自然睡眠过程中近听阈刺激的处理程度。
The extent of processing of near-hearing threshold stimuli during natural sleep.
机构信息
School of Psychology, University of Ottawa, Canada.
出版信息
Sleep. 2011 Sep 1;34(9):1243-9. doi: 10.5665/SLEEP.1248.
OBJECTIVES
Event-related potential (ERPs) provide an exquisite means to monitor the extent of processing of external stimulus input during sleep. The processing of relatively high intensity stimuli has been well documented. Sleep normally occurs in much less noisy environments. The present study therefore employed ERPs to examine the extent of processing of very low intensity (near-hearing threshold) stimuli.
DESIGN
Brief duration 1000 Hz auditory tone bursts varying in intensity at random from -5 to +45 dB from normative hearing level (nHL) in 10 dB steps were presented every 1.5 to 2.5 s when the subject was awake and reading a book and again during all-night sleep.
SUBJECTS
n = 10 healthy young adults.
MEASUREMENTS AND RESULTS
In the waking state, the auditory stimuli elicited a negative-going deflection, N1, peaking at about 100 ms, followed by a smaller positivity, P2, peaking at about 180 ms. N1-P2 gradually decreased in amplitude with decreases in stimulus intensity and remained visible at near-hearing threshold levels. During NREM sleep, the amplitude of N1 was at baseline level and was reduced to only 15% to 20% of its waking amplitude during REM sleep. P2 was much larger in sleep than in wakefulness. Importantly, during sleep, P2 could be reliably elicited by the auditory stimuli to within 15 dB of threshold. During NREM, a large amplitude negativity peaking at about 350 ms was elicited by the higher intensity stimuli. This N350 was much reduced in amplitude during REM sleep. A significant N350 was not, however, elicited when stimuli intensity levels were below 25 dB nHL.
CONCLUSIONS
Auditory stimuli that are only slightly above hearing threshold appear to be processed extensively during a 200 to 400 ms interval in both NREM and REM sleep. The nature of this processing is, however, very different compared to the waking state.
目的
事件相关电位(ERPs)提供了一种极好的手段来监测睡眠期间外部刺激输入的处理程度。相对高强度刺激的处理已得到充分记录。而睡眠通常发生在噪音较小的环境中。因此,本研究采用 ERPs 来检查极低强度(接近听觉阈值)刺激的处理程度。
设计
在清醒状态下,当受试者阅读书籍时,每隔 1.5 到 2.5 秒,以 10dB 的步长随机从正常听力水平(nHL)变化强度的短暂持续 1000Hz 听觉音爆发,从-5 到+45dB 进行呈现;而在整夜睡眠期间,也会再次呈现。
受试者
n=10 名健康的年轻成年人。
测量和结果
在清醒状态下,听觉刺激引发了一个负向偏转,N1,在大约 100ms 处达到峰值,随后是一个较小的正性,P2,在大约 180ms 处达到峰值。随着刺激强度的降低,N1-P2 的幅度逐渐减小,并且在接近听觉阈值水平时仍然可见。在 NREM 睡眠期间,N1 的幅度处于基线水平,并且在 REM 睡眠期间仅减少到其清醒幅度的 15%至 20%。在睡眠期间,P2 比在清醒状态下更大。重要的是,在睡眠期间,P2 可以通过听觉刺激可靠地诱发出低于阈值 15dB 的水平。在 NREM 期间,较高强度的刺激会引发一个大约 350ms 处的大振幅负性波 N350。而在 REM 睡眠期间,N350 的幅度大大减小。然而,当刺激强度水平低于 25dB nHL 时,不会引发明显的 N350。
结论
在 NREM 和 REM 睡眠期间,仅略高于听觉阈值的听觉刺激似乎在 200 到 400ms 的间隔内得到广泛处理。然而,与清醒状态相比,这种处理的性质非常不同。
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