4 research outputs found
Excess Winter Mortality and Cold Temperatures in a Subtropical City, Guangzhou, China
<div><p>Background</p><p>A significant increase in mortality was observed during cold winters in many temperate regions. However, there is a lack of evidence from tropical and subtropical regions, and the influence of ambient temperatures on seasonal variation of mortality was not well documented.</p> <p>Methods</p><p>This study included 213,737 registered deaths from January 2003 to December 2011 in Guangzhou, a subtropical city in Southern China. Excess winter mortality was calculated by the excess percentage of monthly mortality in winters over that of non-winter months. A generalized linear model with a quasi-Poisson distribution was applied to analyze the association between monthly mean temperature and mortality, after controlling for other meteorological measures and air pollution.</p> <p>Results</p><p>The mortality rate in the winter was 26% higher than the average rate in other seasons. On average, there were 1,848 excess winter deaths annually, with around half (52%) from cardiovascular diseases and a quarter (24%) from respiratory diseases. Excess winter mortality was higher in the elderly, females and those with low education level than the young, males and those with high education level, respectively. A much larger winter increase was observed in out-of-hospital mortality compared to in-hospital mortality (45% vs. 17%). We found a significant negative correlation of annual excess winter mortality with average winter temperature (r<sub>s</sub>=-0.738, P=0.037), but not with air pollution levels. A 1 °C decrease in monthly mean temperature was associated with an increase of 1.38% (95%CI:0.34%-2.40%) and 0.88% (95%CI:0.11%-1.64%) in monthly mortality at lags of 0-1 month, respectively.</p> <p>Conclusion</p><p>Similar to temperate regions, a subtropical city Guangzhou showed a clear seasonal pattern in mortality, with a sharper spike in winter. Our results highlight the role of cold temperature on the winter mortality even in warm climate. Precautionary measures should be strengthened to mitigate cold-related mortality for people living in warm climate.</p> </div
The dose-response relationship between average monthly temperature and monthly mortality using a natural spline function with a degree freedom of 3.
<p>The dose-response relationship between average monthly temperature and monthly mortality using a natural spline function with a degree freedom of 3.</p
A map of Guangzhou showing the location of Guangzhou weather station (marked by triangles) and seven air pollution monitoring stations (marked by a star).
<p>The six urban districts included in the present study are labeled by number 1-6.</p
Daily mean temperatures (blue dots) and daily number of all-cause deaths (red dots) in Guangzhou, China.
<p>The line represents monthly average and winter months are highlighted in grey.</p