[微量金属元素中毒:金属概况的新概念]。

Youssef Moutaouakkil, Radia Mounir, Mina Ait El Cadi, Jamel Lamsaouri, Yassir Bousliman, Rachid ElJaoudi
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引用次数: 0

摘要

痕量金属元素(TMEs)以前被称为 "重金属",由于其对人类健康的重大毒理影响,近年来在各种环境区划中的含量从几百毫克到几克不等。微量金属元素分为必需元素(如铁、锌、铜、硒、锰)和有毒元素(如汞、镉、铅、锂、砷)。必需微量元素在人体中起着重要作用,缺乏会改变人体重要的生理功能,而有毒元素则没有生理作用,会导致严重的疾病。然而,必需元素也会导致中毒,这取决于其浓度和化学形态。现代世界的工业化使全球人口接触到高浓度的微量元素,这些元素在短期或长期内都可能具有毒性。这些微量元素通过各种途径(吸入、摄入或皮肤接触)进入人体。微量元素中毒的临床表现多种多样,而且没有特异性,因此诊断和处理起来十分困难。电感耦合等离子体质谱法(ICP-MS)可以检测三卤甲烷中毒。事实上,它可以同时对生物介质中的大约三十种微量金属元素进行定量。因此,它导致建立了一种新的方法:金属剖面图,该方法在临床生物学和临床、法医学、职业或环境毒理学中有着广泛的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
[Intoxications with trace metal elements: A new concept of the metal profile].

Present in quantities ranging from hundreds of milligrams to several grams in various environmental compartments, trace metal elements (TMEs), formerly known as "heavy metals," have been the subject of much discussion in recent years due to their major toxicological impact on human health. They are divided into essential elements such as iron, zinc, copper, selenium, manganese, and toxic elements such as mercury, cadmium, lead, lithium, and arsenic. Essential trace elements play a vital role in the body, and their deficiency can alter important physiological functions, while toxic elements have no physiological role and can lead to serious illnesses. However, essential elements can also cause intoxication depending on their concentrations and chemical forms. The industrialization of the modern world exposes the global population to high concentrations of trace elements that can be toxic in the short or long term. These TMEs enter the human body through various pathways (inhalation, ingestion, or dermal contact). The clinical manifestations of TME intoxications are highly varied and nonspecific, making their diagnosis and management difficult. Inductively coupled plasma mass spectrometry (ICP-MS) allows the detection of TME intoxications. Indeed, it enables the simultaneous quantification of around thirty trace metal elements in biological media. Thus, it has led to the establishment of a new approach: the metal profile, which has many applications in clinical biology and clinical, forensic, occupational, or environmental toxicology.

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