O'Lenick Cassandra R, Cleland Stephanie E, Neas Lucas M, Turner Mallory W, Mcinroe E Melissa, Hill K Lloyd, Ghio Andrew J, Rebuli Meghan E, Jaspers Ilona, Rappold Ana G
Center for Environmental Medicine, Asthma, and Lung Biology, School of Medicine, and.
Clinical Research Branch, U.S. Environmental Protection Agency, Chapel Hill, North Carolina.
Ann Am Thorac Soc. 2025 Mar;22(3):367-377. doi: 10.1513/AnnalsATS.202405-470OC.
Extreme heat exposure is a well-known cause of mortality among older adults. However, the impacts of exposure on respiratory morbidity across U.S. cities and population subgroups are not well understood. A nationwide study was conducted to determine the impact of high heat on respiratory disease hospitalizations among older adults (≥65 yr of age) living in the 120 largest U.S. cities between 2000 and 2017. Daily rates of inpatient respiratory hospitalizations were examined with respect to variations in ZIP code-level daily mean temperature or heat index. For each city, we estimated cumulative associations (lag days 0-6) between warm-season heat (June to September) and cause-specific respiratory hospitalizations using time-stratified conditional quasi-Poisson regression with distributed lag nonlinear models. We estimated nationwide associations using multivariate meta-regression and updated city-specific associations via best linear unbiased prediction. With stratified models, we explored effect modification by age, sex, and race (Black or White). Results are reported as percentage change in hospitalizations at high temperatures (95th percentile) compared with median temperatures for each outcome, demographic group, and metropolitan area. We identified 3,275,033 respiratory hospitalizations among Medicare beneficiaries across 120 large U.S. cites between 2000 and 2017. Nationwide, 7-day cumulative associations at high temperatures resulted in a 1.2% (95% confidence interval, 0.4-2.0%) increase in hospitalizations for primary diagnoses of all-cause respiratory disease, driven primarily by increases in respiratory tract infections (1.8% [95% confidence interval, 0.6-3.0%]) and chronic respiratory diseases and/or respiratory failure (1.2% [95% confidence interval, 0.0-2.4%]). Stronger associations were observed when exposure was defined using the heat index instead of mean temperature. Across the 120 cities, we observed considerable geographic variation in the relative risk of heat-related respiratory hospitalizations, and we observed disproportionate burdens of heat-related respiratory hospitalizations among the oldest beneficiaries (≥85 yr of age) and among Black beneficiaries living in South Atlantic cities. During the 18-year study period, there were an estimated 11,710 excess respiratory hospitalizations due to heat exposure. Results suggest that high temperature and humidity contribute to exacerbation of respiratory tract infections and chronic lung diseases among older adults. Geographic variation in heat-related hospitalization rates suggests that contextual factors largely account for disproportionate burdens, and area-level influences should be further investigated in multicity studies.
高温暴露是老年人死亡的一个众所周知的原因。然而,高温暴露对美国各城市及不同人群亚组的呼吸道疾病发病率的影响尚不清楚。本研究在全国范围内开展,以确定高温对2000年至2017年间居住在美国120个最大城市的老年人(≥65岁)呼吸道疾病住院率的影响。根据邮政编码区域的日平均温度或热指数变化,对住院患者的每日呼吸道疾病住院率进行了检查。对于每个城市,我们使用时间分层条件准泊松回归和分布滞后非线性模型,估计了暖季高温(6月至9月)与特定病因呼吸道疾病住院之间的累积关联(滞后天数0-6天)。我们使用多变量meta回归估计全国范围内的关联,并通过最佳线性无偏预测更新特定城市的关联。通过分层模型,我们探讨了年龄、性别和种族(黑人或白人)对效应的修正作用。结果报告为高温(第95百分位数)下住院率相对于各结局、人口亚组和大都市区中位数温度的百分比变化。在2000年至2017年间,我们在美国120个大城市的医疗保险受益人中确定了3,275,033例呼吸道疾病住院病例。在全国范围内,高温下7天的累积关联导致所有病因呼吸道疾病主要诊断的住院率增加1.2%(95%置信区间,0.4-2.0%),主要由呼吸道感染增加(1.8%[95%置信区间,0.6-3.0%])以及慢性呼吸道疾病和/或呼吸衰竭(1.2%[95%置信区间,0.0-2.4%])所致。当使用热指数而非平均温度来定义暴露时,观察到更强的关联。在这120个城市中,我们观察到与高温相关的呼吸道疾病住院相对风险存在相当大的地理差异,并且在年龄最大的受益人(≥85岁)以及居住在南大西洋城市的黑人受益人中,观察到与高温相关的呼吸道疾病住院负担过重。在18年的研究期间,估计有11,710例因高温暴露导致的额外呼吸道疾病住院病例。结果表明,高温和湿度会加剧老年人的呼吸道感染和慢性肺部疾病。与高温相关的住院率的地理差异表明,背景因素在很大程度上导致了负担不均,在多城市研究中应进一步调查地区层面的影响因素。
