Comprehensive Risk Assessment of Metals and Minerals in Seafood Using Bioaccessibility Correction.

IF 6.8 Q1 TOXICOLOGY

Journal of Xenobiotics Pub Date : 2025-06-12 DOI:10.3390/jox15030092

Ștefania-Adelina Milea, Ira-Adeline Simionov, Nina-Nicoleta Lazăr, Cătălina Iticescu, Mihaela Timofti, Puiu-Lucian Georgescu, Caterina Faggio

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引用次数: 0

Abstract

Evaluating the bioaccessibility and health risks of seafood is extremely important because, although it is a significant source of vital minerals, it may also contain potentially toxic elements. This study aimed to determine the content of metals and minerals in different seafood species before and after thermal processing. Also, given the risk of overestimating the actual final concentration available in the body, a study was carried out to determine the bioaccessibility of these elements by simulating the digestion process in the gastrointestinal tract. Assessment of the potential toxic effects on consumer health in terms of exposure to heavy metals was carried out through risk analysis by Estimated Daily Intake, Hazard Index, and Cancer Risk parameters. Three bivalve mollusks, one gastropod mollusk, four cephalopod mollusks, and one crustacean species were analyzed in terms of minerals (P, S, K, Ca, and Se) and heavy metals (Cd, Pb, Ni, Cr, Fe, Zn, Co, Mn, and As) content. The lead (Pb) concentration recorded the strongest bioaccessibility increase, even reaching 100% in P. vannamei. Generally, the bioaccessibility of all metalloids dropped below 100%, which suggests that only a part of the amount of metal in the initially ingested sample can be absorbed by the human organism. Potassium and sulfur registered the greatest value, up to 23% for minerals' bioaccessibility in the same samples. The highest intake rate of metals occurred after the consumption of M. gigas, which registered the highest Estimated Daily Intake for Cr (chromium) (0.321 mg kg^-1 d^-1), Cu (copper) (10.15 mg kg^-1 d^-1), and Zn (zinc) (12.67 mg kg^-1 d^-1). The Hazard Index values indicated no significant risk of poisoning. All calculated Cancer Risk scores remained below the acceptable threshold. Moreover, the Pearson coefficient revealed a positive correlation between the Hazard Index and the most abundant elements in the samples, Cr, Zn, and Cu. This study could provide a framework for evaluating both the nutritional benefits and toxicological concerns of seafood intake in public health applications.

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利用生物可及性校正法对海产品中金属和矿物质进行综合风险评估。

评估海产品的生物可及性和健康风险极为重要，因为尽管海产品是重要矿物质的重要来源，但它也可能含有潜在的有毒元素。本研究旨在测定热处理前后不同海产品中金属和矿物质的含量。此外，考虑到高估体内可用的实际最终浓度的风险，进行了一项研究，通过模拟胃肠道中的消化过程来确定这些元素的生物可及性。通过估计每日摄入量、危害指数和癌症风险参数进行风险分析，评估了接触重金属对消费者健康的潜在毒性影响。对3种双壳类软体动物、1种腹足类软体动物、4种头足类软体动物和1种甲壳类软体动物进行了矿物（P、S、K、Ca、Se）和重金属（Cd、Pb、Ni、Cr、Fe、Zn、Co、Mn、As）含量分析。铅（Pb）浓度的生物可达性增加幅度最大，在凡纳梅中可达100%。一般来说，所有类金属的生物可及性都低于100%，这表明最初摄入的样品中只有一部分金属能被人体有机体吸收。钾和硫在相同样品中对矿物质的生物可及性的影响最大，高达23%。金属的摄取率最高发生在食用巨齿鱼之后，其估计每日摄取量最高的是Cr（铬）（0.321 mg kg-1 d-1）、Cu（铜）（10.15 mg kg-1 d-1）和Zn（锌）（12.67 mg kg-1 d-1）。危害指数值显示没有明显的中毒风险。所有计算出的癌症风险评分仍低于可接受的阈值。此外，Pearson系数显示，危害指数与样品中含量最高的元素Cr、Zn和Cu呈正相关。本研究可以为评估海产品摄入在公共卫生应用中的营养价值和毒理学问题提供一个框架。

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

Journal of Xenobiotics TOXICOLOGY-

CiteScore

5.30

自引率

1.70%

发文量

审稿时长

10 weeks

期刊介绍： The Journal of Xenobiotics publishes original studies concerning the beneficial (pharmacology) and detrimental effects (toxicology) of xenobiotics in all organisms. A xenobiotic (“stranger to life”) is defined as a chemical that is not usually found at significant concentrations or expected to reside for long periods in organisms. In addition to man-made chemicals, natural products could also be of interest if they have potent biological properties, special medicinal properties or that a given organism is at risk of exposure in the environment. Topics dealing with abiotic- and biotic-based transformations in various media (xenobiochemistry) and environmental toxicology are also of interest. Areas of interests include the identification of key physical and chemical properties of molecules that predict biological effects and persistence in the environment; the molecular mode of action of xenobiotics; biochemical and physiological interactions leading to change in organism health; pathophysiological interactions of natural and synthetic chemicals; development of biochemical indicators including new “-omics” approaches to identify biomarkers of exposure or effects for xenobiotics.