1. Lecture 10 – Chapter 14 Sleep

3. SLEEP Circadian Humans spend 1/3 of life sleeping (well over 175,000 hrs) typically 8 hours/day… so - 3/day = extra 21 hrs/week  10,952 hrs/decade!!!

4. SLEEP Amount of sleep changes with age – younger ages sleep more Polyphasic vs monophasic

5. Part time sleepers…. unihemispheric Dolphins sleep with only one half of their brain Breathing is a conscious act…

6. How Much Do Animals Sleep? Most animals have a daily pattern of rest and activity. Some animals are more active during the day (diurnal) and some are more active during the night (nocturnal). How much time do animals spend sleeping? Well, it depends on the animal: References: This table was adapted from four sources: 1.Aserinsky, E., Eyelid condition at birth: relationship to adult mammalian sleep-waking patterns, In Rapid Eye Movement Sleep, edited by B.N. Mallick and S. Inoue, Narosa Publishing, New Delhi, 1999, p. 7. 2.Campbell, S.S. and Tobler, I., Animal sleep: a review of sleep duration across phylogeny. Neuroscience and Biobehavioral Rev., 8:269-300, 1984. 3.Kryger, M.H., Roth, T. and Dement, W.C., Principles and Practice of Sleep Medicine, W.B. Saunders Co., Philadelphia, 1989, pp. 39-41. 4.Tobler, I., Napping and polyphasic sleep in mammals, In Sleep and Alertness: Chronobiological, Behavioral and Medical Aspects of Napping, edited by D.F. Dinges and R.J. Broughton, Raven Press, New York, 1989, pp. 9-31. Did you know? The brain of a dolphin appears to sleep one hemisphere at a time. BACK TO: Exploring the Nervous SystemTable of Contents Send E-mailend E-mail Fill out surveyill out survey Get Newsletteret Newsletter Search Pagesearch Pages How Much Do Animals Sleep? Most animals have a daily pattern of rest and activity. Some animals are more active during the day (diurnal) and some are more active during the night (nocturnal). How much time do animals spend sleeping? Well, it depends on the animal: References: This table was adapted from four sources: 1.Aserinsky, E., Eyelid condition at birth: relationship to adult mammalian sleep-waking patterns, In Rapid Eye Movement Sleep, edited by B.N. Mallick and S. Inoue, Narosa Publishing, New Delhi, 1999, p. 7. 2.Campbell, S.S. and Tobler, I., Animal sleep: a review of sleep duration across phylogeny. Neuroscience and Biobehavioral Rev., 8:269-300, 1984. 3.Kryger, M.H., Roth, T. and Dement, W.C., Principles and Practice of Sleep Medicine, W.B. Saunders Co., Philadelphia, 1989, pp. 39-41. 4.Tobler, I., Napping and polyphasic sleep in mammals, In Sleep and Alertness: Chronobiological, Behavioral and Medical Aspects of Napping, edited by D.F. Dinges and R.J. Broughton, Raven Press, New York, 1989, pp. 9-31. Did you know? The brain of a dolphin appears to sleep one hemisphere at a time. BACK TO: Exploring the Nervous SystemTable of Contents Send E-mailend E-mail Fill out surveyill out survey Get Newsletteret Newsletter Search Pagesearch Pages

7. Why DO WE SLEEP?

9. Do we need sleep? Repair & Rest 1965 – Randy Gardner Science fair project…break world record of No sleep (260 hrs)  264 hr 12 min = 11 days!!! “mind over matter” First night: 15 hrs Next night: 9 hrs

10. Sleep deprivation (3 to 4 hrs) Humans 1. Increase in sleepiness 2. Mood test 3. Perform poorly on test of vigilance (ex: tones) 2 to 3 days (continuous sleep deprivation) “Microsleeps” (2 to 3 sec long) 1. Eye lids droop 2. Less responsive to stimuli 3. Still standing Performance on complex cognitive tasks????? Performance in motor tests???????

11. Animals….different story… Death (2 TO 3 WEEKS) Stop grooming Loss ability to regulate temperature Metabolic rate increases…eat…but never enough loss weight

12. - Is sleep a passive? NO! Many changes in our body during sleep Sleep is a Behavior! How do we measure this? 1. EEG (electrical activity) 2. Biochemically (NT) 3. Neuroanatomically (brain structures)

14. 1929, a German psychiatrist: Hans Berger, Found the it was possible to record the feeble electric currents generated on the brain, without opening the skull, and to depict them graphically onto a strip of paper. Berger named this new form of recording as the electroencephalogram (EEG, for short)electroencephalogram First EEG recorded by Hans Berger, circa 1928.

15. EEG (electroencephalograph) records electrical activity of the brain via electrodes attached to the scalp Gross measurement of neuronal activity takes an average of the whole population of cells in the area under the electrode Output of the electrodes are amplified and recorded  EEGs tell you whether a person is asleep, awake or excited

16. EEG lingo: Measurement of Brain Waves Amplitude: index of voltage = larger the voltage the higher the amplitude (Height) Frequency: index of waves across time, cycles per second (hertz, Hz) (how often they occur)

17. 2 Basic EEG Patterns: 1. Desynchronized: neurons in the brain firing at many different times  produces EEG patterns of low amplitude & high frequency (wakefulness)

18. 2 Basic EEG Patterns: 2. Synchronized: neurons are firing at the same time – produces well defined waves of low frequency high amplitude (characteristic of deep sleep)

19. EMG: Electromyogram - Leg EOG: Electroculogram - Eye muscle

20. There are two divisions of sleep 1. non-rapid eye movement (NREM)NREM 2. rapid eye movement (REM)REM Non-Rapid Eye Movement Sleep About 80% of adult sleep is NREM sleep. NREM sleep is divided into four stages: Stage 1—the drowsy transition from waking to sleeping Stage 2—intermediate sleep, when arousal is more difficult Stage 3—the beginning of "deep," or slow-wave, sleep Stage 4—the deepest sleep, when there is little contact with external sensations During NREM: breathing, heart rates, body temperature, blood pressure decrease.

22. Stage EEG Rate (Frequency) EEG Size (Amplitude) Awake8-25 HzLow 16-8 HzLow 2 4-7 Hz Occasional "sleep spindles" Occasional "K" complexes Medium 31-3 HzHigh 4Less than 2 HzHigh REMMore than 10 HzLow

23. Note that as sleep progresses from awake to sleep, brain activity becomes more synchronized (low frequency hi amplitude) Resting quietly Eyes closed Arousal & awake Transition btw wakefulness & sleep Short burst of waves 2 to 5 tx a min 1-4 (aging) Only here – pre to delta Sleeping soundly – but report Not asleep at all! REM sleep resembles stage 1 “Saw Tooth”

24. 90 minutes to our first bout of REM – average of 5 cycles – REM lasts 10-20 min then we fall back to stage 2 and so on… * somnambolism

25. REM SLEEP PGO spiking : Pontine-Geniculate-Occipital Triggers the onset of REM 1. Waves of neural activity first in the pons 2. Then in the lateral geniculate 3. Then in the occipital cortex - Wave is synchronized with eye movement - At this time Pons is also sending inhibitory messages to the spinal cord  motor neurons Neurochemistry: Pons releases ACh stimulate LGN (inject carbachol=Ach agonist=REM)

29. Locus Coeruleus: Noradrenergic neurons: destroy this area you get NO REM but SWS (stage 3 & 4)

30. Raphe Nucleus: Serontonergic neurons: destroy this area you get NO SLEEP = insomnia…agonist=increase in SWS

31. Narcolepsy (hypersomnia): - sleeping disorder (1 of 2000) characterized by periods of irresistible sleepiness (REM/hypnagogic hallucinations) - "sleep attacks" happen without warning and can occur even after a good night's rest - normally last about 20 minutes - after waking up, the person feels refreshed, only to feel sleepy again a few hours later - There is no known cause of this chronic sleep disorder TX: Stimulants & Antidepressants (tend to suppress REM sleep) So need more 5HT Gene found in dogs…

32. PLAYING DEAD? A narcolepsy symptom called cataplexy causes some dogs to collapse when they get excited, as they have here during a tussle. The dogs have a genetic defect that affects a brain hormone that's missing in people with the sleep disorder. Mignot/Stanford University dog chromosome 6 Yanagisawa et al., (1998) University of Texas Southwestern Med Cen discovered orexin