Relevance of Electrical Light on Circadian, Neuroendocrine, and Neurobehavioral Regulation in Laboratory Animal Facilities.

IF 3.1 3区 农林科学 Q1 VETERINARY SCIENCES Ilar Journal Pub Date : 2020-10-19 DOI:10.1093/ilar/ilaa010
John P Hanifin, Robert T Dauchy, David E Blask, Steven M Hill, George C Brainard
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引用次数: 6

Abstract

Light is a key extrinsic factor to be considered in operations and design of animal room facilities. Over the past four decades, many studies on typical laboratory animal populations have demonstrated impacts on neuroendocrine, neurobehavioral, and circadian physiology. These effects are regulated independently from the defined physiology for the visual system. The range of physiological responses that oscillate with the 24 hour rhythm of the day include sleep and wakefulness, body temperature, hormonal secretion, and a wide range of other physiological parameters. Melatonin has been the chief neuroendocrine hormone studied, but acute light-induced effects on corticosterone as well as other hormones have also been observed. Within the last two decades, a new photosensory system in the mammalian eye has been discovered. A small set of retinal ganglion cells, previously thought to function as a visual output neuron, have been shown to be directly photosensitive and act differently from the classic photoreceptors of the visual system. Understanding the effects of light on mammalian physiology and behavior must take into account how the classical visual photoreceptors and the newly discovered ipRGC photoreceptor systems interact. Scientists and facility managers need to appreciate lighting impacts on circadian, neuroendocrine, and neurobehavioral regulation in order to improve lighting of laboratory facilities to foster optimum health and well-being of animals.

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电光与实验动物昼夜节律、神经内分泌和神经行为调节的相关性。
在动物房设施的操作和设计中,光是一个需要考虑的关键外部因素。在过去的四十年中,许多对典型实验动物种群的研究已经证明了对神经内分泌、神经行为和昼夜生理的影响。这些影响是独立于视觉系统的生理调节的。随着一天24小时的节奏而波动的生理反应范围包括睡眠和觉醒、体温、激素分泌和其他广泛的生理参数。褪黑激素一直是研究的主要神经内分泌激素,但也观察到对皮质酮和其他激素的急性光诱导效应。在过去的二十年里,在哺乳动物的眼睛里发现了一种新的光感觉系统。一小组视网膜神经节细胞,以前被认为是视觉输出神经元,已经被证明是直接光敏的,并且与视觉系统的经典光感受器的行为不同。理解光对哺乳动物生理和行为的影响必须考虑到经典的视觉光感受器和新发现的ipRGC光感受器系统如何相互作用。科学家和设施管理人员需要了解照明对昼夜节律、神经内分泌和神经行为调节的影响,以改善实验室设施的照明,促进动物的最佳健康和福祉。
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来源期刊
Ilar Journal
Ilar Journal 农林科学-兽医学
CiteScore
5.10
自引率
20.00%
发文量
8
审稿时长
>18 weeks
期刊介绍: The ILAR Journal is the peer-reviewed, theme-oriented publication of the Institute for Laboratory Animal Research (ILAR), which provides timely information for all who study, use, care for, and oversee the use of animals in research. The journal publishes original articles that review research on animals either as direct subjects or as surrogates for humans. According to policy, any previously unpublished animal research reported in the ILAR Journal will have been conducted according to the scientific, technical, and humanely appropriate guidelines current at the time the research was conducted in accordance with the Guide for the Care and Use of Laboratory Animals or other guidance provided by taxonomically-oriented professional societies (e.g., American Society of Mammalogy) as referenced in the Guide.
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