Gagnon P, De Koninck J, Broughton R
Sleep. 1985;8(2):118-28. doi: 10.1093/sleep/8.2.118.
A three-part study using prolonged nights of sleep was undertaken to verify Broughton's hypothesis of an approximate 12-h ultradrian rhythm of human slow wave sleep (SWS). Part I consisted of 2 8-h adaptation nights followed by a prolonged 15-h night of sleep with bedtime at midnight. A significant return of SWS occurred 12 h and 32 min after the first appearance of SWS. In part II, after 1 adaptation night, subjects were asked to sleep for 15 h but bedtime was delayed until 0400 h. A two-peak return of SWS was observed with a first significant return at 1228 h and a second significant return at 1745 h (i.e., 13 h and 32 min after the first appearance of SWS). In part III, bedtime was again delayed to 0400 h; but subjects were given 3 nights to adapt before the 15 h extended sleep. A single significant return of SWS was then observed at 1656 h, i.e., 12 h and 24 min after the first appearance with no peaks around 1200 h, thus exhibiting the same pattern as in part I. These results suggest that the return of SWS seen normally between 1200 and 1500 h is relatively well entrenched since it remained present in the extended night following sudden bedtime delay. It appears, moreover, that SWS does follow a bimodal 12-h rhythm, which is seen immediately upon extended delayed sleep and can be fully phase-shifted with habituation.
进行了一项分为三个部分的研究,采用延长夜间睡眠时间的方式来验证布劳顿关于人类慢波睡眠(SWS)存在近似12小时超日节律的假说。第一部分包括2个8小时的适应性夜晚,随后是一个延长至15小时的夜间睡眠,就寝时间为午夜。慢波睡眠在首次出现后12小时32分钟时显著恢复。在第二部分中,经过1个适应性夜晚后,受试者被要求睡15小时,但就寝时间推迟到04:00。观察到慢波睡眠出现双峰恢复,第一次显著恢复在12:28,第二次显著恢复在17:45(即慢波睡眠首次出现后13小时32分钟)。在第三部分中,就寝时间再次推迟到04:00;但在进行15小时延长睡眠前,受试者有3个夜晚进行适应。然后在16:56观察到慢波睡眠单次显著恢复,即首次出现后12小时24分钟,且在12:00左右没有峰值,因此呈现出与第一部分相同的模式。这些结果表明,正常情况下在12:00至15:00之间出现的慢波睡眠恢复相对稳固,因为在就寝时间突然推迟后的延长夜间睡眠中它依然存在。此外,似乎慢波睡眠确实遵循一种双峰12小时节律,在延长延迟睡眠后立即出现,并且可以随着习惯化完全进行相位转移。
