Environmental Metal Exposure, Neurodevelopment, and the Role of Iron Status: a Review.

IF 7.4 2区 医学 Q1 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH Current Environmental Health Reports Pub Date : 2022-12-01 Epub Date: 2022-08-23 DOI:10.1007/s40572-022-00378-0
Samantha Schildroth, Katarzyna Kordas, Julia Anglen Bauer, Robert O Wright, Birgit Claus Henn
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Abstract

Purpose of review: Exposure to environmental metals, like lead (Pb), manganese (Mn), and methylmercury (Me-Hg), has consistently been implicated in neurodevelopmental dysfunction. Recent research has focused on identifying modifying factors of metal neurotoxicity in childhood, such as age, sex, and co-exposures. Iron (Fe) status is critical for normal cognitive development during childhood, and current mechanistic, animal, and human evidence suggests that Fe status may be a modifier or mediator of associations between environmental metals and neurodevelopment. The goals of this review are to describe the current state of the epidemiologic literature on the role of Fe status (i.e., hemoglobin, ferritin, blood Fe concentrations) and Fe supplementation in the relationship between metals and children's neurodevelopment, and to identify research gaps.

Recent findings: We identified 30 studies in PubMed and EMBASE that assessed Fe status as a modifier, mediator, or co-exposure of associations of Pb, Me-Hg, Mn, copper (Cu), zinc (Zn), arsenic (As), or metal mixtures measured in early life (prenatal period through 8 years of age) with cognition in children. In experimental studies, co-supplementation of Fe and Zn was associated with better memory and cognition than supplementation with either metal alone. Several observational studies reported interactions between Fe status and Pb, Mn, Zn, or As in relation to developmental indices, memory, attention, and behavior, whereby adverse associations of metals with cognition were worse among Fe-deficient children compared to Fe-sufficient children. Only two studies quantified joint associations of complex metal mixtures that included Fe with neurodevelopment, though findings from these studies were not consistent. Findings support memory and attention as two possible cognitive domains that may be both vulnerable to Fe deficiency and a target of metals toxicity. Major gaps in the literature remain, including evaluating Fe status as a modifier or mediator of metal mixtures and cognition. Given that Fe deficiency is the most common nutritional deficiency worldwide, characterizing Fe status in studies of metals toxicity is important for informing public health interventions.

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环境中的金属暴露、神经发育和铁的作用:综述。
综述的目的:铅(Pb)、锰(Mn)和甲基汞(Me-Hg)等环境金属的暴露一直被认为与神经发育功能障碍有关。近期研究的重点是确定儿童期金属神经毒性的影响因素,如年龄、性别和共同暴露。铁(Fe)状态对儿童期正常的认知发展至关重要,目前的机理、动物和人类证据表明,铁状态可能是环境金属与神经发育之间关系的调节剂或中介剂。本综述的目的是描述有关铁状态(即血红蛋白、铁蛋白、血铁浓度)和铁补充在金属与儿童神经发育之间的作用的流行病学文献的现状,并找出研究空白:我们在 PubMed 和 EMBASE 中发现了 30 项研究,这些研究评估了铁的状态,将其视为铅、汞、锰、铜(Cu)、锌(Zn)、砷(As)或金属混合物在生命早期(从产前到 8 岁)与儿童认知能力之间关系的调节剂、中介剂或共同暴露剂。在实验研究中,与单独补充其中一种金属相比,同时补充铁和锌可提高记忆力和认知能力。有几项观察性研究报告了铁元素与铅、锰、锌或砷在发育指数、记忆力、注意力和行为方面的相互作用,其中铁元素缺乏的儿童与铁元素充足的儿童相比,金属元素与认知能力的不良关联更严重。只有两项研究量化了包括铁在内的复杂金属混合物与神经发育的共同关系,但这些研究的结果并不一致。研究结果表明,记忆力和注意力是两个可能的认知领域,既容易受到铁缺乏的影响,也可能是金属毒性的目标。文献中仍存在重大空白,包括评估铁的状态作为金属混合物和认知的调节剂或媒介。鉴于铁缺乏症是全球最常见的营养缺乏症,在金属毒性研究中描述铁的状态对于为公共卫生干预措施提供信息非常重要。
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
CiteScore
13.60
自引率
1.30%
发文量
47
期刊介绍: Current Environmental Health Reports provides up-to-date expert reviews in environmental health. The goal is to evaluate and synthesize original research in all disciplines relevant for environmental health sciences, including basic research, clinical research, epidemiology, and environmental policy.
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