Journal of Epidemiology and Community Health 1996;50(Supp 1):S59-S62 S59 J Epidemiol Community Health: first published as 10.1136/jech.50.Suppl_1.s59 on 1 April 1996. Downloaded from Asthma and ambient air pollution in Helsinki Antti Ponka, Mikko Virtanen Abstract increase the frequency of asthma attacks are Objective - To study whether ambient air not known with certainty. Nor is there adequate levels of sulphur dioxide (SO2), nitrogen information on the synergistic effects between dioxide (NO2), total suspended par- various pollutants and other factors such as ticulates (TSP), and ozone (03) affect the cold, the relative importance of the different number ofhospital admissions for asthma. causative factors, or the differences in sensi- Design - The associations between the tivity between the different age groups. The daily number of admissions and air pol- results of many studies have been impaired by lutants were analysed with Poisson re- small size of samples, confounding socio- gression, taking into account potential economic factors, insufficiently documented confounding factors by using the stand- levels of pollutants, and the biases in collecting ardised protocol of the APHEA project. information about illness. Setting - Helsinki, Finland, 1987-89. During recent years longitudinal studies have Patients and measurements - Patients ad- been used in these investigations because the mitted to hospitals through emergency populations studied serve as their own controls, rooms because of asthma (n = 2421). The eliminating a potential source of bias in cross daily mean concentration was 13-25 pg/m3 sectional studies.`811-14 Our study investigated for SO2, 33-41 pg/m' for NO2, 19-41 pg/m3 in daily time series the relationship of daily for 03, and 58-109 pg/m3 for TSP during hospital admissions to ambient air SO2, NO2, the different seasons. Values are means for 0,, and TSP concentrations, temperature, and various stations. The daily mean tem- relative humidity in Helsinki as part of a Euro- perature during the three year period was pean multicentre project. In particular, we in- + 5 4°C (range -37-27°C). vestigated whether the numbers of hospital Main results - Positive associations with admissions for asthma in different age groups admissions were observed for O3 levels in increase on days with high levels of pollutants. all children under 14 years, and for SO2 The methodology used was uniform for all levels in 15-64 year olds and among those A centres participating in the EEC APHEA older than 64. Significant associations project. 14 were also seen between admissions for di- gestive tract diseases (the control) and O3 levels. This suggests that the modelling, Methods which proved to be problematic, was un- or AIR POLLUTANTS AND METEOROLOGICAL satisfactory, it may be a statistical co- VARIABLES incidence. A rise in temperature was The pollution parameters used were 24 hour associated with a low number of ad- means for SO2, NO2, and TPS, an 8 hour mean http://jech.bmj.com/ missions for asthma among 0-14 year olds for 03 and 1 hour maximum values for SO2, and among 15-64 year olds, whereas NO2, and O3. The means of different stations humidity did not have a significant effect were used for all variables except 03, which on the number of admissions. was measured at one station only. Conclusions - It is possible than even low The city of Helsinki covers a relatively small level pollution may increase hospital ad- area, 185 km2. The main sources of air pol- missions for asthma. However, definitive lutants are energy production by coal fired and on September 30, 2021 by guest. Protected copyright. conclusions will be justified only after oil fired power plants, road traffic and, to a meta-analysis comprising several stud- small extent, industrialisation. Air pollution ies. The methodology was seen to have a measurements are conducted in Helsinki by strong effect on the results and stand- district municipal authorities. During the study ardised methods, possibly differing from period 1987-89, SO2 was measured hourly those for the study concerning mortality, by coulometric instruments at four automatic are needed to investigate the association monitoring stations, NO2 by chemilumin- between morbidity and ambient air pol- escence at two stations, and O3 by ultraviolet lutants. absorption at one station. The instruments are calibrated on a monthly basis for S02 and NO2, (J Epidemiol Comm Health 1996;50:(Supp 1)S59-S62) and bimonthly for O3, and as the results are followed continuously, any disturbance in their Helsinki City of the Environment, functioning is noticed immediately. Total sus- Sturenkatu 25, Several studies have shown an association be- pended particulates are collected by high vol- 00510 Helsinki tween ambient air pollutants and hospital ad- ume samplers at six stations, at four of them A Ponka missions or emergency room visits of patients every second day and at two every third day. M Virtanen with chronic obstructive pulmonary diseases At one weather station, measurements of tem- Correspondence to: including asthma, or asthma alone. The con- Dr A Ponka. perature and relative humidity are recorded centrations at which ambient air pollutants hourly. The total number of stations is eight; S60 Pdnka, Virtanen J Epidemiol Community Health: first published as 10.1136/jech.50.Suppl_1.s59 on 1 April 1996. Downloaded from four of them are situated in the centre of the Many attempts were made to reduce the town and four in the suburbs, at heights of number of uninterpretable results. Firstly, uni- 2-10 m. The sites of these stations have been form selection criteria for transformations were selected to represent the actual exposure of the selected for different age groups, and the effects population to ambient air pollutants. ofthe sinusoidals and differences between years were studied. The time plots showed that the seasonal patterns changed from year to year. THE MORBIDITY DATA Also, it seemed clear from both the plots and The data on morbidity comprise details on all the exploratory STL (Seasonal and trend de- patients admitted to hospitals for asthma via composition using Loess) 6 that the weekly pat- emergency wards in Helsinki in 1987-89. The terns change with time. These patterns were age groups 0-14 years, 15-65 years, and >64 modelled in many different ways, but no clear years were analysed separately. The diagnosis answer was found. of asthma is based on the Ninth International The number of sinusoidal terms was ori- Classification of Diseases (ICD-9 code 493) is- ginally restricted to six, but up to 19 were tried. sued by the World Health Organization. The Different sinusoidal terms for each year were number of admissions for diseases of the di- also tried, without success. Better adjustments gestive system (ICD 9 codes 520-579) was were found by using different trends and espe- studied similarly and used as a control. The cially different weekly dummies for each year. data concerning hospital admissions for ex- Although the STL decomposition suggested acerbations of asthma were obtained from the that the trend would differ between the days, register kept ofall episodes ofillnesses requiring this was found difficult to model using standard admission to hospital. The register contains regression methodology. On including more information on the dates of hospital stay, and sinusoidal terms, the results became more reas- on the diagnoses and ages of the patients. The onable, and the opposite was also true. This register, its comprehensive coverage, diagnostic could mean that there were some exceptional criteria, and quality assessment have been de- periods (heatwaves, etc) that the model was scribed in detail earlier.915 The population of not able to take into account. However, the Helsinki was 488 604 in 1987,491 148 in 1988, task of finding such periods proved impossible. and 491 777 in 1989. Another set of difficulties was encountered when determining the proper transformations for the pollutants. The data were rather kurtotic MISSING VALUES - that is, most of the values did not differ much The study period comprised 1096 days. In- from the mean, whereas there were some very formation on the concentration of TSP was extreme values. These extremes tended to dom- lacking for 375 days because of the sampling inate the fit if no transformations were used. strategy, and so were values for NO2 and SO2 In addition, the time plots seemed rather non- for 13 and four days, respectively. However, stationary. Logarithmic transformation was the frequencies of admissions during the days therefore used. In future, generalised additive with missing observations were similar to those models'7 in addition to the STL seem to be an on the other days. Thus, the effect of the attractive way of avoiding such problems. missing observations is probably small. The Lags of 0, 1, and 2 days and cumulative lags missing values were imputed from regression of up to 3 days were tried for the effects of all analysis. pollutants. For those of 03, cumulative lags up http://jech.bmj.com/ to 5 days were tried. The lags for untransformed values of temperature and humidity were MODELLING chosen from lags of 0, 1, and 2 days, and from The variables were included in the regression the averages of lag 0 and 1, and of lag 0, 1, analysis in the following order: (1) long term and 2 days. The lags for influenza epidemics trend, (2) season, (3) epidemics, (4) day of were chosen from lag 0 to 15 days. week, (5) holidays, and (6) temperature and on September 30, 2021 by guest. Protected copyright. relative humidity. The final analysis in- vestigating the association between average Results levels of pollutants measured at different sta- NUMBER OF ADMISSIONS tions and admission for asthma was made by There were altogether 2421 admissions to hos- Poisson regression analysis.