大鼠发育过程中的睡眠/觉醒动力学变化。

Sleep/Wake Dynamics Changes during Maturation in Rats.

机构信息

Sleep-Wake Disorders Unit, Soroka University Medical Center and Department of Physiology, Faculty of Health Sciences, Ben-Gurion University of the Negev, Beer-Sheva, Israel; Unit of Biomedical Engineering, Department of Physics, Jerusalem College of Technology, Jerusalem, Jerusalem, Israel.

Sleep-Wake Disorders Unit, Soroka University Medical Center and Department of Physiology, Faculty of Health Sciences, Ben-Gurion University of the Negev, Beer-Sheva, Israel; Shraga Segal Department of Microbiology and Immunology, Faculty of Health Sciences, Ben-Gurion University of the Negev, Beer-Sheva, Israel.

出版信息

PLoS One. 2015 Apr 20;10(4):e0125509. doi: 10.1371/journal.pone.0125509. eCollection 2015.

DOI:10.1371/journal.pone.0125509

PMID:25894573

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4404317/

Abstract

OBJECTIVES

Conventional scoring of sleep provides little information about the process of transitioning between vigilance states. We applied the state space technique (SST) using frequency band ratios to follow normal maturation of different sleep/wake states, velocities of movements, and transitions between states of juvenile (postnatal day 34, P34) and young adult rats (P71).

DESIGN

24-h sleep recordings of eight P34 and nine P71 were analyzed using conventional scoring criteria and SST one week following implantation of telemetric transmitter. SST is a non-categorical approach that allows novel quantitative and unbiased examination of vigilance-states dynamics and state transitions. In this approach, behavioral changes are described in a 2-dimensional state space that is derived from spectral characteristics of the electroencephalography.

MEASUREMENTS AND RESULTS

With maturation sleep intensity declines, the duration of deep slow wave sleep (DSWS) and light slow wave sleep (LSWS) decreases and increases, respectively. Vigilance state determination, as a function of frequency, is not constant; there is a substantial shift to higher ratio 1 in all vigilance states except DSWS. Deep slow wave sleep decreases in adult relative to juvenile animals at all frequencies. P71 animals have 400% more trajectories from Wake to LSWS (p = 0.005) and vice versa (p = 0.005), and 100% more micro-arousals (p = 0.021), while trajectories from LSWS to DSWS (p = 0.047) and vice versa (p = 0.033) were reduced by 60%. In both juvenile and adult animals, no significant changes were found in sleep velocity at all regions of the 2-dimensional state space plot; suggesting that maturation has a partial effect on sleep stability.

CONCLUSIONS

Here, we present novel and original evidence that SST enables visualization of vigilance-state intensity, transitions, and velocities that were not evident by traditional scoring methods. These observations provide new perspectives in sleep state dynamics and highlight the usefulness of this technique in exploring the development of sleep-wake activity.

摘要

目的

传统的睡眠评分方法提供的信息很少，无法了解警觉状态之间的转换过程。我们应用频带比的状态空间技术（SST）来跟踪不同睡眠/觉醒状态、运动速度以及幼鼠（出生后第 34 天，P34）和年轻成年大鼠（P71）之间状态转换的正常成熟过程。

设计

使用传统评分标准和 SST 对植入遥测发射器后一周的 8 只 P34 和 9 只 P71 的 24 小时睡眠记录进行分析。SST 是一种非分类方法，可对警觉状态动力学和状态转换进行新颖的定量和无偏检验。在这种方法中，行为变化是在从脑电图频谱特征得出的二维状态空间中描述的。

测量和结果

随着成熟，睡眠强度下降，深慢波睡眠（DSWS）和浅慢波睡眠（LSWS）的持续时间分别减少和增加。作为频率的函数，警觉状态的确定并不恒定；除 DSWS 外，所有警觉状态都有向更高的 1 比值的实质性转变。与幼年动物相比，成年动物的 DSWS 在所有频率下都减少了。P71 动物从清醒到 LSWS 的轨迹增加了 400%（p = 0.005），反之亦然（p = 0.005），微觉醒增加了 100%（p = 0.021），而从 LSWS 到 DSWS 的轨迹（p = 0.047）和反之亦然（p = 0.033）减少了 60%。在幼年和成年动物中，在二维状态空间图的所有区域，睡眠速度均无明显变化；这表明成熟对睡眠稳定性有部分影响。

结论

在这里，我们提供了新颖的原始证据，表明 SST 能够可视化警觉状态的强度、转换和传统评分方法无法明显观察到的速度。这些观察结果为睡眠状态动力学提供了新的视角，并强调了该技术在探索睡眠-觉醒活动发展中的有用性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/885b/4404317/98108f1871ea/pone.0125509.g001.jpg

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大鼠发育过程中的睡眠/觉醒动力学变化。

Sleep/Wake Dynamics Changes during Maturation in Rats.

机构信息

出版信息

OBJECTIVES

DESIGN

MEASUREMENTS AND RESULTS

CONCLUSIONS

目的

设计

测量和结果

结论

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