96 - Sleep Physiology

Question 1

What is sleep?

Answer 1

Behavioural state.
Decreased awareness of external stimuli.
Can rapidly return to wakefulness.

Question 2

Why do we sleep?
1
2
3
4
5
6

Answer 2

• Learning
• Brain development
• Repair and maintenance
• Clearance of metabolites
• Energy preservation?
• Avoid nocturnal hazards?

Question 3

Number of Australians who might have a sleep disorder

Answer 3

~1.5 million

Question 4

Signals used for polysomnography
1
2
3

Answer 4

EOG - electrooculography
EMG - Electromyography
EEG - Electroencephalography

Question 5

Things that can also be measured in polysomnography

Answer 5

Video.
SpO2
Nasal airflow

Question 6

Things that can also be measured in polysomnography

Answer 6

Video.
SpO2
Nasal airflow

Question 7

Graphical representation of sleep

Answer 7

Hypnogram

Question 8

Main features of wakefulness on a polysomnograph

Answer 8

Eye movements.
High levels of muscular activity
High frequency EEG

Question 9

Main features of stage 1 and 2 non-REM sleep

Answer 9

No eye movements
Relatively high muscle activity
Lower frequency EEG

Question 10

Main features of stage 1 and 2 non-REM sleep

Answer 10

No eye movements
Relatively high muscle activity
Lower frequency EEG

Question 11

Main features of stage 3 non-REM sleep

Answer 11

No eye movements
Variable levels of muscle activity
Low frequency EEG (‘slow wave sleep’)

Question 12

Main features of REM sleep

Answer 12

Rapid eye movements.
Low levels of muscle activity
Higher frequency of EEG

Question 13

Main features of REM sleep

Answer 13

Rapid eye movements.
Low levels of muscle activity
Higher frequency of EEG

Question 14

Effect of sleep on breathing
1
2
3 a b c d

Answer 14

• Lose wakefulness drive
• Behavioural influences
• Down-regulation of respiratory control mechanisms:
–upper airway muscles
–respiratory muscles
–respiratory reflexes
–chemosensitivity

Question 15

Ventilation when asleep

Answer 15

Ventilation Falls At Sleep Onset And CO2 Rises Until A New Sleep Set-Point Is Reached

Question 16

Cardiovascular changes during sleep
1
2
3
4

Answer 16

• Lower HR (particularly during NREM sleep)
• Lower BP (at sleep onset)
• Reduced cardiac output
• Overall metabolic activity decreases markedly during sleep

Question 17

What happens in an arousal during sleep?
1
2
3

Answer 17

Increased EEG, EMG frequency.
Increase ventilation, diaphragmatic activity.
Increase HR, BP

Question 18

What happens in an arousal during sleep?
1
2
3

Answer 18

Increased EEG, EMG frequency.
Increase ventilation, diaphragmatic activity.
Increase HR, BP

Question 19

What causes physiological responses to arousals during sleep?

Answer 19

Unclear.
Might be that systems suppressed when asleep are just starting up again.
Might be a waking reflex, to be able to respond to a dangerous stimulus waking you up from sleep.

Question 20

Number of arousals in severe obstructive sleep apnoea

Answer 20

Over 30/hour

Question 21

Dangers of severe OSA
1
2
3

Answer 21

1) Increased risk of car accident
2) Higher risk of stroke
3) Higher risk of CVD

Question 22

Body part which regulates circadian rhythm

Answer 22

Suprachiasmatic nucleus

Question 23

Body part which regulates circadian rhythm

Answer 23

Suprachiasmatic nucleus

Question 24

Name for an external cue that can influence circadian rhythm

Answer 24

Zeitgeiber

Question 25

Example of a very strong zeitgeiber for sleep

Answer 25

Light

Question 26

Effect of light on circadian rhythm

Answer 26

Light inhibits the SCN
Lack of light increases melatonin levels (released from pineal gland)
Melatonin promotes sleep

Question 27

Effect of light on circadian rhythm
1
2
3

Answer 27

Light inhibits the SCN
Lack of light increases melatonin levels (released from pineal gland)
Melatonin promotes sleep

Question 28

*Two-process model of sleep

Answer 28

TWO PROCESS MODEL

Question 29

*Two-process model of sleep

Answer 29

TWO PROCESS MODEL
Circadian process tries to keep us awake.
Homeostatic process tries to get us to sleep

Question 30

*Two-process model of sleep

Answer 30

TWO PROCESS MODEL
Circadian process tries to keep us awake.
Homeostatic process tries to get us to sleep

Question 31

What physiological process might underlie the desire to sleep?

Answer 31

Metabolite/toxin clearance.

Sleeping mice had a greater clearance of beta-amyloid than mice who were awake or sedated.

Question 32

Danger of chronic sleep restriction

Answer 32

Performance in tasks becomes increasingly impaired, but subjective perception of performance normalises.
Therefore become less able to judge performance.

Question 33

Three functional systems which might control sleep

Answer 33

1) Arousal systems
2) Sleep promoting system
3) Orexin neurons

Question 34

Where are arousal systems located?

Answer 34

located in multiple areas within pons/midbrain

Question 35

Where is the sleep-promoting system located?

Answer 35

includes VLPO (ventrolateral pre-optic nucleus)

Question 36

Where are orexin neurons located?

Answer 36

located in the hypothalamus – project onto arousal systems (stimulate)

Question 37

Three functional systems which might control sleep

Answer 37

1) Arousal systems (maintains wakefulness)
2) Sleep promoting system (inhibits both orexin and arousal systems)
3) Orexin neurons (stabilise wakefulness)

Question 38

Where are arousal systems located?

Answer 38

Located in multiple areas within pons/midbrain

Question 39

Where is the sleep-promoting system located?

Answer 39

Includes VLPO (ventrolateral pre-optic nucleus)

Question 40

Where are orexin neurons located?

Answer 40

Located in the hypothalamus – project onto arousal systems (stimulate)

Question 41

Part of brain damaged in narcolepsy

Answer 41

Orexin neurons

Question 42

Part of brain damaged in narcolepsy

Answer 42

Orexin neurons