Scheduling overview: Difference between revisions
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Cancername (talk | contribs) Add information about NREM3/SWS' role in memory processing and the possible association with HGH. |
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NREM Stage 3, accounting for 15-25% of total sleep, is the deepest of all sleep stages. This stage contains primarily [[Wikipedia:delta waves|delta waves]], which are high-amplitude and low-frequency. Hence, this stage is also known as slow-wave sleep (SWS). It is very difficult to wake up from this stage; attempts at doing so tend to result in [[Special:MyLanguage/sleep inertia|sleep inertia]] -- a period of intense grogginess and impaired cognitive function. This stage of sleep plays a critical role in the maintenance of the brain through the [[Wikipedia:Glymphatic system|glymphatic system]]. This process takes about 30 to 60 minutes of continuous NREM3 to complete, and could be hindered by schedules containing only short naps. | NREM Stage 3, accounting for 15-25% of total sleep, is the deepest of all sleep stages. This stage contains primarily [[Wikipedia:delta waves|delta waves]], which are high-amplitude and low-frequency. Hence, this stage is also known as slow-wave sleep (SWS). It is very difficult to wake up from this stage; attempts at doing so tend to result in [[Special:MyLanguage/sleep inertia|sleep inertia]] -- a period of intense grogginess and impaired cognitive function. This stage of sleep plays a critical role in the maintenance of the brain through the [[Wikipedia:Glymphatic system|glymphatic system]]. This process takes about 30 to 60 minutes of continuous NREM3 to complete, and could be hindered by schedules containing only short naps. NREM3 plays an important role in memory processing.<ref>{{Cite journal| doi = 10.5664/jcsm.5.2S.S20| issn = 1550-9389 | volume = 5| issue = 2 suppl| last = Walker| first = Matthew P.| title = The Role of Slow Wave Sleep in Memory Processing| journal = Journal of Clinical Sleep Medicine| access-date = 2025-06-07| date = 2009-04-15| url = http://jcsm.aasm.org/doi/10.5664/jcsm.5.2S.S20}}</ref> It is likely that SWS and the production of Human Growth Hormone is associated<ref>{{Cite journal| doi = 10.1016/0306-4530(88)90021-2| issn = 03064530| volume = 13| issue = 3| pages = 233–243| last = Born| first = J| title = The significance of sleep onset and slow wave sleep for nocturnal release of growth hormone (GH) and cortisol| journal = Psychoneuroendocrinology| access-date = 2025-06-07| date = 1988| url = https://linkinghub.elsevier.com/retrieve/pii/0306453088900212}}</ref>, however, this is disputed.<ref>{{Cite journal| doi = 10.1016/0006-3223(90)90441-4| issn = 00063223| volume = 27| issue = 5| pages = 497–509| last1 = Jarrett| first1 = David B.| last2 = Greenhouse| first2 = Joel B.| last3 = Miewald| first3 = Jean M.| last4 = Fedorka| first4 = Iva B.| last5 = Kupfer| first5 = David J.| title = A reexamination of the relationship between growth hormone secretion and slow wave sleep using delta wave analysis| journal = Biological Psychiatry| access-date = 2025-06-07| date = 1990| url = https://linkinghub.elsevier.com/retrieve/pii/0006322390904414}}</ref> | ||
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However, as NREM 2 gets reduced, the ability to stay awake for long periods diminishes. This is why schedules with less total sleep time (TST) need more sleeps spread throughout the day to be sustainable. Taking a ~20-minute nap or a ~90-minute single-cycle core helps a polyphasic sleeper sustain wakefulness. Maximum wake gaps are dependent on the schedule, time of day, as well as the sleeper's individual needs. With gaps too large, one will always experiences bouts of tiredness during it and be unable to fully adapt to the schedule. | However, as NREM 2 gets reduced, the ability to stay awake for long periods diminishes. This is why schedules with less total sleep time (TST) need more sleeps spread throughout the day to be sustainable. Taking a ~20-minute nap or a ~90-minute single-cycle core helps a polyphasic sleeper sustain wakefulness. Maximum wake gaps are dependent on the schedule, time of day, as well as the sleeper's individual needs. With gaps too large, one will always experiences bouts of tiredness during it and be unable to fully adapt to the schedule. | ||
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==Circadian rhythm== | |||
{{TNT|Further|Dark period}} | {{TNT|Further|Dark period}} | ||
The circadian rhythm is the body clock aligned to local solar time by light exposure and food intake, among other factors. It generates hormonal changes throughout the day consistently to produce effects on the body. One of the main effects is the secretion of [[Wikipedia:Melatonin|melatonin]], the presence of which is essential for entering SWS, and also affects the timing of REM sleep. | The circadian rhythm is the body clock aligned to local solar time by light exposure and food intake, among other factors. It generates hormonal changes throughout the day consistently to produce effects on the body. One of the main effects is the secretion of [[Wikipedia:Melatonin|melatonin]], the presence of which is essential for entering SWS, and also affects the timing of REM sleep. | ||
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To maintain the stability of the circadian rhythm, all polyphasic sleep schedules must stay relatively consistent day-to-day, without large changes in core or dark period timings. As such, schedules that are not aligned with the 24-hour day are unsustainable and unhealthy. Examples of which includes cycles longer than 24 hours (delaying sleep phases continually) or employing drastically different sleep schedules on a day-to-day basis. | To maintain the stability of the circadian rhythm, all polyphasic sleep schedules must stay relatively consistent day-to-day, without large changes in core or dark period timings. As such, schedules that are not aligned with the 24-hour day are unsustainable and unhealthy. Examples of which includes cycles longer than 24 hours (delaying sleep phases continually) or employing drastically different sleep schedules on a day-to-day basis. | ||
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==Minimum sleep threshold== | |||
{{see also|Age}} | {{see also|Age}} | ||
Since vital sleep stages are generally not possible to reduce, the extent of compression required to sustain a schedule increases dramatically as total sleep time reduces. Compressing sleep, however, requires adaptation, and greater levels of compression necessitates harsher and/or longer adaptations. As such, schedules can be classified by their difficulty level, which is mostly a function of the amount of sleep cut. | Since vital sleep stages are generally not possible to reduce, the extent of compression required to sustain a schedule increases dramatically as total sleep time reduces. Compressing sleep, however, requires adaptation, and greater levels of compression necessitates harsher and/or longer adaptations. As such, schedules can be classified by their difficulty level, which is mostly a function of the amount of sleep cut. | ||
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|Not usually recommended for beginners due to insufficient evidence of them working | |Not usually recommended for beginners due to insufficient evidence of them working | ||
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== References == | |||
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{{TNT|Polyphasic Sleep Schedules}} | {{TNT|Polyphasic Sleep Schedules}} | ||
