禽核黄素缺乏会导致可靠的可重复的外周神经脱髓鞘，补充维生素后，会导致快速髓鞘再形成。

IF 2.7 4区医学 Q3 TOXICOLOGY

Human & Experimental Toxicology Pub Date : 2023-01-01 DOI:10.1177/09603271231188970

Zhao Cai, John Finnie, Jim Manavis, Peter Blumbergs

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引用次数: 1

摘要

核黄素缺乏会在生长迅速的年轻鸡中产生严重的外周痣脱髓鞘。虽然这种天然存在的维生素B2缺乏会导致家禽群的衰弱性周围神经病变和死亡，但它也可以成为研究可靠可重复的周围神经脱髓鞘发病机制的有用实验动物模型。此外，缺乏核黄素的鸟类恢复正常核黄素水平会导致髓鞘再生活跃。它是迄今为止在动物身上描述的唯一获得性原发性脱髓鞘性结核性神经病。引起周围神经脱髓鞘的唯一其他物质类似于鸟类核黄素缺乏症是碲，并且还描述了这种发育性神经毒素在断奶大鼠中产生的周围神经病变的病理特征。

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Avian riboflavin deficiency causes reliably reproducible peripheral nerve demyelination and, with vitamin supplementation, rapid remyelination.

Riboflavin deficiency produces severe peripheral neve demyelination in young, rapidly growing chickens. While this naturally-occurring vitamin B2 deficiency can cause a debilitating peripheral neuropathy, and mortality, in poultry flocks, it can also be a useful experimental animal model to study the pathogenesis of reliably reproducible peripheral nerve demyelination. Moreover, restitution of normal riboflavin levels in deficient birds results in brisk remyelination. It is the only acquired, primary, demyelinating tomaculous neuropathy described to date in animals. The only other substance that causes peripheral nerve demyelination similar to avian riboflavin deficiency is tellurium and the pathologic features of the peripheral neuropathy produced by this developmental neurotoxin in weanling rats are also described.

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来源期刊

Human & Experimental Toxicology 医学-毒理学

CiteScore

5.70

自引率

3.60%

发文量

128

审稿时长

2.3 months

期刊介绍： Human and Experimental Toxicology (HET), an international peer reviewed journal, is dedicated to publishing preclinical and clinical original research papers and in-depth reviews that comprehensively cover studies of functional, biochemical and structural disorders in toxicology. The principal aim of the HET is to publish timely high impact hypothesis driven scholarly work with an international scope. The journal publishes on: Structural, functional, biochemical, and molecular effects of toxic agents; Studies that address mechanisms/modes of toxicity; Safety evaluation of novel chemical, biotechnologically-derived products, and nanomaterials for human health assessment including statistical and mechanism-based approaches; Novel methods or approaches to research on animal and human tissues (medical and veterinary patients) investigating functional, biochemical and structural disorder; in vitro techniques, particularly those supporting alternative methods