Neurology Section, Hospital de Clínicas de Porto Alegre, Rua Ramiro Barcelos 2350/sala 2040/90035-003 Porto Alegre, RS, Brazil.
J Neurosci Methods. 2011 Apr 15;197(1):158-64. doi: 10.1016/j.jneumeth.2011.01.025. Epub 2011 Feb 1.
Sleep spindles are considered as a marker of integrity for thalamo-cortical circuits. Recently, attention has been given to internal frequency variation in sleep spindles. In this study, a procedure based on matching pursuit with a Gabor-chirplet dictionary was applied in order to measure chirp rate in atoms representing sleep spindles, also categorized into negative, positive or zero chirp types. The sample comprised 707 EEG segments containing visual sleep spindles, labeled TP, obtained from nine healthy male volunteers (aged 20-34, average 24.6 y). Control datasets were 333 non-REM (NREM) sleep background segments and 287 REM sleep intervals, each with 16s duration. Analyses were carried out on the C3-A2 EEG channel. In TP and NREM groups, the proportion of non-null chirp types was non-random and total chirp distribution was asymmetrical towards negative values, in contrast to REM. Median negative chirp rate in the TP and NREM groups was significantly lower than in REM (-0.4 Hz/s vs -0.3 Hz/s, P < 0.05). Negative chirp atoms outnumbered positives by 50% in TP, while in NREM and REM, they were, respectively, only 22% and 12% more prevalent. TP negative chirp atoms were significantly higher in amplitude compared to positive or zero types. Considering individual subjects, 88.9% had a TP negative/positive chirp ratio above 1 (mean ± sd=1.64 ± 0.65). We propose there is increasing evidence, corroborated by the present study, favoring systematic measurement of sleep spindle chirp rate or internal frequency variation. Preferential occurrence of negatively chirping spindles is consistent with the hypothesis of electrophysiological modulation of neocortical memory consolidation.
睡眠梭形波被认为是丘脑皮质回路完整性的标志物。最近,人们开始关注睡眠梭形波的内部频率变化。在这项研究中,应用了一种基于匹配追踪和 Gabor-chirplet 字典的方法,以测量代表睡眠梭形波的原子的啁啾率,也分为负啁啾、正啁啾或零啁啾类型。样本包括 707 个含有视觉睡眠梭形波的 EEG 段,这些段标记为 TP,取自 9 名健康男性志愿者(年龄 20-34 岁,平均 24.6 岁)。对照数据集包括 333 个非快速眼动(NREM)睡眠背景段和 287 个快速眼动(REM)睡眠间隔,每个间隔持续 16s。分析在 C3-A2 EEG 通道上进行。在 TP 和 NREM 组中,非零啁啾类型的比例是非随机的,总啁啾分布偏向负值,与 REM 相反。TP 和 NREM 组的负啁啾率中位数明显低于 REM(-0.4 Hz/s 比-0.3 Hz/s,P < 0.05)。TP 中的负啁啾原子比正啁啾原子多 50%,而在 NREM 和 REM 中,分别只多 22%和 12%。TP 中的负啁啾原子的振幅明显高于正啁啾或零啁啾类型。考虑到个体受试者,88.9%的受试者的 TP 负/正啁啾比高于 1(平均值±标准差=1.64±0.65)。我们提出越来越多的证据支持这一观点,即系统测量睡眠梭形波的啁啾率或内部频率变化。负啁啾梭形波的优先发生与新皮层记忆巩固的电生理调制假说一致。
