新生儿睡眠期间心率变异性频谱与自主神经活动的关系
Relationship between frequency spectrum of heart rate variability and autonomic nervous activities during sleep in newborns.
作者信息
Takatani Tsunenori, Takahashi Yukihiro, Yoshida Ryota, Imai Ryuko, Uchiike Takao, Yamazaki Masaharu, Shima Midori, Nishikubo Toshiya, Ikada Yoshito, Fujimoto Shinichi
机构信息
Division of Central Clinical Laboratory, Nara Medical University, 840 Shijo, Kashihara, Nara 634-8522, Japan; Education Development Center, Nara Medical University, 840 Shijo, Kashihara, Nara 634-8522, Japan.
Division of Neonatal Intensive Care, Center of Maternal Fetal Medicine, Nara Medical University, 840 Shijo, Kashihara, Nara 634-8522, Japan.
出版信息
Brain Dev. 2018 Mar;40(3):165-171. doi: 10.1016/j.braindev.2017.09.003. Epub 2017 Oct 31.
INTRODUCTION
We analyzed the frequency spectrum of two neonatal sleep stages, namely active sleep and quiet sleep, and the relationship between these sleep stages and autonomic nervous activity in 74 newborns and 16 adults as a comparison.
METHOD
Active and quiet sleep were differentiated by electroencephalogram (EEG) patterns, eye movements, and respiratory wave patterns; autonomic activity was analyzed using the RR interval of simultaneously recorded electrocardiogram (ECG) signals. Power values (LFa, absolute low frequency; HFa, absolute high frequency), LFa/HFa ratio, and the values of LFn (normalized low frequency) and HFn (normalized high frequency) were obtained. Synchronicity between the power value of HFa and the LFa/HFa ratio during active and quiet sleep was also examined by a new method of chronological demonstration of the power values of HFa and LFa/HFa.
RESULTS
We found that LFa, HFa and the LFa/HFa ratio during active sleep were significantly higher than those during quiet sleep in newborns; in adults, on the other hand, the LFa/HFa ratio during rapid eye movement (REM) sleep, considered as active sleep, was significantly higher than that during non-REM sleep, considered as quiet sleep, and HFa values during REM sleep were significantly lower than those during non-REM sleep. LFn during quiet sleep in newborns was significantly lower than that during active sleep. Conversely, HFn during quiet sleep was significantly higher than that during active sleep. Analysis of the four classes of gestational age groups at birth indicated that autonomic nervous activity in a few preterm newborns did not reach the level seen in full-term newborns. Furthermore, the power value of HFa and the LFa/HFa ratio exhibited reverse synchronicity.
CONCLUSION
These results indicate that the autonomic patterns in active and quiet sleep of newborns are different from those in REM and non-REM sleep of adults and may be develop to the autonomic patterns in adults, and that parasympathetic activity is dominant during quiet sleep as compared to active sleep from the results of LFn and HFn in newborns. In addition, in some preterm infants, delayed development of the autonomic nervous system can be determined by classifying the autonomic nervous activity pattern of sleep stages.
引言
我们分析了74名新生儿和16名成年人两个新生儿睡眠阶段,即主动睡眠和安静睡眠的频谱,以及这些睡眠阶段与自主神经活动之间的关系作为比较。
方法
通过脑电图(EEG)模式、眼动和呼吸波模式区分主动睡眠和安静睡眠;使用同时记录的心电图(ECG)信号的RR间期分析自主活动。获得功率值(LFa,绝对低频;HFa,绝对高频)、LFa/HFa比值以及LFn(归一化低频)和HFn(归一化高频)的值。还通过一种新的按时间顺序展示HFa和LFa/HFa功率值的方法,研究了主动睡眠和安静睡眠期间HFa功率值与LFa/HFa比值之间的同步性。
结果
我们发现新生儿主动睡眠期间的LFa、HFa和LFa/HFa比值显著高于安静睡眠期间;另一方面,在成年人中,被视为主动睡眠的快速眼动(REM)睡眠期间的LFa/HFa比值显著高于被视为安静睡眠的非REM睡眠期间,且REM睡眠期间的HFa值显著低于非REM睡眠期间。新生儿安静睡眠期间的LFn显著低于主动睡眠期间。相反,安静睡眠期间的HFn显著高于主动睡眠期间。对四类出生时的胎龄组进行分析表明,一些早产儿的自主神经活动未达到足月儿的水平。此外,HFa功率值和LFa/HFa比值呈现反向同步性。
结论
这些结果表明,新生儿主动睡眠和安静睡眠中的自主模式不同于成年人REM睡眠和非REM睡眠中的自主模式,并且可能发展为成年人的自主模式,并且从新生儿的LFn和HFn结果来看,安静睡眠期间副交感神经活动比主动睡眠期间占主导。此外,在一些早产儿中,可以通过对睡眠阶段的自主神经活动模式进行分类来确定自主神经系统的发育延迟。
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