Effects of Ambient Particulate Matter(PM10) on Peak Expiratory Flow and Respiratory Symptoms in Subjects with Bronchial Asthma During Yellow Sand Period.
10.4046/trd.2003.55.6.570
- Author:
Jeong Woong PARK
1
;
Young Hee LIM
;
Sun Young KYUNG
;
Chang Hyeok AN
;
Sang Pyo LEE
;
Seong Hwan JEONG
;
Young Su JU
Author Information
1. Deparment of Internal Medicine, Gachon Medical School, Gil Medical Center, Incheon, Korea. jsw@ghil.com
- Publication Type:Original Article
- Keywords:
Asian dust;
Bronchial asthma;
PM10
- MeSH:
Air Pollution;
Asian Continental Ancestry Group;
Asthma*;
Bronchial Provocation Tests;
Carbon;
Dust;
Heart;
Humans;
Kidney;
Liver;
Nebulizers and Vaporizers;
Nitrogen;
Particulate Matter;
Respiratory Rate;
Silicon Dioxide*;
Statistics as Topic
- From:Tuberculosis and Respiratory Diseases
2003;55(6):570-578
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
BACKGROUND: Ambient particles during Asian dust events are usually sized less than 10 micrometer, known to be associated with the adverse effects on the general populations. But, there has been no considerable evidence linking these particles to the adverse effects on airways. The objectives of this study was to investigate the possible adverse effects of Asian dust events on respiratory function and symptoms in subjects with bronchial asthma. PATIENTS AND METHODS: From march to June 2002, Asthmatic patients who were diagnosed with bronchial challenge test or bronchodilator response were enrolled. We divided them into three groups; mild, moderate, and severe, according to the severity. Subjects with other organ insufficiency such as heart, kidney, liver, and malignancy were excluded. All patients completed twice daily diaries and recorded peak flow rate, respiratory symptom, and daily activity. Daily and hourly mean pollutant levels of particulate matter <10 micrometer in diameter(PM10), nitrogen dioxide(NO2), sulphur dioxide(SO2), ozone(O3) and carbon monoxide(CO) were measured at the 10 different monitoring sites. RESULTS: Dust events occured 14 times during the study period. Daily averages of 4 air pollutant were measured with an increased level of PM10, decreased level of NO2 and SO2, and no change in CO during dust days compared to those during control days. An increase in PM10 concentration was associated with an increase of subjects with PEF variability of >20% (p<0.05), night time symptom(p<0.05), and a decrease in mean PEF (p<0.05), which were calculated by the longitudinal data analysis. Otherwise, there was no association between PM10 level and bronchodialtor inhaler, and daytime respiratory symptoms. CONCLUSIONS: This study shows evidence that ambient air pollution, especially PM10, during Asian dust events, could be one of the many aggravating factors at least in patients with airway diseases. This data can be used as a primary source to set up a new policy on air environmental control and to evaluate the safety of air pollution index. We also expect that this research will help identify precise components of dust, which are more linked to the adverse effects.
