From the Department of Epidemiology, Biostatistics, and Occupational Health, McGill University, Montreal, Canada.
Air Health Science Division, Health Canada, Ottawa, Canada.
Epidemiology. 2023 Nov 1;34(6):897-905. doi: 10.1097/EDE.0000000000001651. Epub 2023 Sep 26.
Oxidative stress plays an important role in the health impacts of both outdoor fine particulate air pollution (PM 2.5 ) and thermal stress. However, it is not clear how the oxidative potential of PM 2.5 may influence the acute cardiovascular effects of temperature.
We conducted a case-crossover study of hospitalization for cardiovascular events in 35 cities across Canada during the summer months (July-September) between 2016 and 2018. We collected three different metrics of PM 2.5 oxidative potential each month in each location. We estimated associations between lag-0 daily temperature (per 5ºC) and hospitalization for all cardiovascular (n = 44,876) and ischemic heart disease (n = 14,034) events across strata of monthly PM 2.5 oxidative potential using conditional logistical models adjusting for potential time-varying confounders.
Overall, associations between lag-0 temperature and acute cardiovascular events tended to be stronger when outdoor PM 2.5 oxidative potential was higher. For example, when glutathione-related oxidative potential (OP GSH ) was in the highest tertile, the odds ratio (OR) for all cardiovascular events was 1.040 (95% confidence intervals [CI] = 1.004, 1.074) compared with 0.980 (95% CI = 0.943, 1.018) when OP GSH was in the lowest tertile. We observed a greater difference for ischemic heart disease events, particularly for older subjects (age >70 years).
The acute cardiovascular health impacts of summer temperature variations may be greater when outdoor PM 2.5 oxidative potential is elevated. This may be particularly important for ischemic heart disease events.
氧化应激在户外细颗粒物空气污染(PM 2.5)和热应激对健康的影响中起着重要作用。然而,目前尚不清楚 PM 2.5 的氧化势如何影响温度对急性心血管事件的影响。
我们在 2016 年至 2018 年夏季(7 月至 9 月)期间,在加拿大 35 个城市进行了一项心血管事件住院的病例交叉研究。我们每月在每个地点收集三种不同的 PM 2.5 氧化势指标。我们使用条件逻辑回归模型,在每月 PM 2.5 氧化势的分层中,估计滞后 0 天的日温度(每 5°C)与所有心血管(n=44876)和缺血性心脏病(n=14034)住院事件之间的关联,调整潜在的时变混杂因素。
总体而言,当户外 PM 2.5 氧化势较高时,滞后 0 天的温度与急性心血管事件之间的关联往往更强。例如,当谷胱甘肽相关氧化势(OP GSH)处于最高三分位时,所有心血管事件的比值比(OR)为 1.040(95%置信区间[CI] = 1.004, 1.074),而当 OP GSH 处于最低三分位时,OR 为 0.980(95% CI = 0.943, 1.018)。我们观察到缺血性心脏病事件的差异更大,特别是对于年龄较大的患者(年龄>70 岁)。
当户外 PM 2.5 氧化势升高时,夏季温度变化对急性心血管健康的影响可能更大。这对于缺血性心脏病事件可能尤为重要。
