De Gennaro L, Ferrara M, Ferlazzo F, Bertini M
Dipartimento di Psicologia, Sezione di Neuroscienze, Università degli Studi di Roma, "La Sapienza", Via dei Marsi, 78; 00185, Roma, Italy.
Clin Neurophysiol. 2000 Dec;111(12):2107-15. doi: 10.1016/s1388-2457(00)00476-4.
The aim of the present study was to assess the relationship between slow eye movements (SEMs) and quantitative EEG measures during the wake-sleep transition.
Individual distributions were aligned with respect to the onset of stage 2 to provide an unequivocal hallmark of the beginning of sleep and to reduce the sources of variability in this transition. The relationship between EEG spectral powers and EOG changes was assessed by means of product-moment correlations and bootstrap analyses for individual time series, and by means of a multiple regression analysis for the entire sample.
Results on the individual distributions as well as on averaged data showed a tight relationship between SEMs and EEG changes, negative across the 1-14 Hz frequency range and positive across the 15-30 Hz one. Spectral power in the sigma EEG band, that corresponds to the frequency at the phasic sleep spindles, resulted as the best predictor of SEM variations, being negatively correlated to the EOG changes. With respect to the other EEG frequency bands, the split half of the distributions with respect to stage 2 onset indicated a positive correlation of delta power with the increase of SEM activity before sleep onset, and of beta power with the decrease of SEMs after sleep onset.
These results seem to suggest that sleep spindles could trigger the reduction and the final disappearance of slow eye movements in the late part of the wake-sleep transition.
本研究旨在评估清醒 - 睡眠转换期间慢眼动(SEMs)与定量脑电图测量之间的关系。
个体分布根据睡眠二期的起始点进行对齐,以提供明确的睡眠开始标志,并减少此转换过程中的变异性来源。通过对个体时间序列进行积差相关和自助法分析,以及对整个样本进行多元回归分析,评估脑电图频谱功率与眼电图变化之间的关系。
个体分布以及平均数据的结果表明,慢眼动与脑电图变化之间存在紧密关系,在1 - 14赫兹频率范围内呈负相关,在15 - 30赫兹频率范围内呈正相关。对应于睡眠梭形波相位频率的西格玛脑电图频段的频谱功率,是慢眼动变化的最佳预测指标,与眼电图变化呈负相关。关于其他脑电图频段,根据睡眠二期起始点对分布进行的对半划分表明,δ波功率与睡眠开始前慢眼动活动的增加呈正相关,β波功率与睡眠开始后慢眼动的减少呈正相关。
这些结果似乎表明,睡眠梭形波可能在清醒 - 睡眠转换后期引发慢眼动的减少及最终消失。
