一种测量大鼠总自发活动的重量法。

Brandon J. Biesiadecki, P. H. Brand, L. Koch, S. Britton
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引用次数: 22

摘要

目前可用的测量实验动物自发活动的方法需要昂贵的专用设备,并且可能不适合在低光条件下与夜间活动的物种一起使用。我们开发了一种重力法,该方法使用常见的实验室设备来量化大鼠的总自发活动,适合在黑暗中使用。在家里的笼子里,老鼠被放在一个顶部装载的电子天平上,电子天平与电脑相连。运动被天平记录为重量的变化,并以10赫兹的频率传输到计算机。对数据进行在线分析,得出连续样本间权重差的绝对值,并计算绝对值的一秒平均值。将平均值写入文件以供离线分析,并在所需的观察期内进行求和,以提供总自发活动的度量。体外实验结果表明:1)记录的体重变化不受笼子底部重量位置的影响;2)一系列体重变化记录的值与计算值没有显著差异;3)放置在天平上的摆锤施加的不断减小的力被准确记录下来;4)活动的测量不受尿液等液体蒸发的影响。5)该方法可以检测睡眠和清醒大鼠在10分钟内的活动差异,以及在活动(夜间)和非活动(白天)期间记录的4小时间隔。这些结果表明,该方法提供了一种廉价、准确、无创的方法来定量小动物的自发活动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A gravimetric method for the measurement of total spontaneous activity in rats.
Currently available methods for the measurement of spontaneous activity of laboratory animals require expensive, specialized equipment and may not be suitable for use in low light conditions with nocturnal species. We developed a gravimetric method that uses common laboratory equipment to quantify the total spontaneous activity of rats and is suitable for use in the dark. The rat in its home cage is placed on a top-loading electronic balance interfaced to a computer. Movements are recorded by the balance as changes in weight and transmitted to the computer at 10 Hz. Data are analyzed on-line to derive the absolute value of the difference in weight between consecutive samples, and the one-second average of the absolute values is calculated. The averages are written to file for off-line analysis and summed over the desired observation period to provide a measure of total spontaneous activity. The results of in vitro experiments demonstrated that: 1) recorded weight changes were not influenced by position of the weight on the bottom of the cage, 2) values recorded from a series of weight changes were not significantly different from the calculated values, 3) the constantly decreasing force exerted by a swinging pendulum placed on the balance was accurately recorded, 4) the measurement of activity was not influenced by the evaporation of a fluid such as urine, and 5) the method can detect differences in the activity of sleeping and waking rats over a 10-min period, as well as during 4-hr intervals recorded during active (night-time) and inactive (daytime) periods. These results demonstrate that this method provides an inexpensive, accurate, and noninvasive method to quantitate the spontaneous activity of small animals.
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