Combined Effect of Air Pollution and Genetic Risk on Incident Cardiovascular Diseases.

IF 5 1区 医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS Journal of the American Heart Association Pub Date : 2024-11-19 Epub Date: 2024-11-15 DOI:10.1161/JAHA.123.033497
Tae-Min Rhee, Yunmi Ji, Seokhun Yang, Heesun Lee, Jun-Bean Park, Hyung-Kwan Kim, Yong-Jin Kim, Juyong Brian Kim, Sungho Won, Seung-Pyo Lee
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Abstract

Background: Whether genetic susceptibility to cardiovascular diseases (CVDs) enhances the vulnerability to adverse cardiovascular outcomes by air pollution is unknown. We assessed the combined effect of air pollution and genetic predispositions on CVD risk.

Methods and results: From the UK Biobank cohort, we selected genetically unrelated White British participants without CVD. Levels of ambient particulate matter with a diameter of <2.5 μm (PM2.5) and <10 μm were estimated using land use regression models. An individual's genetic predisposition to CVDs was determined by polygenic risk scores for coronary artery disease, myocardial infarction, stroke, ischemic stroke, heart failure, and atrial fibrillation. We stratified mortality and CVD risk by PM2.5 exposure across high and low genetic risk groups. A total of 249 082 participants (aged 56.9±8.0 years, 46.8% men) were followed for a median of 10.8 years. The combined effect of PM2.5 exposure and the genetic predisposition of CVD demonstrated the highest risk of cardiovascular death in the high genetic risk group with the greatest PM2.5 exposure (adjusted hazard ratios ranging from 1.73 to 2.12 across the polygenic risk score of each CVD). The combination of higher exposure to ambient PM2.5 and high genetic risk was associated with higher incidence of all CVDs, although no significant interactions were observed between genetic risk and PM2.5 exposure on cardiovascular death or CVD events.

Conclusions: A combination of greater PM2.5 exposure and higher genetic predisposition to particular CVDs was modestly associated with elevated risks of cardiovascular death and CVDs. Not only alleviating PM2.5 exposure in the general population but also implementing individualized preventive approach for those at high genetic risk might be beneficial.

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空气污染和遗传风险对心血管疾病发病率的综合影响。
背景:心血管疾病(CVDs)的遗传易感性是否会增加空气污染对心血管不良后果的易感性尚不清楚。我们评估了空气污染和遗传易感性对心血管疾病风险的综合影响:我们从英国生物库队列中挑选了没有心血管疾病、基因无关的英国白人参与者。直径为 2.5)的环境颗粒物水平和高低遗传风险组的 2.5 暴露水平。共对 249 082 名参与者(年龄为 56.9±8.0 岁,46.8% 为男性)进行了中位数为 10.8 年的跟踪调查。PM2.5暴露和心血管疾病遗传易感性的综合效应表明,PM2.5暴露量最大的高遗传风险组心血管疾病死亡风险最高(每种心血管疾病多基因风险评分的调整危险比从1.73到2.12不等)。较高的环境PM2.5暴露量和高遗传风险的组合与较高的所有心血管疾病发病率有关,尽管没有观察到遗传风险和PM2.5暴露量之间在心血管疾病死亡或心血管疾病事件方面有明显的相互作用:结论:较高的PM2.5暴露量和较高的特定心血管疾病遗传易感性的结合与心血管死亡和心血管疾病风险的升高有一定关系。不仅要减少普通人群的PM2.5暴露量,还要对高遗传风险人群采取个性化的预防措施,这可能是有益的。
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来源期刊
Journal of the American Heart Association
Journal of the American Heart Association CARDIAC & CARDIOVASCULAR SYSTEMS-
CiteScore
9.40
自引率
1.90%
发文量
1749
审稿时长
12 weeks
期刊介绍: As an Open Access journal, JAHA - Journal of the American Heart Association is rapidly and freely available, accelerating the translation of strong science into effective practice. JAHA is an authoritative, peer-reviewed Open Access journal focusing on cardiovascular and cerebrovascular disease. JAHA provides a global forum for basic and clinical research and timely reviews on cardiovascular disease and stroke. As an Open Access journal, its content is free on publication to read, download, and share, accelerating the translation of strong science into effective practice.
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