一种将交通噪音与人类心血管疾病联系起来的神经生物学机制。

A neurobiological mechanism linking transportation noise to cardiovascular disease in humans.

作者信息

Osborne Michael T, Radfar Azar, Hassan Malek Z O, Abohashem Shady, Oberfeld Blake, Patrich Tomas, Tung Brian, Wang Ying, Ishai Amorina, Scott James A, Shin Lisa M, Fayad Zahi A, Koenen Karestan C, Rajagopalan Sanjay, Pitman Roger K, Tawakol Ahmed

机构信息

Department of Radiology, Cardiac Imaging Research Center, Massachusetts General Hospital, 165 Cambridge St, Suite 400, Boston, MA 02114, USA.

Cardiology Division, Department of Medicine, Massachusetts General Hospital, Harvard Medical School, 55 Fruit St, Boston, MA 02114-2750, USA.

出版信息

Eur Heart J. 2020 Feb 1;41(6):772-782. doi: 10.1093/eurheartj/ehz820.

DOI:10.1093/eurheartj/ehz820

PMID:31769799

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7006229/

Abstract

AIMS

Chronic noise exposure associates with increased cardiovascular disease (CVD) risk; however, the role of confounders and the underlying mechanism remain incompletely defined. The amygdala, a limbic centre involved in stress perception, participates in the response to noise. Higher amygdalar metabolic activity (AmygA) associates with increased CVD risk through a mechanism involving heightened arterial inflammation (ArtI). Accordingly, in this retrospective study, we tested whether greater noise exposure associates with higher: (i) AmygA, (ii) ArtI, and (iii) risk for major adverse cardiovascular disease events (MACE).

METHODS AND RESULTS

Adults (N = 498) without CVD or active cancer underwent clinical 18F-fluorodeoxyglucose positron emission tomography/computed tomography imaging. Amygdalar metabolic activity and ArtI were measured, and MACE within 5 years was adjudicated. Average 24-h transportation noise and potential confounders were estimated at each individual's home address. Over a median 4.06 years, 40 individuals experienced MACE. Higher noise exposure (per 5 dBA increase) predicted MACE [hazard ratio (95% confidence interval, CI) 1.341 (1.147-1.567), P < 0.001] and remained robust to multivariable adjustments. Higher noise exposure associated with increased AmygA [standardized β (95% CI) 0.112 (0.051-0.174), P < 0.001] and ArtI [0.045 (0.001-0.090), P = 0.047]. Mediation analysis suggested that higher noise exposure associates with MACE via a serial mechanism involving heightened AmygA and ArtI that accounts for 12-26% of this relationship.

CONCLUSION

Our findings suggest that noise exposure associates with MACE via a mechanism that begins with increased stress-associated limbic (amygdalar) activity and includes heightened arterial inflammation. This potential neurobiological mechanism linking noise to CVD merits further evaluation in a prospective population.

摘要

目的

长期暴露于噪音与心血管疾病（CVD）风险增加相关；然而，混杂因素的作用及潜在机制仍未完全明确。杏仁核是参与应激感知的边缘系统中枢，参与对噪音的反应。较高的杏仁核代谢活性（AmygA）通过涉及动脉炎症（ArtI）加剧的机制与CVD风险增加相关。因此，在这项回顾性研究中，我们测试了更高的噪音暴露是否与更高的：（i）AmygA，（ii）ArtI，以及（iii）主要不良心血管疾病事件（MACE）风险相关。

方法和结果

无CVD或活动性癌症的成年人（N = 498）接受了临床18F-氟脱氧葡萄糖正电子发射断层扫描/计算机断层扫描成像。测量了杏仁核代谢活性和ArtI，并判定了5年内的MACE情况。在每个个体的家庭住址估计了平均24小时交通噪音和潜在混杂因素。在中位4.06年期间，40人发生了MACE。更高的噪音暴露（每增加5分贝）预测了MACE [风险比（95%置信区间，CI）1.341（1.147 - 1.567），P < 0.001]，并且在多变量调整后仍然稳健。更高的噪音暴露与AmygA增加相关 [标准化β（95% CI）0.112（0.051 - 0.174），P < 0.001] 和ArtI增加相关 [0.045（0.001 - 0.090），P = 0.047]。中介分析表明，更高的噪音暴露通过涉及AmygA和ArtI加剧的连续机制与MACE相关，该机制占这种关系的12 - 26%。

结论

我们的研究结果表明，噪音暴露通过一种始于与应激相关的边缘系统（杏仁核）活动增加并包括动脉炎症加剧的机制与MACE相关。这种将噪音与CVD联系起来的潜在神经生物学机制值得在前瞻性人群中进一步评估。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/07c2/7006229/58045bf9d0be/ehz820f5.jpg

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一种将交通噪音与人类心血管疾病联系起来的神经生物学机制。

A neurobiological mechanism linking transportation noise to cardiovascular disease in humans.

作者信息

机构信息

出版信息

AIMS

METHODS AND RESULTS

CONCLUSION

目的

方法和结果

结论

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