NeuroWave Systems Inc., 2490 Lee Blvd, Suite 300, Cleveland Heights, OH 44118, USA.
J Clin Monit Comput. 2011 Apr;25(2):137-42. doi: 10.1007/s10877-011-9290-4. Epub 2011 Jul 21.
Visual scoring of 30-s epochs of sleep data is not always adequate to show the dynamic structure of sleep in sufficient details. It is also prone to considerable inter- and intra-rater variability. Moreover, it involves considerable training and experience, and is very tedious, time-consuming, labor-intensive and costly. Hence, automatic sleep staging is needed to overcome these limitations. Since naturally occurring NREM sleep and anesthesia have been reported to possess various underlying neurophysiological similarities, EEG-based depth-of-anesthesia monitors have started to penetrate into sleep research. This study investigates the ability of WAV(CNS) index (as implemented in NeuroSENSE depth-of-anesthesia monitor) to detect NREM sleep stages and wake state for full overnight PSG data.
Full overnight PSG sleep data, obtained from 24 adolescents, was scored by a registered PSG technologist for different sleep stages. Retrospective analysis was performed on a single frontal channel using the WAV(CNS) algorithm. Non-parametric descriptive statistics were used to examine the relationship between WAV(CNS) index and sleep stages.
A strong correlation (ρ = 0.9458) was found between the WAV(CNS) index and NREM sleep stages, with WAV(CNS) index values decreasing with increasing sleep stages. Moreover, there was no significant overlap between different NREM sleep stages as classified by the WAV(CNS) index, which was able to significantly differentiate (P < 0.001) between all pairs of Awake and different NREM stages.
This study demonstrates that changes in the depth of natural NREM sleep are reflected sensitively by changes in the WAV(CNS) index. Hence, WAV(CNS) index may serve as an automatic real-time indicator of depth of natural sleep with high temporal resolution, and can possibly be of great use for automated sleep staging in routine/postoperative somnographic studies.
30 秒睡眠数据的视觉评分并不总是足以充分详细地显示睡眠的动态结构。它也容易受到相当大的观察者内和观察者间的变异性的影响。此外,它需要相当的培训和经验,并且非常繁琐、耗时、劳动密集且昂贵。因此,需要自动睡眠分期来克服这些限制。由于已经报道了自然发生的非快速眼动 (NREM) 睡眠和麻醉具有各种潜在的神经生理学相似性,基于脑电图的麻醉深度监测器已开始渗透到睡眠研究中。本研究调查了 WAV(CNS) 指数(在 NeuroSENSE 麻醉深度监测器中实现)检测 NREM 睡眠阶段和清醒状态的能力,用于整夜 PSG 数据。
从 24 名青少年中获得整夜 PSG 睡眠数据,并由注册 PSG 技术员对不同的睡眠阶段进行评分。使用 WAV(CNS) 算法对单个额通道进行回顾性分析。使用非参数描述性统计来检查 WAV(CNS)指数与睡眠阶段之间的关系。
发现 WAV(CNS)指数与 NREM 睡眠阶段之间存在很强的相关性(ρ=0.9458),随着睡眠阶段的增加,WAV(CNS)指数值降低。此外,不同的 NREM 睡眠阶段之间没有明显的重叠,WAV(CNS)指数能够显著区分(P<0.001)清醒和不同的 NREM 阶段。
本研究表明,自然 NREM 睡眠深度的变化敏感地反映在 WAV(CNS)指数的变化中。因此,WAV(CNS)指数可以作为一种自动实时的自然睡眠深度指标,具有高时间分辨率,并且可能在常规/术后 somnographic 研究中的自动睡眠分期中非常有用。
