Chapter 9: Wakefulness and Sleep

Question 1

functions of endogenous rhythms and our difficulty with altered rhythms

Answer 1

• endogenous circadian rhythms last about a day
• difficult to sleep on anything far from 24 hour schedule
• have rhythms for eating, drinking, urination, secretion of hormones, sensitivity to drugs, temperature, mood
• trend is that we sleep less as we get older
• jet lag due to mismatch between internal circadian clock and external time

Question 2

describe the anatomical location of the biological clock and its biochemical and hormonal signals

Answer 2

light=critical for resetting

• in hypothalamus it is called suprachiasmatic nucleus (SCN)
• SCN provides main control of circadian rhythms for sleep and body temperature
• SCN generates circadian rhythm in genetically controlled, unlearned manner

Question 3

how light can reset the biological clock

Answer 3

• retinohypothalamic path to SCN comes from special population of retinal ganglion cells that have their own photopigment called melanopsin that receive some input from rods and cones (but without this input they respond directly to light)
• located mainly near nose
• respond to light slowly and turn off slowly when light ceases not instantaneous changes in light
• retinohypothalamic path conveys info about light to SCN, axons comprising what path originates from special ganglion cells that respond to light by themselves, even without input from rods and cones

Question 4

characteristics of the stages of slow-wave sleep

Answer 4

• stages 3 and 4 together
• neuronal activity is highly synchronized
• sensory input to cerebral cortex is greatly reduced
• few remaining sources of input can synchronize many cells

Question 5

describe biological clock and its biochemical and hormonal signals

Answer 5

-genes known as period and timeless produce proteins PER and TIM that promote sleep and inactivity
-oscillate throughout the day based on feedback
-PER and TIM=low @ start of day
= high @ end of day
-light activates a chemical that breaks down TIM
-pineal and endocrine glands release melatonin mostly at night

Question 6

characteristics of the stages of REM sleep

Answer 6

• paradoxical sleep because it is deep light in some ways and light in others
• EEG shows irregular, low voltage fast waves that indicate increased neuronal activity (light sleep)
• Postural muscles are relaxed (deep sleep)
• HR, HP, and breathing rate are more variable in REM
• has intermittent characteristics such as facial twitches and eye movements

Question 7

Stages of Sleep

Answer 7

Stage 1 Stage 2 Stage 3 Stage 4 Stage 3 Stage 2 REM

Question 8

brain areas and neurotransmitters that promote REM sleep

Answer 8

• activity increases in pons and limbic system
• decrease activity in primary visual cortex, motor cortex, and dorsolateral cortex
• increase activity in parietal and temporal cortex
• depends on relationship between serotonin and acetylcholine

Question 9

Locus coeruleus

Answer 9

• in pons
• inactive during sleep but release bursts of impulses when meaningful event occurs resulting in emotional arousal
• axons release norepinephrine
• stimulation strengthens storage of recent memories and increases wakefulness

Question 10

Histamine

Answer 10

• NT released

- excitatory effects during arousal and alertness

Question 11

Histamine

Answer 11

• NT released

- excitatory effects during arousal and alertness

Question 12

Orexin or Hypocretin

Answer 12

• peptide NTs
• from axons extending to basal forebrain
• responsible for staying awake

Question 13

Acetylcholine

Answer 13

-released during wakefulness and REM sleep

Question 14

GABA

Answer 14

-responsible for sleep

Question 15

Insomina

Answer 15

• inadequate sleep
• feel tired during the day because you are not sleeping enough at night
• causes: noise, uncomfortable temperature, stress, pain, diet, medications, epilepsy, Parkinson’s, brain tumour, depression, anxiety, neurological or psychiatric condition

Question 16

Sleep Apnea

Answer 16

-impaired ability to breathe while sleeping
-breathless periods of about 1 minutes when they awake gasping for breath
-multiple brain areas that have lost neurons, show deficiencies of learning, reasoning attention and impulse control
Causes: genetics, hormones, old-age, obesity
Treatments: lose weight, avoid alcohol and tranquilizers, surgery to remove tissue obstructing trachea, mask that covers nose and delivers air under enough pressure to keep breathing passages open

Question 17

Narcolepsy

Answer 17

• frequent periods of sleepiness during the day
  causes: orexin (NT), lack hypothalamic cells that produce and release orexin
• treatment: ritalin (enhances dopamine and norepinephrine)

Question 18

Periodic Limb Movement disorder

Answer 18

• repeated involuntary movement of legs and arms
• most common when starting to fall asleep
  treatment: tranquilizers can help surpress movements

Question 19

REM Behaviour Disorder

Answer 19

-move around a lot during REM sleep
-“acting out” their dreams
Causes: damage to cells in pons that send messages to inhibit spinal neurons that control large muscle movements

Question 20

Night Terrors

Answer 20

• intense anxiety from which a person wakes up screaming

- more severe than nightmare

Question 21

Sleep Walking

Answer 21

Causes:

• not well understood
• sleep deprived
• under unusual stress
• most common during stage 3 and 4

Question 22

Functions of sleep

Answer 22

• rest muscles
• decrease metabolism
• rebuild proteins in brain
• reorganize synapses
• strengthen memories
• to save energy (original function) during inefficient times

Question 23

Function of REM

Answer 23

• improved memory
• reanalyze memory
• memory storage
• weakening inappropriate connections
• missing REM impairs consolidation of learned motor skills