小鼠(Mus musculus)对设施内常规运输方法产生的噪音和振动及其反应。

Jessica R Cordingley, Jean Nemzek, Nathan Qi
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引用次数: 0

摘要

小鼠的院内运输是实验室和饲养人员的一项基本职能。然而,运输可能会引起应激反应,从而改变研究结果并对动物福利产生负面影响。为了确定最低限度的设施内运输方法,我们测量了各种运输工具(手推车、不锈钢架、平板车、金属茶车、塑料茶车和带气动轮的推车)在运输过程中的笼内噪音和振动暴露。测试了笼下和笼内衬垫在每种运输工具上降低噪音和振动的能力。然后测量了小鼠在使用最不利(金属茶车)和最不利(气动车)的多笼运输方法运输后的行为(开阔地试验和高架加迷宫)和皮质酮反应。行为测量结果表明,在单人饲养和集体饲养环境下,转运小鼠与未转运小鼠之间没有差异。使用金属茶车运输的小鼠在运输后血浆皮质酮明显升高,在取样的 48 小时内昼夜节律峰值继续呈上升趋势。带气动轮的推车在减少噪音和振动方面最为有效,这反映在运输后的皮质酮读数与未运输小鼠的读数相当。这项研究表明,减轻推车运输过程中的噪音和振动可降低运输对小鼠某些应激参数的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Noise and Vibration Generation and Response of Mice (Mus musculus) to Routine Intrafacility Transportation Methods.

Intrafacility transport of mice is an essential function for both laboratory and husbandry personnel. However, transport may induce a stress response that can alter research findings and negatively impact animal welfare. To determine minimally adverse intrafacility transport methods, in-cage noise and vibration exposure during transport on a variety of transport vehicles (hand carrying, stainless steel rack, flatbed cart, metal teacart, plastic teacart, and a cart with pneumatic wheels) were measured. Under-cage and in-cage padding was tested for its ability to decrease noise and vibration on each vehicle. Behavioral (open field test and elevated plus maze) and corticosterone responses of mice were then measured following transport on the most adverse (metal teacart) and least adverse (pneumatic cart) methods of multicage transport. Behavioral measures showed no difference between transported mice and untransported mice in both single- and group-housed settings. Plasma corticosterone was significantly elevated in mice transported on the metal teacart immediately following transport and continued to have elevated trends in circadian peaks during the 48h of sampling. The cart with pneumatic wheels was most effective at reducing noise and vibration, reflected in posttransport corticosterone readings that remained equivalent to those in untransported mice. This study demonstrates that mitigation of noise and vibration during cart transport may decrease the impact of transport on certain stress parameters in mice.

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