Association Between Urinary Metal Levels and Chronic Kidney Dysfunction in Rural China: A Study on Sex-Specific Differences.

IF 4.1 3区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES Toxics Pub Date : 2025-01-14 DOI:10.3390/toxics13010055

Kaisheng Teng, Qinyi Guan, Qiumei Liu, Xiaoting Mo, Lei Luo, Jiahui Rong, Tiantian Zhang, Wenjia Jin, Linhai Zhao, Songju Wu, Zhiyong Zhang, Jian Qin

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Abstract

Background: While current epidemiological studies have documented associations between environmental metals and renal dysfunction, the majority have concentrated on plasma metal levels. The relationship between urinary metal exposure and chronic kidney disease (CKD) remains contentious, particularly within specific demographic groups.

Methods: This cross-sectional study included 2919 rural Chinese adults recruited between 2018 and 2019. Urine metals were measured by ICP-MS. Least absolute shrinkage and selection operator (LASSO) regression was employed to identify metals significantly associated with CKD. Then, we used binary logistic regression, along with restricted cubic spline (RCS) models, to assess the individual exposure effects of specific metals on CKD. Quantile g-computation, weighted quantile sum regression, and Bayesian kernel machine regression (BKMR) models were applied to evaluate combined effects of metal exposures on CKD. Gender-stratified analyses were also conducted to explore these associations.

Results: LASSO identified seven metals (V, Cu, Rb, Sr, Ba, W, Pb) with significant impacts on CKD. In single-metal models, Cu and W exhibited a positive correlation with CKD, whereas V, Rb, Sr, Ba, and Pb showed significant negative correlations (all p < 0.05). RCS analysis revealed nonlinear associations between V, Cu, Ba, Pb, and CKD (all p-nonlinear < 0.05). In the multi-metal model, quantile-based g-computation demonstrated a collective negative association with CKD risk for the seven mixed urinary metal exposures (OR (95% CI) = -0.430 (-0.656, -0.204); p < 0.001), with V, Rb, Sr, Ba, and Pb contributing to this effect. The WQS model analysis further confirmed this joint negative association (OR (95% CI): -0.885 (-1.083, -0.899); p < 0.001), with V as the main contributor. BKMR model analysis indicated an overall negative impact of the metal mixture on CKD risk. Interactions may exist between V and Cu, as well as Cu and Sr and Pb. The female subgroup in the BKMR model demonstrated consistency with the overall association.

Conclusions: Our study findings demonstrate a negative association between the urinary metal mixture and CKD risk, particularly notable in females. Joint exposure to multiple urinary metals may involve synergistic or antagonistic interactions influencing renal function. Further research is needed to validate these observations and elucidate underlying mechanisms.

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中国农村尿金属水平与慢性肾功能障碍的关系：一项性别特异性差异研究

背景：虽然目前的流行病学研究已经证实了环境金属与肾功能障碍之间的联系，但大多数研究都集中在血浆金属水平上。尿中金属暴露与慢性肾脏疾病（CKD）之间的关系仍然存在争议，特别是在特定的人口统计学群体中。方法：本横断面研究纳入了2018年至2019年招募的2919名中国农村成年人。用ICP-MS测定尿金属。最小绝对收缩和选择算子（LASSO）回归用于识别与CKD显著相关的金属。然后，我们使用二元逻辑回归以及受限三次样条（RCS）模型来评估特定金属对CKD的个体暴露影响。采用分位数g计算、加权分位数和回归和贝叶斯核机回归（BKMR）模型评估金属暴露对慢性肾病的综合影响。还进行了性别分层分析，以探讨这些关联。结果：LASSO鉴定出7种金属（V、Cu、Rb、Sr、Ba、W、Pb）对CKD有显著影响。在单金属模型中，Cu和W与CKD呈正相关，V、Rb、Sr、Ba和Pb呈显著负相关（均p < 0.05）。RCS分析显示，V、Cu、Ba、Pb与CKD呈非线性相关（p-非线性均< 0.05）。在多金属模型中，基于分位数的g计算显示，七种混合尿金属暴露与CKD风险呈集体负相关(OR (95% CI) = -0.430 (-0.656, -0.204)；p < 0.001)， V、Rb、Sr、Ba和Pb对这种效应有贡献。WQS模型分析进一步证实了这种联合负相关(OR (95% CI): -0.885 (-1.083, -0.899)；p < 0.001)，其中V是主要贡献者。BKMR模型分析表明，金属混合物对CKD风险的总体负面影响。V与Cu、Cu与Sr和Pb之间可能存在相互作用。BKMR模型中的女性亚组显示出与整体关联的一致性。结论：我们的研究结果表明尿中金属混合物与CKD风险之间存在负相关，尤其是在女性中。联合暴露于多种尿金属可能涉及影响肾功能的协同或拮抗相互作用。需要进一步的研究来验证这些观察结果并阐明潜在的机制。

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来源期刊

Toxics Chemical Engineering-Chemical Health and Safety

CiteScore

4.50

自引率

10.90%

发文量

681

审稿时长

6 weeks

期刊介绍： Toxics (ISSN 2305-6304) is an international, peer-reviewed, open access journal which provides an advanced forum for studies related to all aspects of toxic chemicals and materials. It publishes reviews, regular research papers, and short communications. Our aim is to encourage scientists to publish their experimental and theoretical results in detail. There is, therefore, no restriction on the maximum length of the papers, although authors should write their papers in a clear and concise way. The full experimental details must be provided so that the results can be reproduced. Electronic files or software regarding the full details of calculations and experimental procedure can be deposited as supplementary material, if it is not possible to publish them along with the text.