Integrating machine learning and metabolomics to uncover new biomarkers for predicting pesticide exposure among patients with kidney function decline

IF 8 1区环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES

Science of the Total Environment Pub Date : 2025-07-23 DOI:10.1016/j.scitotenv.2025.180066

Junne-Ming Sung , Yu-Chi Hung , Wan-Ru Wang , Chiau-Jun Chu , Yen-Ping Lin , Kuan-Hung Liu , Trias Mahmudiono , Hsiu-Ling Chen

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Abstract

Although pesticide application is indispensable for agricultural productivity, improper use can pose significant health risks, particularly for vulnerable populations. This study investigated the effects of pesticide exposure on metabolic pathways and disease progression among patients with chronic kidney disease (CKD). This longitudinal study enrolled 89 CKD patients. A total of 71 pesticides, including 9 carbamate pesticides, were detected in the urine samples. Our findings indicated that higher concentrations of carbamates, possibly from the diet, may significant be associated with oxidative stress, amino acid metabolism, and mitochondrial energy metabolism in CKD patients. Integrating machine learning approach identified l-glutamine (L-Glu), 3-chlorotyrosine, and N2,N2-dimethylguanosine as potential biomarkers of pesticide exposure, with an area under the curve of >0.903 based on machine learning- a receiver operating characteristic analysis. Both CKD and pesticide exposure were associated with abnormalities in amino acid and energy metabolism. Key metabolites such as L-cysteine, Acetyl-CoA, L-Glu, and L-histidine were identified as endogenous markers capable of predicting changes in both renal dysfunction and pesticide exposure among CKD patients. Detecting exposure-related metabolic alterations through metabolomics enables early identification and aids in the understanding and potential prevention of kidney disease progression. This study further can explore the clinical applicability and improve predictive value of these biomarkers.

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整合机器学习和代谢组学，发现新的生物标志物，预测肾功能下降患者的农药暴露

虽然农药的施用对农业生产力是必不可少的，但不当使用会造成重大的健康风险，特别是对弱势群体。本研究探讨了农药暴露对慢性肾脏疾病（CKD）患者代谢途径和疾病进展的影响。这项纵向研究纳入了89例CKD患者。尿样共检出农药71种，其中氨基甲酸酯类农药9种。我们的研究结果表明，较高浓度的氨基甲酸酯（可能来自饮食）可能与CKD患者的氧化应激、氨基酸代谢和线粒体能量代谢显著相关。整合机器学习方法确定了l-谷氨酰胺（L-Glu）、3-氯酪氨酸和N2，N2-二甲鸟苷作为农药暴露的潜在生物标志物，基于机器学习的曲线下面积为>；0.903 -接受者工作特征分析。CKD和农药暴露都与氨基酸和能量代谢异常有关。关键代谢物如l-半胱氨酸、乙酰辅酶a、l-谷氨酸和l-组氨酸被确定为内源性标志物，能够预测CKD患者肾功能和农药暴露的变化。通过代谢组学检测暴露相关的代谢改变可以早期识别，有助于了解和潜在预防肾脏疾病的进展。本研究可以进一步探索这些生物标志物的临床适用性，提高其预测价值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Science of the Total Environment 环境科学-环境科学

CiteScore

17.60

自引率

10.20%

发文量

8726

审稿时长

2.4 months

期刊介绍： The Science of the Total Environment is an international journal dedicated to scientific research on the environment and its interaction with humanity. It covers a wide range of disciplines and seeks to publish innovative, hypothesis-driven, and impactful research that explores the entire environment, including the atmosphere, lithosphere, hydrosphere, biosphere, and anthroposphere. The journal's updated Aims & Scope emphasizes the importance of interdisciplinary environmental research with broad impact. Priority is given to studies that advance fundamental understanding and explore the interconnectedness of multiple environmental spheres. Field studies are preferred, while laboratory experiments must demonstrate significant methodological advancements or mechanistic insights with direct relevance to the environment.