Noise as an Extrinsic Variable in the Animal Research Facility.

Jeremy G Turner, John R Manker
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Abstract

Animal research facilities are noisy environments. The high air change rates required in animal housing spaces tend to create higher noise levels from the heating and cooling systems. Housing rooms are typically constructed of hard wall material that is easily cleaned but simultaneously highly reverberant, meaning that the sound cannot be controlled/attenuated so the sounds that are generated bounce around the room uncontrolled. (Soft, sound-absorbing surfaces generally cannot be used in animal facilities because they collect microbes; various wall surface features and sound control panel options are available, although rarely used.) In addition, many of our husbandry tasks such as cage changing, animal health checks, cleaning, and transporting animals produce high levels of noise. Finally, much of the equipment we have increasingly employed in animal housing spaces, such as ventilated caging motors, biosafety, or procedure cabinets, can generate high levels of background noise, including ultrasound. These and many additional factors conspire to create an acoustic environment that is neither naturalistic nor conducive to a stress-free environment. The acoustic variability both within and between institutions can serve as an enormous confounder for research studies and a threat to our ability to reproduce studies over time and between research laboratories. By gaining a better appreciation for the acoustic variables, paired with transparency in reporting the levels, we might be able to gain a better understanding of their impacts and thereby gain some level of control over such acoustic variables in the animal housing space. The result of this could improve both animal welfare and study reproducibility, helping to address our 3Rs goals of Replacement, Reduction, and Refinement in the animal biomedical research enterprise.

噪音是动物研究设施中的一个外部变量。
动物研究设施环境嘈杂。动物饲养空间所需的高换气率往往会导致供暖和制冷系统产生更高的噪音。饲养室通常使用硬质墙壁材料,这种材料易于清洁,但同时具有高混响性,这意味着声音无法控制/衰减,因此产生的声音会在室内不受控制地反弹。(柔软的吸音表面一般不能用于动物设施,因为它们会聚集微生物;有各种墙面特征和声音控制面板可供选择,但很少使用)。此外,我们的许多饲养工作,如换笼、动物健康检查、清洁和运输动物等,都会产生大量噪音。最后,我们在动物饲养空间越来越多地使用的许多设备,如通风笼电机、生物安全柜或程序柜,都会产生高水平的背景噪声,包括超声波。这些因素和许多其他因素共同造成了一种既不自然也不利于营造无压力环境的声学环境。机构内部和机构之间的声学差异会对研究产生巨大的干扰,并威胁到我们在不同时间和不同研究实验室之间重现研究的能力。通过更好地了解声学变量,再加上透明的报告水平,我们或许能更好地理解它们的影响,从而在一定程度上控制动物饲养空间中的声学变量。这样做的结果既能改善动物福利,又能提高研究的可重复性,有助于在动物生物医学研究事业中实现 "替代、减少和完善 "的 3R 目标。
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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