15 个德国城市温度与特定原因死亡率之间关联的时间变化。

Temporal variation in the association between temperature and cause-specific mortality in 15 German cities.

机构信息

Institute of Epidemiology, Helmholtz Zentrum München, German Research Center for Environmental Health, Neuherberg, Germany; Institute for Medical Information Processing, Biometry, and Epidemiology -IBE, Pettenkofer School of Public Health LMU Munich, Munich, Germany.

出版信息

Environ Res. 2023 Jul 15;229:115668. doi: 10.1016/j.envres.2023.115668. Epub 2023 Mar 22.

DOI:10.1016/j.envres.2023.115668

PMID:36958378

Abstract

BACKGROUND

There is limited evidence of temporal changes in the association between air temperature and the risk of cause-specific cardiovascular [CVD] and respiratory [RD] mortality.

METHOD

We explored temporal variations in the association between short-term exposures to air temperature and non-accidental and cause-specific CVD and RD mortality in the 15 largest German cities over 24 years (1993-2016) using time-stratified time series analysis. We applied location-specific confounder-adjusted Poisson regression with distributed lag non-linear models with a lag period of 14 days to estimate the temperature-mortality associations. We then pooled the estimates by a multivariate meta-analytical model. We analysed the whole study period and the periods 1993-2004 and 2005-16, separately. We also carried out age- and sex-stratified analysis. Cold and heat effects are reported as relative risk [RR] at the 1st and the 99th temperature percentile, relative to the 25th and the 75th percentile, respectively.

RESULT

We analysed a total of 3,159,292 non-accidental, 1,063,198 CVD and 183,027 RD deaths. Cold-related RR for CVD mortality was seen to rise consistently over time from 1.04 (95% confidence interval [95% CI] 1.02, 1.06) in the period 1993-2004 to 1.10 (95% CI 1.09, 1.11) in the period 2005-16. A similar increase in cold-related RR was also observed for RD mortality with risk increasing from 0.99 (95% CI 0.96, 1.03) to 1.07 (95% CI 1.03, 1.10). Cold-related ischemic, cerebrovascular, and heart failure mortality risk were seen to be increasing over time. Similarly, COPD, the commonly speculated driver of heat-related RD mortality was found to have a constant heat-related risk over time. Males were increasingly vulnerable to cold with time for all causes of death. Females showed increasing sensitivity to cold for CVD mortality. Our results indicated a significant increased cold and heat vulnerability of the youngest age-groups (<64) to non-accidental and RD mortality, respectively. Similarly, the older age group (>65) were found to have significantly increased susceptibility to cold for CVD mortality.

CONCLUSION

We found evidence of rising population susceptibility to both heat- and cold-related CVD and RD mortality risk from 1993 to 2016. Climate change mitigation and targeted adaptation strategies might help to reduce the number of temperature-related deaths in the future.

摘要

背景

目前有关气温与特定心血管[CVD]和呼吸[RD]疾病死亡率之间关联的时间变化的证据有限。

方法

我们使用时间分层时间序列分析，在 24 年间（1993-2016 年）探索了德国 15 个最大城市短期暴露于气温与非意外和特定 CVD 和 RD 死亡率之间的关联的时间变化。我们应用具有 14 天分布滞后非线性模型的位置特异性混杂因素调整泊松回归来估计温度-死亡率关联。然后，我们通过多变量荟萃分析模型对估计值进行汇总。我们分析了整个研究期间以及 1993-2004 年和 2005-16 年的时间段。我们还进行了年龄和性别分层分析。寒冷和炎热效应分别以第 1 和第 99 个温度百分位相对于第 25 和第 75 个温度百分位相对于 25 和第 75 个温度百分位的相对风险[RR]报告。

结果

我们共分析了 3159292 例非意外死亡，1063198 例 CVD 死亡和 183027 例 RD 死亡。从 1993-2004 年期间的 1.04（95％置信区间[95％CI] 1.02，1.06）到 2005-16 年期间的 1.10（95％CI 1.09，1.11），CVD 死亡率与寒冷相关的 RR 持续上升。对于 RD 死亡率，也观察到与寒冷相关的 RR 呈相似的增加趋势，风险从 0.99（95％CI 0.96，1.03）增加到 1.07（95％CI 1.03，1.10）。与寒冷相关的缺血性、脑血管和心力衰竭死亡率风险随着时间的推移而增加。同样，被认为是与热相关的 RD 死亡率的常见驱动因素的 COPD 也被发现随着时间的推移具有恒定的与热相关的风险。随着时间的推移，男性对所有原因的死亡都越来越容易受到寒冷的影响。女性对 CVD 死亡率的寒冷敏感性逐渐增加。我们的结果表明，最年轻的年龄组（<64 岁）对非意外和 RD 死亡率的寒冷和热脆弱性分别显著增加。同样，年龄较大的年龄组（>65 岁）对 CVD 死亡率的寒冷敏感性显著增加。