环境水平暴露于金属和金属混合物与美国印第安成年人肺功能定义疾病相关:来自“强壮心脏研究”的证据。
Environmental-level exposure to metals and metal-mixtures associated with spirometry-defined lung disease in American Indian adults: Evidence from the Strong Heart Study.
机构信息
Department of Environmental Health Sciences, Columbia Mailman School of Public Health, 722 West 168th St. NY, NY, 10032, USA.
Department of Sociology and Anthropology, Northeastern University, 1135 Tremont Street, 900 Renaissance Park, Boston, MA, 02115, USA.
出版信息
Environ Res. 2022 May 1;207:112194. doi: 10.1016/j.envres.2021.112194. Epub 2021 Oct 13.
BACKGROUND
American Indians have a higher burden of chronic lung disease compared to the US average. Several metals are known to induce chronic lung disease at high exposure levels; however, less is known about the role of environmental-level metal exposure. We investigated respiratory effects of exposure to single metals and metal-mixtures in American Indians who participated in the Strong Heart Study.
METHODS
We included 2077 participants with data on 6 metals (As, Cd, Mo, Se, W, Zn) measured from baseline urine samples (1989-1991) and who underwent spirometry testing at follow-up (1993-1995). We used generalized linear regression to assess associations of single metals with spirometry-defined measures of airflow limitation and restrictive ventilatory pattern, and continuous spirometry. We used Bayesian Kernel Machine Regression to investigate the joint effects of the metal-mixture. Sensitivity analyses included stratifying by smoking status and diabetes.
RESULTS
Participants were 40% male, with median age 55 years. 21% had spirometry-defined airflow limitation, and 14% had a restrictive ventilatory pattern. In individual metal analyses, Cd was associated with higher odds of airflow limitation and lower FEV1 and FEV1/FVC. Mo was associated with higher odds of restrictive ventilatory pattern and lower FVC. Metal-mixtures analyses confirmed these models. In smoking stratified analyses, the overall metal-mixture was linearly and positively associated with airflow limitation among non-smokers; Cd was the strongest contributor. For restrictive ventilatory pattern, the association with the overall metal-mixture was strong and linear among participants with diabetes and markedly attenuated among participants without diabetes. Among those with diabetes, Mo and Zn were the major contributors.
CONCLUSIONS
Environmental-level exposure to several metals was associated with higher odds of spirometry-defined lung disease in an American Indian population. Exposure to multiple metals, including Cd and Mo, may have an under-recognized adverse role on the respiratory system.
背景
与美国平均水平相比,美洲印第安人患有慢性肺部疾病的负担更高。几种金属在高暴露水平下已知会导致慢性肺部疾病;然而,对于环境水平金属暴露的作用知之甚少。我们研究了参加“强壮心脏研究”的美洲印第安人暴露于单一金属和金属混合物对呼吸的影响。
方法
我们纳入了 2077 名参与者,他们的基线尿液样本(1989-1991 年)中检测到 6 种金属(砷、镉、钼、硒、钨、锌)的数据,并在随访期间(1993-1995 年)接受了肺活量测定。我们使用广义线性回归来评估单一金属与肺活量定义的气流受限和限制性通气模式以及连续肺活量的关联。我们使用贝叶斯核机器回归来研究金属混合物的联合效应。敏感性分析包括按吸烟状况和糖尿病分层。
结果
参与者中 40%为男性,中位年龄为 55 岁。21%的人有肺活量定义的气流受限,14%的人有限制性通气模式。在单独的金属分析中,镉与气流受限的几率较高以及 FEV1 和 FEV1/FVC 较低有关。钼与限制性通气模式的几率较高以及 FVC 较低有关。金属混合物分析证实了这些模型。在吸烟分层分析中,非吸烟者中,整体金属混合物与气流受限呈线性正相关;镉是最强的贡献者。对于限制性通气模式,糖尿病患者的整体金属混合物与该模式之间的关联很强且呈线性,而无糖尿病患者的关联则明显减弱。在有糖尿病的患者中,钼和锌是主要的贡献者。
结论
在美洲印第安人群中,环境水平暴露于几种金属与肺活量定义的肺部疾病的几率增加有关。暴露于多种金属,包括镉和钼,可能对呼吸系统有被低估的不良作用。
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