Force-induced tissue compression alters circulating hormone levels and biomarkers of peripheral vascular and sensorineural dysfunction in an animal model of hand-arm vibration syndrome.

IF 2.3 4区 医学 Q3 ENVIRONMENTAL SCIENCES Journal of Toxicology and Environmental Health-Part A-Current Issues Pub Date : 2024-11-20 DOI:10.1080/15287394.2024.2428599
Kristine Krajnak, Stacey Waugh, Christopher Warren, Phillip Chapman, Xueyan Xu, Daniel Welcome, Maryann Hammer, Diana Richardson, Renguang Dong
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Abstract

Workers regularly using vibrating hand tools may develop a disorder referred to as hand-arm vibration syndrome (HAVS). HAVS is characterized by cold-induced vasospasms in the hands and fingers that result in blanching of the skin, loss of sensory function, pain, and reductions in manual dexterity. Exposure to vibration induces some of these symptoms. However, the soft tissues of the hands and fingers of workers are compressed as a result of the force generated when a worker grips a tool. The compression of these soft tissues might also contribute to the development of HAVS. The goal of this study was to use an established rat tail model to determine the mechanisms by which compression of the tail tissues affects (1) the ventral tail artery (VTA) and ventral tail nerves (VTN), (2) nerves and sensory receptors in the skin, (3) dorsal root ganglia (DRG), and (4) spinal cord. Tissue compression resulted in the following changes (1) circulating pituitary and steroid hormone concentrations, (2) expression of factors that modulate vascular function in the skin and tail artery, and (3) factors associated with nerve damage, DRG, and spinal cord. Some of these observed effects differed from those previously noted with vibration exposure. Based upon these findings, the effects of applied force and vibration are different. Studies examining the combination of these factors might provide data that may potentially be used to improve risk assessment and support revision of standards.

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在手臂振动综合征动物模型中,力引起的组织压缩会改变循环激素水平以及外周血管和感音神经功能紊乱的生物标志物。
经常使用振动手工具的工人可能会患上手臂振动综合症(HAVS)。手臂振动综合症的特征是手部和手指因寒冷而引起血管痉挛,导致皮肤发白、感觉功能丧失、疼痛和手部灵活性下降。暴露于振动环境中会诱发其中一些症状。然而,工人在抓握工具时产生的力量会挤压手部和手指的软组织。这些软组织受到挤压也可能导致高空坠落综合症的发生。本研究的目的是利用已建立的大鼠尾部模型来确定尾部组织受压对以下方面的影响机制:(1) 尾部腹动脉 (VTA) 和尾部腹神经 (VTN);(2) 皮肤中的神经和感觉受体;(3) 背根神经节 (DRG) ;以及 (4) 脊髓。组织压迫导致以下变化:(1)循环垂体和类固醇激素浓度;(2)皮肤和尾动脉血管功能调节因子的表达;(3)与神经损伤、背根神经节和脊髓相关的因子。其中一些观察到的影响不同于之前注意到的振动暴露。根据这些发现,外力和振动的影响是不同的。对这些因素的综合影响进行研究可能会提供数据,这些数据有可能用于改进风险评估和支持标准修订。
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来源期刊
CiteScore
5.20
自引率
19.20%
发文量
46
审稿时长
8-16 weeks
期刊介绍: The Journal of Toxicology and Environmental Health, Part A , Current Issues is an authoritative journal that features strictly refereed original research in the field of environmental sciences, public and occupational health, and toxicology.
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