Abstract
OBJECTIVESThis study investigated the modification of temperature effects on cardiovascular and respiratory mortality by air pollutants (particulate matter less than 2.5 and 10 µm in diameter [respectively], ozone, nitrogen dioxide, carbon monoxide, and sulfur dioxide).METHODSPoisson additive models with a penalized distributed lag non-linear model were used to assess the association of air temperature with the daily number of deaths from cardiovascular and respiratory diseases in Ahvaz, Iran from March 21, 2014 to March 20, 2018, controlling for day of the week, holidays, relative humidity, wind speed, air pollutants, and seasonal and long-term trends. Subgroup analyses were conducted to evaluate the effect modification for sex and age group. To assess the modification of air pollutants on temperature effects, the level of each pollutant was categorized as either greater than the median value or less than/equal to the median value.RESULTSWe found no significant associations between temperature and cardiovascular and respiratory mortality. In the subgroup analyses, however, high temperatures were significantly associated with an increased risk of cardiovascular mortality among those 75 years old and older, with the strongest effect observed on day 0 relative to exposure. The results revealed a lack of interactive effects between temperature and air pollutants on cardiovascular and respiratory mortality.CONCLUSIONSA weak but significant association was found between high temperature and cardiovascular mortality, but only in elderly people. Air pollution did not significantly modify the effect of ambient temperature on cardiovascular and respiratory mortality.
Highlights
Among the causes of mortality, cardiovascular diseases (CVD) and respiratory diseases are the most strongly associated with temperature [1,2]
We investigated the association of temperature with cardiovascular and respiratory mortality and effect modification by air pollutants in Ahvaz, Iran using a generalized additive model combined with the penalized distributed lag non-linear model (DLNM)
Heat effects on cardiovascular mortality were observed immediately, with the largest effect at lag 0, and cold effects appeared after 2 days and continued until day 7
Summary
Among the causes of mortality, cardiovascular diseases (CVD) and respiratory diseases are the most strongly associated with temperature [1,2]. Because CVD and respiratory diseases are the most common causes of death worldwide [3], investigation of this association is of great importance. To investigate the association between temperature and mortality, a model is required that takes into account both non-linearity and delayed effects. The DLNM was extended to form a framework termed the penalized DLNM in 2017 [7]. With this model, it is possible to calculate the cumulative effects [4,6,8]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
