Wang Meng, Zhou Xiao-Hua Andrew, Curl Cynthia, Fitzpatrick Annette, Vedal Sverre, Kaufman Joel
Department of Epidemiology and Environmental Health, School of Public Health and Health Professions, University at Buffalo, Buffalo, New York.
Department of Environmental and Occupational Health Sciences, School of Public Health, University of Washington, Seattle, Washington.
Environ Epidemiol. 2023 Feb 7;7(1):e242. doi: 10.1097/EE9.0000000000000242. eCollection 2023 Feb.
Air pollution effects on cognitive function have been increasingly recognized. Little is known about the impact of different sources of fine particulate (PM). We aim to evaluate the associations between long-term air pollution exposure, including source-specific components in PM, and cognition in older adults.
Cognitive assessment, including the Cognitive Abilities Screening Instrument (CASI), Digit Symbol Coding (DSC), and Digit Span (DS), was completed in 4392 older participants in the United States during 2010-2012. Residence-specific air pollution exposures (i.e., oxides of nitrogen [NO/NO], PM and its components: elemental carbon [EC], organic carbon [OC], sulfur [S], and silicon [Si]) were estimated by geo-statistical models. Linear and logistic regression models were used to estimate the associations between each air pollutants metric and cognitive function.
An interquartile range (IQR) increase in EC (0.8 μg/m) and Si (23.1 ng/m) was associated with -1.27 (95% confidence interval [CI]: -0.09, -2.45) and -0.88 (95% CI: -0.21, -1.54) lower CASI scores in global cognitive function. For each IQR increase in Si, the odds of low cognitive function (LCF) across domains was 1.29 times higher (95% CI: 1.04, 1.60). For other tests, NO was associated with slower processing speed (DSC: -2.01, 95% CI: -3.50, -0.52) and worse working memory (total DS: -0.4, 95% CI: -0.78, -0.01). No associations were found for PM and two PM components (OC and S) with any cognitive function outcomes.
Higher exposure to traffic-related air pollutants including both tailpipe (EC and NO ) and non-tailpipe (Si) species were associated with lower cognitive function in older adults.
空气污染对认知功能的影响已日益受到认可。对于不同来源的细颗粒物(PM)的影响知之甚少。我们旨在评估长期空气污染暴露(包括PM中特定来源的成分)与老年人认知之间的关联。
2010年至2012年期间,对美国4392名老年参与者进行了认知评估,包括认知能力筛查工具(CASI)、数字符号编码(DSC)和数字广度(DS)。通过地理统计模型估算特定居住地的空气污染暴露情况(即氮氧化物[NO/NO]、PM及其成分:元素碳[EC]、有机碳[OC]、硫[S]和硅[Si])。使用线性和逻辑回归模型估算每种空气污染物指标与认知功能之间的关联。
EC(0.8μg/m)和Si(23.1ng/m)的四分位数间距(IQR)增加与全球认知功能的CASI得分降低-1.27(95%置信区间[CI]:-0.09,-2.45)和-0.88(95%CI:-0.21,-1.54)相关。Si每增加一个IQR,各领域低认知功能(LCF)的几率高1.29倍(95%CI:1.04,1.60)。对于其他测试,NO与处理速度较慢(DSC:-2.01,95%CI:-3.50,-0.52)和工作记忆较差(总DS:-0.4,95%CI:-0.78,-0.01)相关。未发现PM及其两种成分(OC和S)与任何认知功能结果存在关联。
更高暴露于与交通相关的空气污染物,包括排气管(EC和NO)和非排气管(Si)物种,与老年人认知功能较低相关。