Subgroup Effects
Cross-source consensus on Subgroup Effects from 1 sources and 5 claims.
1 sources · 5 claims
How it works
Risks & contraindications
Comparisons
Highlighted claims
- The associations of PM2.5, PM10, and NO2 with pulmonary embolism incidence were significant in females at cumulative lag 01. — Association between ambient air pollution exposure levels and the risk of developing pulmonary embolism in the Chinese population: findings from the Chinese Cardiovascular Association (CCA) Database–Chest Pain Centre
- PM2.5, PM10, and SO2 had significant cold-season effects on pulmonary embolism incidence. — Association between ambient air pollution exposure levels and the risk of developing pulmonary embolism in the Chinese population: findings from the Chinese Cardiovascular Association (CCA) Database–Chest Pain Centre
- PM2.5 and PM10 had significant effects on pulmonary embolism development in northern China. — Association between ambient air pollution exposure levels and the risk of developing pulmonary embolism in the Chinese population: findings from the Chinese Cardiovascular Association (CCA) Database–Chest Pain Centre
- The study found no sex difference in the effects of SO2, CO, or O3 exposure. — Association between ambient air pollution exposure levels and the risk of developing pulmonary embolism in the Chinese population: findings from the Chinese Cardiovascular Association (CCA) Database–Chest Pain Centre
- Lower temperatures and greater heating activity were proposed as possible reasons for stronger northern associations. — Association between ambient air pollution exposure levels and the risk of developing pulmonary embolism in the Chinese population: findings from the Chinese Cardiovascular Association (CCA) Database–Chest Pain Centre