分形调节在时间活动波动:生物标志物的昼夜节律控制及超越。

JSM biomarkers Pub Date : 2017-01-01 Epub Date: 2017-01-17
Peng Li, Tommy To, Wei-Yin Chiang, Carolina Escobar, Ruud M Buijs, Kun Hu
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摘要

人类和其他动物的运动活动具有分形的时间波动,与昼夜节律或日常活动节律共存。分形活动模式的扰动通常伴随着昼夜节律的改变。本研究的目的是测试运动活动的分形调节是否提供独立于24小时/昼夜节律的生理信息。为了实现这一目标,我们研究了视交叉上核(SCN)损伤的大鼠的运动活动记录,这些损伤已知会降低昼夜节律/日常活动节奏和扰乱分形调节。通过限制进食时间(即,食物仅在12h: 12h光-暗周期的黑暗时期可用),我们发现这些动物的平均活动水平显示出显著的24小时节律。相比之下,限食对scn损伤动物的扰动分形调节没有影响,即在2-20h的大范围时间尺度内,这些动物的活动波动保持随机。我们的研究结果表明,24小时的食物供应节奏可以恢复/改善scn损伤动物的昼夜节律,但不一定能改善这些动物被破坏的分形活动调节。这项研究提供了清晰和直接的证据,证明分形活动模式在24小时节律控制之外的多个时间尺度上提供了关于运动活动调节的补充信息。
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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Fractal Regulation in Temporal Activity Fluctuations: A Biomarker for Circadian Control and Beyond.

Motor activity in humans and other animals possesses fractal temporal fluctuations that co-exists with circadian or daily activity rhythms. The perturbations in fractal activity patterns are often accompanied by altered circadian/daily rhythms. The goal of this study is to test whether fractal regulation in motor activity provides physiological information independent from 24-h/circadian rhythmicity. To achieve the goal, we studied locomotor activity recordings of rats with the lesion of the suprachiasmatic nucleus (SCN) that are known to have diminished circadian/daily activity rhythms and perturbed fractal regulation. By restricting feeding time (i.e., food was only availability in the dark period of the 12h: 12h light-dark cycles), we found that mean activity levels in these animals displayed significant 24-h rhythms. In contrast, the restricted feeding had no influences on the perturbed fractal regulation in these SCN-lesioned animals, i.e., activity fluctuations in these animals remained random over a wide range of time scales from 2-20h. Our results indicate that 24-h rhythm of food availability can restore/improve circadian/daily rhythms in the SCN-lesioned animals but not necessarily improve the disrupted fractal activity regulation in these animals. This study provides clear and direct evidence that fractal activity patterns offer complementary information about motor activity regulation at multiple time scales that is beyond 24-h rhythm control.

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