IUATLD) Questionnaire on Bronchial Symptoms 9. A very low prevalence of asthma-like symptoms and self-reported asthma in the previous 12 months was found 8. In the present report, the relationship of occupational and environmental exposure to chemical, insecticide, fertilisers and emissions from domestic fuel to asthma symptoms, self-reported asthma and chronic respiratory symptoms in these rural communities is examined.

Methods

Results

A total of 22,528 males and females aged ≥15 yrs, representing 98% of all eligible subjects in 30 villages in the two rural counties in the municipality of Beijing, took part in the present study. The first county, Shunyi, has 7,442 and the second county, Tongxian, 15,119 residents in the above age group. The residents of the two counties were different in their age distribution, the proportion exposed to chemicals, insecticides and fertiliser at work, and their exposure to emissions from the types of domestic fuel used. There were no significant differences in the smoking habits of the residents of the two counties (table 1⇓).

When all subjects from the two counties were analysed together, significant differences in the age distribution between males and females were found; more males were found in the younger age groups and more females in the older age groups. In addition, males and females differed in their smoking habits; only 4% of females but 55% of males were smokers. A significantly higher proportion of males were exposed regularly to chemicals at work compared with females (19.7 versus 16.0%), but there were no differences in the proportion exposed to insecticides and fertilisers at work.

The age of onset of smoking and mean daily cigarette consumption for females and males are shown in figure 1⇓. Among current smokers, 31% of females and 38% of males had started smoking before the age of 20 yrs. Among smoking females, 32% smoked <10 cigarettes·day⁻¹ and ∼30% >20 cigarettes·day⁻¹. Among smoking males, 17% smoked <10 cigarettes·day⁻¹, whereas 47% smoked >20 cigarettes·day⁻¹.

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Fig. 1.—

Comparison of a) age of onset of smoking and b) daily cigarette consumption in females (□) and males (└).

Table 2⇓ shows the prevalence of respiratory symptoms, self-reported asthma attacks and use of asthma medications for each category of smoking habit. There were few exsmokers in the study, but they showed the highest prevalence of each of the respiratory symptoms. There was a dose-dependent trend in the association between cumulative cigarette consumption and prevalence of respiratory symptoms; the greater the cigarette consumption the higher the prevalence of respiratory symptoms. Compared with the current smokers, the exsmokers were significantly older (43.6±13.9 versus 56.3±14.4 yrs) and had smoked a significantly greater amount (17.6±15.1 versus 21.6±17.5 pack-yrs). Residents of Tongxian showed a higher prevalence of all respiratory symptoms compared to those of Shunyi irrespective of smoking habits (data not shown).

Table 3⇓ shows the prevalence of respiratory symptoms, self-reported asthma attacks and use of antiasthma medications according to reported exposure to materials in the workplace. Exposure to any chemical, insecticide or fertiliser at work was consistently associated with a significantly higher prevalence of all symptoms compared with those without such exposure. The prevalence of chronic cough and phlegm among those exposed to insecticides was higher in males than in females (6.1 and 6.7% versus 4.4 and 3.8%, respectively). Among those exposed to fertilisers, the prevalence of wheeze, awakening with shortness of breath and asthma attacks in the past 12 months was higher in females compared with males (4.4, 2.6 and 3.8% versus 3.1, 1.6 and 2.3%, respectively).

The use of cornstalk and manure as fuel was associated with a higher prevalence of respiratory symptoms compared to other types of fuel (table 4⇓).

Table 5⇓ shows that sex, age, smoking and county of residence were significant determinants of respiratory symptoms. Females showed a significantly higher risk of asthma and asthma-like symptoms but not chronic cough and phlegm. The risk of each of the respiratory symptoms increased significantly with age. Residents of Tongxian demonstrated a significantly higher risk of each of the respiratory symptoms than those of Shunyi. Exsmokers had the highest risk of each of the respiratory symptoms. There was a dose-dependent relationship between cumulative cigarette consumption and risk of having various respiratory symptoms. The risk for asthma and asthma-like symptoms increased significantly only for smokers of >20 pack-yrs, whereas the risk for chronic cough and phlegm increased significantly even for those who smoked <10 pack-yrs. After adjusting for the above factors, regular exposure to insecticide and fertiliser at work remained significantly associated with a high risk of almost all symptoms except for the association of exposure to insecticide with chest tightness and of exposure to fertiliser with asthma attacks during the last 12 months and chronic cough. The association of the use of cornstalk/manure as fuel with an increase in risk of respiratory symptoms was no longer significant after adjustment for other factors. The use of wood as fuel carried a significantly higher risk of chest tightness and chronic cough. No interaction was found between smoking and exposure to any chemicals, insecticides and fertilisers in relation to respiratory symptoms.

The above analysis was repeated separately for males and females. The findings in relation to age, smoking and county of residence were similar to those obtained for the whole population. With regular exposure to insecticide at work, males showed significantly higher risks of each of the respiratory symptoms with the exception of chest tightness, whereas females showed significantly higher risks of only chronic cough and chronic phlegm. With regular exposure to fertiliser, females had significantly higher risks of each of the respiratory symptoms with the exception of chronic cough, whereas males had significantly higher risks only of chest tightness and nocturnal cough (data not shown).

Discussion

In the present study, the relationship of occupational and environmental exposure to asthma symptoms, self-reported asthma and chronic respiratory symptoms, adjusted for the effect of age, sex and smoking, was examined. It was found that the prevalence of chronic cough and phlegm was low in the study population in rural Beijing, compared with that reported in industrialised countries that took part in the European Community Respiratory Health Survey and in the USA 12, 13. Buist et al. 2 additionally reported a lesser deficit in lung function associated with smoking among residents of China than that reported in Western countries. It has been postulated that the lesser effect in the Chinese may be due to a smaller amount being smoked 14. This deficit in degree of functional impairment might also be due to the later age of onset of smoking in China 14. In the present study, there was no opportunity to measure lung function. However, the later age of onset of smoking in this rural population and the smaller amount smoked were confirmed; these may account for the lower prevalence of respiratory symptoms.

A low prevalence of asthma symptoms and self-reported asthma attacks, and a much less frequent use of medication for asthma in rural Beijing than reported in industrialised countries, have previously been reported 8 and are similar to other observations from China 7. A Chinese version of the ISAAC questionnaire for studying asthma and asthma-like symptoms in children has been validated 13. The Chinese words used for wheeze and asthma in the present translation were exactly the same as those used in the Chinese ISAAC questionnaire. In the present survey, symptoms of asthma and chronic bronchitis were studied rather than doctor-diagnosed asthma and chronic bronchitis, thus, it is less likely that the low prevalence of asthma and bronchitis is due to failure of doctors to recognise the disease.

In the present study, it was found that females had a significantly higher risk of asthma-like symptoms and asthma attacks than males after adjusting for age, smoking, county of residence and other exposures. This finding has also been reported in other countries 15, 16, and the reason for the difference between the sexes is not known.

There is a dose-dependent relationship between cumulative cigarette consumption and prevalence of respiratory symptoms. The symptoms of chronic cough and phlegm increased significantly when cigarette consumption increased to >10–19 pack-yrs, whereas the prevalence of asthma-like symptoms increased significantly only in those who had smoked for >20–29 pack-yrs. The reason for this discrepancy in the effect of the amount smoked and type of respiratory symptoms is not clear. Exsmokers showed the highest prevalence of all symptoms, suggesting that they had had to give up smoking because of their symptoms. They were also older and had a greater cumulative cigarette consumption compared with the current smokers.

It was demonstrated that occupational exposure to insecticides was associated not only with increased asthma-like symptoms and asthma attacks, but also chronic respiratory symptoms. Approximately 4% of villagers were exposed regularly to insecticides containing mostly organophosphate and pyrethrin; these chemicals have been shown to give rise to asthma 17–20. A study of 1,939 farmers in Saskatchewan, Canada, found an increased risk of asthma associated with use of carbamate insecticides after adjusting for other confounders 21. Salome et al. 22 also reported that use of insecticide aerosols (containing pyrethrin or tetramethrin and others) triggered symptoms and a reduction in lung function in some people with asthma, and may increase airway hyperresponsiveness. Approximately 14% of the villagers in rural Beijing were occupationally exposed to fertilisers containing urea and exposure to fertilisers was associated with a significantly higher risk of respiratory symptoms. There have been no reports of association of fertiliser use with respiratory symptoms, although a higher prevalence of respiratory symptoms has been reported among workers in a chemical fertiliser plant, compared with unexposed controls 23, where high levels of exposure to ammonia probably account for the high prevalence of symptoms. The effect of fertiliser exposure on respiratory symptoms in females was greater than in males, whereas the effect of insecticide exposure was greater in males than in females. This could be related to differences in response between males and females to different exposures or differences in jobs related to females and males in the rural setting.

Air pollution due to the use of biomass fuel has been shown to be associated with chronic obstructive lung disease, especially in females 3, 4, 24, 25. It was found that ∼19% of the families used wood or biomass (cornstalk/manure), but mostly as an additional rather than the principal fuel. The risk of various respiratory symptoms using wood or biomass was higher than using “cleaner” fuels but this association was not significant. Thus, indoor air pollution due to fuel combustion in the 30 villages around Beijing was not found to be independently associated with respiratory symptoms. This is in contrast to results reported by Xu et al. 7, who found significantly increased risks of wheeze associated with using wood/hay and coal as fuel in the rural communities in the province of Anhui in China. In the rural communities studied here, each household used a mixture of different materials as fuel and use of biomass was infrequent. This may be the reason for the discrepancy in findings in relation to use of fuels and respiratory symptoms.

There are other limitations to the present study. Other factors that might contribute to chronic respiratory symptoms in China, such as outdoor air pollution and respiratory infections, were not addressed. Pulmonary tuberculosis and bronchiectasis are common diseases that are associated with increased respiratory symptoms and chronic airflow obstruction in China. The types of fuel used were self-reported and levels of air pollution in the indoor environment were not measured.

In summary, age, sex and smoking were identified as important determinants of respiratory symptoms in rural Beijing, China. Occupational exposure to chemicals, such as insecticides and fertilisers, also partly accounts for the increase in risk of respiratory symptoms.