Sleep

Question 1

What are the three primary measurements in sleep

Answer 1

Brain, eyes, muscles

• EEG
• EOG
• ENG

Question 2

What is the frequency range in stage 4 sleep

Answer 2

0.5Hz - 2Hz

Question 3

Does EMG activity fall during REM sleep

Answer 3

Yes

Question 4

How long is a typical cycle of sleep

Answer 4

90 minutes

Question 5

What stage of sleep is related to the hoemostatic process

Answer 5

Slow-wave sleep

Question 6

What brain region do you need to cut to induce a persistent sleep state

Answer 6

Top of the brain steam

Question 7

What was Bremer’s argument for sleep

Answer 7

The wake state depends on sensory input and sleep is the absence of that input

Question 8

What does a lesion to the posterior hypothalamus result in

Answer 8

Excessive sleepiness

Question 9

What does a lesion to the anterior hypothalamus result in

Answer 9

Insomnia

Question 10

What region promotes activity in the cortex level

Answer 10

The thalamocortical loop - feedback from thalamus to cortex and back again

Question 11

During wake, is there a regular pattern on the EEG in the thalamocortical loop

Answer 11

yes

Question 12

During sleep, is there a regular pattern on the EEG in the thalamocortical loop

Answer 12

no

Question 13

What frequency is stage 1 sleep activity

Answer 13

4-8Hz

Question 14

What frequency is stage 2 sleep activity

Answer 14

4-8Hz

Question 15

What frequency is stage 3 sleep activity

Answer 15

2-4Hz

Question 16

What frequency is REM sleep activity

Answer 16

> 12 Hz

Question 17

Is REM sleep frequency the same as wake state

Answer 17

Yes

Question 18

Was an early theory of sleep that a sensory input to the brain maintained an alert state

Answer 18

Yes

Question 19

Transectioning ebtween the cerebrum and brain steam causes what

Answer 19

EEG slowing

Question 20

Transectioning between the cervical spinal cord causes what

Answer 20

Isolated forebrain is active and alert

Question 21

What region is critical for cortical activation and maintaining wake

Answer 21

Reticular formation

Question 22

What is the ascending activation system

Answer 22

Thalamocortical loop

Question 23

What are the cholinergic inputs

Answer 23

Pedunculopontine (PPT)

Laterodorsal tegemntal nuclei (LDT)

Question 24

What are the monoaminergic inputs

Answer 24

• Norepinephrine
• Serotonin
• Histamine
• Dopamine

Question 25

What is the main source of norepinephrine

Answer 25

Locus coeruleus

Question 26

Is locus coeruleus activity high during wake

Answer 26

Yes

Question 27

Is locus coeruleus activity high during non-REM sleep

Answer 27

No

Question 28

Is locus coeruleus activity on during REM sleep

Answer 28

No

Question 29

Is decreased activity in the locus coeruleus linked to slow-wave activity

Answer 29

Yes

Question 30

Is locus coeruleus activity linked to wakefulness

Answer 30

Yes

Question 31

What is the origin of serotonergic neurons

Answer 31

Raphe nuclei

Question 32

Are serotonergic neurons similar to norepinephrine neurons

Answer 32

Yes

Question 33

Is REM sleep decreased in people taking antidepressants (SSRIs)

Answer 33

Yes

Question 34

What is the origin of histamine

Answer 34

Tuberomamillary nuclei of posterior hypothalamus

Question 35

What happens when you block histamine receptors

Answer 35

Sleepyness

Question 36

Does histamine promote wake

Answer 36

Yes

Question 37

Dopmaine is related to arousal in what regions

Answer 37

• substantia nigra

- ventral tegmental area

Question 38

Which type of dopamine receptor is related to arousal

Answer 38

D1

Question 39

Which type of dopamine receptor is biphasic

Answer 39

D2

Question 40

What does a low dose of dopamine in D2 result in

Answer 40

Increased wake

Question 41

What does a high dose of dopamine in D2 result in

Answer 41

Decreased wake

Question 42

What is the orexin-hypocretin pathway

Answer 42

Part of an input into the arousal system

Question 43

What does a lack of orexin lead to

Answer 43

Narcolepsy

Question 44

What does too much orexin lead to

Answer 44

Insomnia

Question 45

What is the main role of the orexin-hypocretin pathway

Answer 45

To stabilize wake

Question 46

Of the chloinergin, monoaminergic and oxerin systems which one is the most influential

Answer 46

Orexin

Question 47

What quietens the thalamocortical loop

Answer 47

(VLPO) Verntrolateral pre-optic area in the anterior hypothalamus

Question 48

What inhibitory neurotransmitters are related to the VLPO

Answer 48

GABA and galanin

Question 49

Does the VLPO project to monoaminergic arousal centres

Answer 49

Yes

Question 50

What does a lesion to the VLPO result in

Answer 50

Less non-REM sleep

Question 51

Do the VLPO and Monoaminergic regions try to inhibit each other

Answer 51

Yes

Question 52

What is the controlling pathway in the VLPO vs Monoaminergic dynamic

Answer 52

Orexin

Question 53

Does the VLPO send inhibitory signals to the orexin and arousal centres

Answer 53

Yes

Question 54

In sleep, does the VLPO inhibit orexin

Answer 54

Yes

Question 55

In sleep, does the VLPO inhibit the monoaminergic system

Answer 55

Yes - switches off wake

Question 56

What processes modulate sleep and wake

Answer 56

Homeostasis and circadian rhythm

Question 57

What is the homeostatic system

Answer 57

A system that builds sleep pressure during wake and dissipates during sleep

Question 58

What is the circadian system

Answer 58

A system of ~24hr rhythm that regulates timing, quality and depth of sleep.

Question 59

What is the wake maintenance zone

Answer 59

Part of the circadian system that maintains aroused state against pressure of homeostatic system

Question 60

Will you have more slow-wave sleep at night if you are awake longer during the day

Answer 60

Yes

Question 61

Is slow-wave sleep a marker for homeostasis

Answer 61

Yes

Question 62

Is theta activity a marker of the build-up of homeostatic sleep pressure

Answer 62

Yes

Question 63

Is adenosine a marker for build-up of homeostatic sleep pressure

Answer 63

Yes

Question 64

What is adenosine

Answer 64

By-product of metabolism

Question 65

What receptor does caffinee block

Answer 65

Adenosine

Question 66

Are we all fixed to a 24 hr circadian rhythm

Answer 66

No

Question 67

What happens to your circadian rhythm when you are placed in a dark room with no cues

Answer 67

You go into free-run

Question 68

What is the master clock of the brain

Answer 68

The suprachiasmatic nuclei

Question 69

What is the primary entrainment pahtway

Answer 69

Light -> eye -> retinohypothalamic tract -> hypothalamus -> suprachiasmatic nuclei

Question 70

If you remove rods and cones, does circadian entrainment sitll exist

Answer 70

Yes

Question 71

What is the primary mechanism in circadian entrainment

Answer 71

IPRGC: intrinsic photosensitive retinal ganglion cells

Question 72

What happens if you destroy the suprachiasmatic nuclei

Answer 72

YOu destory all biological rhythms

Question 73

How is melatonin produced

Answer 73

Produced by the pineal gland from info projected from the suprachiasmatic nuclei

Question 74

How is melatonin measured

Answer 74

Through saliva or plasma

Question 75

Besides melatonin what is another measure of circadian rhythm

Answer 75

Body temperature

Question 76

What is a forced de-synchronicity protocol

Answer 76

Force entrainment to a day either very short or long of the 24hrs. This causes free running

Question 77

Does a forced de-synchronicity change the homeostatic or circadian system

Answer 77

Circadian. Homeostatic remains constant

Question 78

What is the blood-acholol analogue to shift work

Answer 78

0.05-0.