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Sleep & Dreaming. Why do we sleep? Restorative vs Adaptive Hypotheses. effects of sleep deprivation. TED talks: why we sleep. circadian rhythms. Suprachiasmatic nucleus . Circadian Rhythms and the…. Entrained by zeitgebers - SCN controls timing of sleep, not sleep itself.
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Sleep & Dreaming Why do we sleep? Restorative vs Adaptive Hypotheses effects of sleep deprivation TED talks: why we sleep circadian rhythms
Suprachiasmatic nucleus Circadian Rhythms and the… Entrained by zeitgebers - SCN controls timing of sleep, not sleep itself Retinal ganglion cells containing melanosporin respond to light Retinohypothalmic pathway Also regulated by on-off genes In the SCN SCN PinealGland melatonin
Ultradian Rhythms beta Sleepwalking Bedwetting nightterrors sleepingwalking, nightterrors, bedwetting
REM and Dreaming The purpose of REM sleep 1. perchance to dream 2. promote neural development during childhood 3. memory consolidation Neuronal replay in hippocampus is highest during non-REM sleep Non-REM sleep The purpose of slow wave sleep 1. rest and restoration of the body 2. cool down the brain 3. restore cognitive function, prefrontal cortex recovery During REM, memory traces are transferred to cortex This process may take 4-7 days to become permanent sleep & memory
What puts us to sleep Key Concepts to know The NT adenosine inhibits arousal in the basal forebrain Adenosine warms cells in the preoptic area which helps to induce sleep Neurons in the ventrolateralpreoptic nucleus inhibit activitity of several structures in the pons tuberomammilary nucleus, PPT/LDT, LC, raphe nucleus Info from pons goes to the magnocellular n. (in the Medulla) to induce atonia
What wakes us up Key Concepts to know Pathway 1: PPT/LDT stimulates structures in the pons These structures then send info to the cortex This pathway also shifts EEG to the arousal state Pathway 2: Pons structures (Locus coeruleus, raphe n., tuberomammilary n., ) and basal forebrain stimulate the cortex so it can better process input from the thalamus. The lateral hypothalamus stimulates the basal forebrain and pons structures. The LH does this by releasing the peptide orexin.