A119:暴露于交通相关空气污染物和肺癌发病率的种族和性别差异:多种族队列

I. Cheng, S. M. Conroy, C. Tseng, Juan Yang, Shahir Masri, T. Larson, S. Fruin, J. Jain, L. Marchand, J. Samet, S. Gomez, V. Setiawan, Sungshim L Park, D. Stram, Salma Shariff-Marco, B. Ritz, Jun Wu, A. Wu
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引用次数: 0

摘要

加州是美国空气污染最严重的地区之一。汽车尾气中含有已知具有致突变和致癌作用的气体和颗粒物的混合物。我们的目的是在多民族队列研究(MEC)的参与者中,根据种族/民族和性别,研究特定交通相关空气污染物与肺癌风险之间的关系,这些参与者主要居住在洛杉矶县。方法:对超过112,000名加州MEC参与者从1993-1996年至2013年的基线居住地址进行地理编码,并根据州和国家政府空气监测数据的贝叶斯克里格插值,用于估计NO2, NOX, PM10, CO和O3的空气污染物暴露。共有2994例肺癌病例(1415例非裔美国人,732例拉丁裔美国人,516例白人和327例日裔美国人)通过与加州癌症登记处的联系被确定。采用Cox比例风险回归来检验NO2、NOX、PM10、CO和O3对年龄、种族/民族、性别、教育程度、健康行为、吸烟和其他已知肺癌危险因素的长期影响。按性别、种族/民族和吸烟状况进行分层分析。结果:女性肺癌风险每增加20 ppb NO2 (HR=1.29;95% CI: 1.02-1.64),在非裔美国人、日裔美国人和白人女性中观察到一致的关联模式。吸烟女性的风险增加幅度略大(HR=1.33;95% CI: 1.02-1.74),尤其是吸烟的非裔美国妇女(HR=1.54;95% ci: 1.06, 2.24)。此外,在吸烟女性中,PM10每增加10ug/m3,肺癌风险增加具有统计学意义(HR=1.16;95% CI: 1.01-1.34)和女性CO每增加100 ppb (HR=1.05;95% ci: 1.01-1.09)。在男性中未发现与肺癌有显著关联。结论:这些初步研究结果表明,不同种族/民族的女性可能特别容易受到长期暴露于二氧化氮、PM10和一氧化碳的影响,从而增加肺癌风险。与男性相比,女性的这些发现可能与住宅暴露的差异有关,女性对住宅的敏感度更高,或者与男性相比,女性在住宅社区的时间更长。未来的分析将使用不同的暴露评估方法来检查与其他污染物的关联,并通过社区和个人水平的因素来检查关联的差异。引用格式:Iona Cheng, Shannon M. Conroy, Chiuchen Tseng, Juan Yang, Shahir Masri, Timothy Larson, Scott Fruin, Jennifer Jain, Loic Le Marchand, Jonathan Samet, Scarlett Lin Gomez, Veronica Wendy Setiawan, Sung-Shim Lani Park, Daniel O. Stram, Salma sharif - marco, Beate Ritz, Wu Jun, Anna H. Wu。交通相关空气污染物暴露与肺癌发病率的种族和性别差异:多种族队列研究[摘要]。见:第十一届AACR会议论文集:种族/少数民族和医疗服务不足人群的癌症健康差异科学;2018年11月2-5日;新奥尔良,洛杉矶。费城(PA): AACR;癌症流行病学生物标志物,2020;29(6增刊):摘要nr A119。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Abstract A119: Ethnic and sex differences in exposure to traffic-related air pollutants and lung cancer incidence: The Multiethnic Cohort
Introduction: California has one of the highest levels of air pollution in the nation. Vehicle exhaust contains a mixture of gases and particulate matter that are known to have mutagenic and carcinogenic effects. Our objective was to examine the association between specific traffic-related air pollutants and lung cancer risk by race/ethnicity and sex among participants of the Multiethnic Cohort Study (MEC), residing predominately in Los Angeles County. Methods: Residential addresses from baseline, 1993-1996, through 2013 for over 112,000 California MEC participants were geocoded to latitude and longitude coordinates and used to estimate air pollutant exposures of NO2, NOX, PM10, CO, and O3 based on Bayesian kriging interpolation of state and national government air monitoring data. A total of 2,994 incident lung cancer cases (1,415 African Americans, 732 Latinos, 516 Whites, and 327 Japanese Americans) were identified by linkage to the California Cancer Registry. Cox proportional hazard regression was conducted to examine the long-term effects of NO2, NOX, PM10, CO, and O3 adjusting for age, race/ethnicity, sex, education, health behaviors, smoking, and other established lung cancer risk factors. Stratified analyses were conducted by sex, race/ethnicity, and smoking status. Results: Lung cancer risk increased per 20 ppb NO2 among women (HR=1.29; 95% CI: 1.02-1.64) with consistent patterns of associations observed among African American, Japanese American, and White women. A slightly larger increased risk was observed among ever-smoking women (HR=1.33; 95% CI: 1.02-1.74), particularly ever-smoking African American women (HR=1.54; 95% CI: 1.06, 2.24). In addition, a statistically significant increased lung cancer risk was observed per 10ug/m3 increase in PM10 among ever-smoking women (HR=1.16; 95% CI: 1.01-1.34) and per 100 ppb increase in CO among women (HR=1.05; 95% CI: 1.01-1.09). No significant associations with lung cancer were detected among men. Conclusion: These preliminary findings suggest that women of diverse racial/ethnic groups may be particularly vulnerable to the effects of long-term exposures of NO2, PM10, and CO on lung cancer risk. These findings among women in contrast to men may relate to differences in residential exposures with higher sensitivity or more time spent in residential neighborhoods for women in comparison to men. Future analyses will examine associations with other pollutants using different exposure assessment approaches and examine differences in associations by neighborhood- and individual-level factors. Citation Format: Iona Cheng, Shannon M. Conroy, Chiuchen Tseng, Juan Yang, Shahir Masri, Timothy Larson, Scott Fruin, Jennifer Jain, Loic Le Marchand, Jonathan Samet, Scarlett Lin Gomez, Veronica Wendy Setiawan, Sung-Shim Lani Park, Daniel O. Stram, Salma Shariff-Marco, Beate Ritz, Jun Wu, Anna H. Wu. Ethnic and sex differences in exposure to traffic-related air pollutants and lung cancer incidence: The Multiethnic Cohort [abstract]. In: Proceedings of the Eleventh AACR Conference on the Science of Cancer Health Disparities in Racial/Ethnic Minorities and the Medically Underserved; 2018 Nov 2-5; New Orleans, LA. Philadelphia (PA): AACR; Cancer Epidemiol Biomarkers Prev 2020;29(6 Suppl):Abstract nr A119.
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