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Environmental Determinants of Cognitive Aging in the WHI Memory Study

WHI 记忆研究中认知衰老的环境决定因素

基本信息

批准号：
8643556
负责人：
Jiu-Chiuan Chen
金额：
$ 56.93万
依托单位：
UNIVERSITY OF SOUTHERN CALIFORNIA
依托单位国家：
美国
项目类别：
财政年份：
2011
资助国家：
美国
起止时间：
2011-03-15 至 2017-02-28
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/8643556
关键词：
Address Adverse effects Affect Age Air Air Pollutants Air Pollution Alzheimer&apos s Disease Amyloid Animal Model Area Atherosclerosis Attention Autopsy Blood - brain barrier anatomy Blood Vessels Brain Brain region Caliber Canis familiaris Cardiovascular Diseases Cerebrovascular Disorders Clinical Cognitive Cognitive aging Cohort Studies Cox Models Cross-Sectional Studies Data Data Analyses Dementia Elderly Enrollment Ensure Environmental Hazards Environmental Health Epidemiology Exposure to Goals Health Health Policy Hippocampus (Brain)Human Impaired cognition Individual Individual Differences Inflammation Knowledge Link Magnetic Resonance Imaging Measurement Memory Memory impairment Modeling Monitor Neuritis Neurocognitive Neurodegenerative Disorders Neurology Neuropsychology Outcome Output Oxidative Stress Ozone Participant Particulate Matter Pattern Population Predisposition Psychometrics Public Health Quality of life Reaction Research Research Personnel Risk Scientist Stroke Structural Models Structure System Testing Time Vascular Dementia Vascular Diseases White Matter Hyperintensity Woman Women&apos s Health aged aging brain air sampling base brain volume cardiovascular disorder risk cerebrovascular cerebrovascular lesion cognitive function cost design experience follow-up frontal lobe hippocampal atrophy ischemic lesion men mortality neuroimaging neuroinflammation neuropathology neurotoxic neurotoxicity novel older women prefrontal lobe public health relevance residence spatiotemporal

项目摘要

DESCRIPTION (provided by applicant): The long-term goal of this project is to better understand the environmental influence on brain aging and subsequent risk of cognitive impairment and dementia. Specifically, we will investigate later-life exposure to ambient air pollutants as novel environmental determinants of cognitive aging in a susceptible population of older women. Over the last decade, scientific research has repeatedly shown that ambient air pollution increases cardiovascular disease (CVD) risk and mortality. Previous studies have found that older people, especially women, are more sensitive to these adverse health effects of air pollutants. Although CVD is a major contributor to cognitive impairment and dementia, little attention has been directed to the potential impact of ambient air pollution on cognitive health of the elderly. Memory impairments have been demonstrated in animal models exposed to ozone. Neurotoxicological data have shown that exposures to ambient air pollutants induce oxidative stress and neuroinflammation in multiple brain regions, especially in hippocampus and prefrontal region. Air pollution toxicopathological studies also found evidence of accelerated brain aging (e.g., 2-amyloid accumulation with or without dystrophic neuritis) in canines. Human autopsy studies and cross-sectional epidemiologic analyses have related ambient air pollution to neuropathology of brain aging or cognitive impairment, respectively. Convincing cohort studies on whether and how ambient air pollution contributes to brain aging and subsequent risk of cognitive impairment and dementia in humans, however, are still lacking. The proposed study is thus designed in a cost-efficient manner to address this critical knowledge gap, through the following specific aims: (1) to examine whether later-life exposure to air pollution predicts declines in cognitive function (global; specific domains); (2) to investigate whether long-term air pollution exposure increases the risk of dementia; (3) to elucidate the possible mechanisms linking cognitive impairment with exposure to air pollution; and (4) to identify the clinical determinants of population susceptibility to the neurocognitive effects of air pollution. This application leverages the high-quality longitudinal outcome data collected in the well-characterized Women's Health Initiative Memory Study (WHIMS) cohort (N=7479; aged 65-80 years). Based on residential geocode of each WHIMS participant, exposures to particulate matter and ozone will be estimated by a spatiotemporal modeling approach, which integrates air-sample measurements from the U.S. EPA monitoring system with the data outputs of air quality models. Multivariable-adjusted Cox models, multilevel mixed-effect models, and latent curve structural models will be used to analyze the data. The knowledge gained from this study will contribute to national efforts to better understand the environmental influence on cognitive health, address a critical knowledge gap in the emerging area of environmental neurology, and inform the environmental public health policies.

描述(申请人提供)：本项目的长期目标是更好地了解环境对大脑老化的影响，以及随后认知障碍和痴呆症的风险。具体地说，我们将调查老年女性易感人群晚年暴露于环境空气污染物中，作为认知衰老的新环境决定因素。在过去的十年里，科学研究一再表明，环境空气污染会增加心血管疾病(CVD)的风险和死亡率。此前的研究发现，老年人，尤其是女性，对空气污染物对健康的这些不利影响更加敏感。尽管心血管疾病是认知障碍和痴呆症的主要诱因，但环境空气污染对老年人认知健康的潜在影响却鲜有人关注。暴露在臭氧中的动物模型已经证明了记忆障碍。神经毒理学数据表明，暴露在环境空气污染物中会导致多个脑区的氧化应激和神经炎症，特别是在海马区和前额叶区域。空气污染毒理学研究还发现了犬脑老化加速的证据(例如，患有或不伴有营养不良神经炎的2-淀粉样蛋白积聚)。人类尸检研究和横断面流行病学分析分别将环境空气污染与大脑老化或认知障碍的神经病理联系起来。然而，关于环境空气污染是否以及如何导致人类大脑老化以及随后的认知障碍和痴呆症风险的令人信服的队列研究仍然缺乏。因此，拟议的研究旨在以经济高效的方式解决这一关键的知识鸿沟，通过以下具体目标：(1)检查晚年暴露在空气污染中是否预测认知功能下降(全球；特定领域)；(2)调查长期暴露在空气污染中是否会增加患痴呆症的风险；(3)阐明认知障碍与暴露于空气污染之间的可能机制；以及(4)确定人群对空气污染的神经认知影响的临床决定因素。这一应用利用了在具有良好特征的妇女健康倡议记忆研究(WHIMS)队列(N=7479；年龄65-80岁)中收集的高质量纵向结果数据。根据每个突发事件参与者的住宅地理编码，将通过时空建模方法估计暴露在颗粒物和臭氧中的量，该方法将美国环保局监测系统的空气样本测量与空气质量模型的数据输出相结合。将使用多变量调整的Cox模型、多水平混合效应模型和潜在曲线结构模型来分析数据。从这项研究中获得的知识将有助于国家努力更好地了解环境对认知健康的影响，解决环境神经学新兴领域的关键知识差距，并为环境公共卫生政策提供信息。