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Sleep onset

sleep onset insomnia, sleep onset latency
Sleep onset is the transition from wakefulness into sleep Sleep onset usually transmits into non-rapid eye movement sleep NREM sleep but under certain circumstances eg narcolepsy it is possible to transit from wakefulness directly into rapid eye movement sleep REM sleep


  • 1 History
  • 2 Physiological overview
  • 3 Neural circuit
  • 4 References
  • 5 See also


During the 1920s an obscure disorder that caused encephalitis and attacked the part of the brain that regulates sleep influenced Europe and North America Although the virus that caused this disorder was never identified, the psychiatrist and neurologist Constantin von Economo decided to study this disease and identified a key component in the sleep-wake regulation He identified the pathways that regulated wakefulness and sleep onset by studying the parts of the brain that were affected by the disease and the consequences it had on the circadian rhythm He stated that the pathways that regulated sleep onset are located between the brain stem and the basal forebrain His discoveries were not appreciated until the last two decades of the 20th century when the pathways of sleep onset were found to reside in the exact place that Constantin von Economo stated1

Physiological overviewedit

Sleep electrophysiological measurements can be made by attaching electrodes to the scalp to measure the electroencephalogram EEG and to the chin to monitor muscle activity, recorded as the electromyogram EMG Electrodes attached around the eyes monitor eye movements, recorded as the electro-oculogram EOG2

Von Economo, in his studies, noticed that lesions in the connection between the midbrain and the diencephalon caused prolonged sleepiness and therefore proposed the idea of an ascending arousal system During the past few decades major ascending pathways have been discovered with located neurons and respective neurotransmitters This pathway divides into two branches: one that ascends to the thalamus and activates the thalamus relay neurons, and another one that activates neurons in the lateral part of the hypothalamus and the basal forebrain, and throughout the cerebral cortex The cell group involved in the first pathway is an acetylcholine-producing cell group called pedunculopontine and laterodorsal tegmental nucleusPPT/LDT These neurons play a crucial role in bridging information in between the thalamus and the cerebral cortex These neurons have high activation during wakefulness and during REM sleep and a low activation during NREM sleep The second branch originates from monoaminorgenic neurons These neurons are located in the locus coeruleus, dorsal and median raphe nuclei, ventral periaqueductal grey matter, and tuberomammillary nucleus Each group produces a different neurotransmitter The neurons in the locus coeruleus produce noradrenaline, as fore the neurons in the dorsal and median raphe nuclei, ventral periaqueductal grey matter, and tuberomammillary nucleus produce serotonin, dopamine and histamine respectively They then project onto the hypothalamic peptidergic neurons, which contain melanin-concentrated hormones or orexin, and basal forebrain neurons which contain GABA and acetylcholine These neurons then project onto the cerebral cortex It has also been discovered that lesions to this part of the brain cause prolonged sleep or may produce coma1345

The sleep cycle is normally defined in stages When an individual first begins to sleep, stage 1 is entered, marked by the presence of some theta activity, which indicates that the firing of neurons in the neocortex is becoming more synchronized, as well as alpha wave activity smooth electrical activity of 8–12 Hz recorded from the brain, generally associated with a state of relaxation This stage is a transition between sleep and wakefulness An individual's eyelids will from time to time slowly open and close and their eyes will roll upward and downward Before one reaches sound sleep, stage 2 is entered The EEG during this phase is normally irregular, but contains periods of theta activity, sleep spindles, and K complexes Sleep spindles are short bursts of waves of 12–14 Hz that occur between two and five times a minute during states 1-4 of sleep They appear to play a role in memory consolidation, and increased number of sleep spindles are correlated with increased scores on tests of intelligence K complexes are sudden, sharp waveforms, which, unlike sleep spindles, are usually found only during stage 2 of sleep They spontaneously occur at the rate of approximately one per minute, but often can be triggered by unexpected noises It has been found that K complexes consist of isolated periods of inhibition They appear to be the precursor of delta waves, also known as slow wave sleep, which appear during the deepest levels of sleep Both these stages are classified as non-REM sleep2

Neural circuitedit

Sleep onset is finally induced by sleep-promoting neurons, located in the ventrolateral preoptic nucleus VLPO The sleep-promoting neurons are believed to project GABA type A and galanin, two known inhibitory neurotransmitters, to arousal-promoting neurons, such as histaminergic, serotonergic, orexinergic, noradrenergic, and cholinergic neurons neurons mentioned above Levels of acetylcholine, norepinepherine, serotonin, and histamine decrease with the onset of sleep, for they are all wakefulness promoting neurotransmitters2 Therefore, it is believed that the activation of sleep-promoting neurons causes the inhibition of arousal-promoting neurons, which leads to sleep Evidence has shown that during the sleep-wake cycle, sleep-promoting neurons and the arousal-promoting neurons have reciprocal discharges, and that during NREM sleep, GABA receptors increase in the arousal-promoting neurons This had led some to believe that the increase of GABA receptors in the arousal-promoting neurons is another pathway of inducing sleep1345

Specifically, Adenosine is known as the sleep promoting nucleoside neuromodulator Astrocytes maintain a small stock of nutrients in the form of glycogen In times of increased brain activity, such as during daytime, this glycogen is converted into fuel for neurons; thus, prolonged wakefulness causes a decrease in the level of glycogen in the brain A fall in the level of glycogen causes an increase in the level of extracellular adenosine, which has an inhibitory effect in neural activity This accumulation of adenosine serves as a sleep-promoting substance Additionally, the production of the neurotransmitter acetylcholine increases in the hippocampus as sleep continues, and also increases in the cortex until REM sleep is reached2

The majority of sleep neurons are located in the ventrolateral preoptic area vlPOA These sleep neurons are silent until an individual shows a transition from waking to sleep6 The sleep neurons in the preoptic area receive inhibitory inputs from some of the same regions they inhibit, including the tubermammillary nucleus, raphe nuclei, and locus coeruleus7 Thus, they are inhibited by histamine, serotonin, and norepinepherine This mutual inhibition may provide the basis for establishing periods of sleep and waking A reciprocal inhibition also characterizes an electronic circuit known as the flip-flop A flip-flop can assume one of two states, usually referred to as on or off Thus, either the sleep neurons are active and inhibit the wakefulness neurons, or the wakefulness neurons are active and inhibit the sleep neurons, Because these regions are mutually inhibitory, it is impossible for neurons in both sets of regions to be active at the same time This flip-flop, switching from one state to another quickly, can be unstable8


  1. ^ a b c Saper, CB; Scammell, TE; Lu, J 2005 "Hypothalamic regulation of sleep and circadian rhythms" Nature 437 7063: 1257–1264 doi:101038/nature04284 PMID 16251950 
  2. ^ a b c d Carlson, Neil 2013 Physiology of Behavior University of Massachusetts, Amherst: Pearson p 744 ISBN 978-0-205-23939-9 
  3. ^ a b Zhi-Li Haung; Yoshihiro Urade; Osamu Hayaishi 2009 "Prostanglan and adenosine in the regulation of sleep and wakefulness" Journal of Physiology 437: 7:33–38 
  4. ^ a b McGinty, D; Szymusiak, R 2008 "Hypothalamic regulation of sleep and arousal" Frontiers in Bioscience 8: 1257–1264 
  5. ^ a b Gallopin, T; Luppi, PH; Cauli, B; Urade, Y; Rossier, J; Hayaishi, O; Lambolez, B; Fort, P 2005 "The endogenous somnogen adenosine excites a subset of sleep-promoting neurons via A2A receptors in the ventrolateral preoptic nucleus" Neuroscience 134 4: 1377–90 doi:101016/jneuroscience200505045 PMID 16039802 
  6. ^ Takahashi, K; JS Lin; K Sakai June 16, 2009 "Characterization and mapping of sleep-waking specific neurons in the basal forebrain and preoptic hypothalamus in mice" Neuroscience 161 1: 269–292 doi:101016/jneuroscience200902075 PMID 19285545 
  7. ^ Chou, TC; AA Bjorkum; SE Gaus; J Lu 2002 "Afferents to the Ventrolateral Preoptic Nucleus" The Journal of Neuroscience 22 3: 977–990 
  8. ^ Saper, CB; TC Chou; TE Scammell 2001 "The sleep twitch: Hypothalamic control of sleep and wakefulness" Trends in Neuroscience 24 12: 726–731 doi:101016/s0166-22360002002-6 

See alsoedit

  • Sleep onset latency
  • Hypnagogia

sleep onset apnea, sleep onset association disorder, sleep onset central apneas, sleep onset central sleep apnea, sleep onset centrals, sleep onset disorder, sleep onset insomnia, sleep onset latency, sleep onset rem, sleep onset vs. sleep latency

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    Sleep onset beatiful post thanks!


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