Brain Arousal Systems

Question 1

Consciousness is recognized as having two parts, which are…

Answer 1

1) Arousal (being awake)
2) Awareness (conscious processing of inputs, etc)

***These are not the same!

Question 2

This state of consciousness if being neither awake or aware.

Answer 2

Coma

Question 3

This state of consciousness occurs when physiologically identifiable sleep/wake cycles appear but there is no evidence of awareness.

Answer 3

Persistent vegetative state

***Step up from coma

Question 4

This state of consciousness has obvious sleep/wake cycles, reproducible evidence of awareness by being able to respond to simple commands, and limited or absent communication.

Answer 4

Minimally conscious state

***Step up from persistent vegetative state

Question 5

What are the four levels of consciousness?

Answer 5

Coma – Arousal/Wakfulness – Awareness – Alertness

Question 6

It is a common misperception that the comatose state results from damage to the cerebral cortices. Although this is true, the damage must be…

Answer 6

Massive and bilateral

Question 7

More often, disruptions of consciousness result from much smaller lesions in the…

Answer 7

Brainstem
Midbrain
Hypothalamus

Question 8

It has been shown that cortical neurons of people in persistent vegetative states are up to 30 mV below threshold than under normal conditions. What does this mean?

Answer 8

The neurons are hugely hyperpolarized compared to normal, so this means there is no normal stimulus strong enough to activate these neurons.

Question 9

T/F. Different levels of consciousness/awareness are the result of different levels of cortical excitation.

Answer 9

True

Question 10

The _________ regions are critical in arousing the cortex. Both arousal and awareness require activation of the cortex, but the cortex has no intrinsic mechanism for activation (aka, the cortex can’t do it on its own, needs help).

Answer 10

Brainstem

Question 11

This level of consciousness has:

– Inconsistent or intermittent eye/head motions (reflect reflexes)

– No sleep/wake cycle

– No awareness

– No verbal responses

Answer 11

Coma

Question 12

This level of consciousness has:

• • Eye/head motions (reflect reflexes)
• • Sleep/wake cycle
• • No awareness
• • No verbal responses

Answer 12

Persistent vegetative state

Question 13

This level of consciousness has:

• • Eye/head motions
• • Sleep/wake cycle
• • Inconsistent or intermittent awareness
• • Inconsistent or intermittent verbal responses

Answer 13

Minimally conscious

Question 14

This level of consciousness has:

• • Eye/head motions
• • Sleep/wake cycle
• • Awareness
• • Verbal responses

Answer 14

Aware/Alert

Question 15

What are the 5 arousal systems needed for normal function?

Answer 15

EAA
Cholinergic
Noradrenergic
Serotonergic 
Dopaminergic

Question 16

The EAA arousal system originates from where?

Answer 16

Reticular Activating System (RAS)

Parabrachial Nuclei

Question 17

The Cholinergic arousal system originates from where?

Answer 17

PPT/LDT (Pedunculopontine tegmental and Laterodorsal nuclei)

Question 18

The Noradrenergic arousal system originates from where?

Answer 18

Locus Ceruleus

Question 19

The Serotonergic arousal system originates from where?

Answer 19

Raphe nuclei

Question 20

The Dopaminergic arousal system originates from where?

Answer 20

Ventral Tegmental Area

Question 21

For the EAA arousal system, the RAS occupies what area?

Answer 21

Mid-ventral portion of the medulla and midbrain

Question 22

The RAS is a loose collection of neurons and fiber tracts. All ascending sensory tracts send information to the RAS, including ________, ________, and ________.

Answer 22

Trigeminal
Auditory
Visual

Question 23

The RAS receives so much sensory input, that modal specificity is lost. What does this mean?

Answer 23

Because all this information converges on the same neurons, it knows something sensory is happening, but it can’t process it to know what specifically is happening.

Question 24

What are the pathways of the output of information from the RAS?

Answer 24

Dorsal Pathway (thalamus)
Ventral Pathway (no thalamus)

Question 25

In the Dorsal Pathway, the RAS outputs information via the non-specific nuclei of the _________, including the _________ nucleus of the _________. From there, it continues to all higher levels.

Answer 25

Thalamus
Intralaminar
Thalamus

Question 26

In the Ventral Pathway, the RAS outputs via the ________ ________ and ________. It bypasses the Thalamus in this pathway. From there, it continues to all higher levels.

Answer 26

Basal Forebrain

Hypothalamus

Question 27

In the EAA arousal system, the Parabrachial Nuclei (medial, intermediate, and lateral) are located in the _______. They are crucial for arousal/activation.

Answer 27

Pons

Question 28

T/F. The RAS and Parabrachial Nuclei contain very different versions of sensory input.

Answer 28

False. The sensory inputs are similar. All/most of the sensory inputs to the body go to both, with no modal specificity.

Question 29

What is the main difference between the RAS and the Parabrachial Nuclei?

Answer 29

RAS - Uses both the Dorsal and Ventral Pathways
Parabrachial Nuclei – Only uses Ventral Pathway

***Remember, Dorsal utilizes the thalamus while Ventral bypasses it!

Question 30

The major NT utilized by both the Parabrachial and the RAS neurons is the __________, regardless of pathway to the brain.

Answer 30

EAA/Glutamate

Question 31

Within the RAS, there is a substantial number of interneurons (neurons intrinsic to the RAS) that release ________. The RAS also has a neuronal population that releases _________.

Answer 31

GABA
Acetylcholine

***Just FYI, if you see RAS always think EAA/Glutamate first!

Question 32

Regardless of path (dorsal or ventral), the ______ and _______ systems appear to provide a baseline excitation that is crucial to cortical activity.

Answer 32

EAA

Cholinergic

Question 33

Like the RAS/Parabrachial, the ________ nuclei receive so much input that all modality-specific information is lost.

Answer 33

PPT/LDT

Question 34

In the PPT/LDT nuclei, the outputs are via the dorsal and ventral pathways just like RAS, but the NT is _________.

Answer 34

Acetylcholine (ACh)

Question 35

T/F. Activity in the Cholinergic inputs from the Pons is also associated with arousal and awareness. Damage specifically to the PPT/LDT doesn’t necessarily cause coma, but does produce severe cognitive deficits that are associated with generalized slowing of cortical processes.

Answer 35

True

Question 36

To go from coma to arousal/wakfulness, what is required?

Answer 36

EAA and ACh systems

***If you lose one or the other, it won’t cause coma but will result in slowed cortical processes

Question 37

Paragigantocellularis N. (in rostral medulla) receives sensory information, the Periaqueductal Grey (PAG), and higher centers including the cortex, all send info to the ________ ________ which is noradrenergic. This information has undergone more neural processing than the sensory inputs received by the EAA/ACh systems (which has no modal specificity).

Answer 37

Locus Ceruleus

Question 38

Outputs from the Locus Ceruleus (noradrenergic) related to consciousness ascend to the cortex using what pathways?

Answer 38

Ventral and Dorsal pathways

***There are unrelated outputs to the Spinal Cord

Question 39

What are the functions of the Locus Ceruleus (noradrenergic) system?

Answer 39

• • Startle and alerting responses on the EEG
• • Sleep-wake
• • Behavioral vigilance

Question 40

What is the source of the Serotonergic system?

Answer 40

Raphe Nuclei

Question 41

The outputs of the Serotonergic system (via Raphe Nuclei) for arousal is via which pathways?

Answer 41

Doral and Ventral pathways

***There are other outputs related to other functions of raphe

Question 42

What are the functions of the Serotonergic system?

Answer 42

• • Quiet awareness

- - Other (non-RAS activities) include: Mood and Affect, Modulation of Pain

Question 43

In order to go from arousal/wakefulness to awareness, what systems are needed?

Answer 43

Noradrenergic (Locus Ceruleus) and Serotonergic (Raphe Nuclei)

***Need both!

Question 44

This area provides a dopaminergic input that is important to many functions, including cognitive functions, motor activity, and emotion.

Answer 44

Ventral Tegmental Area (VTA)

Question 45

This system is required to go from awareness to alertness (full normal function).

Answer 45

Dopaminergic (Ventral Tegmental Area)

Question 46

In this pathway, arousal systems send axons to the thalamus to synapse.

Answer 46

Dorsal pathway

Question 47

In the Dorsal pathway, axons from the thalamus to the cortex are known as __________ neurons.

Answer 47

Thalamocortical

Question 48

In this pathway, arousal systems send axons straight to the cortex. They synapse directly onto the cortical neurons.

Answer 48

Ventral pathway

Question 49

Dorsal pathway synapses in the non-specific nuclei of the thalamus, like the _________ nuclei.

Answer 49

Intralaminar

Question 50

From the thalamus, there is a diffuse projection to the entire cortex. These thalamocortical neurons release _______ as their neurotransmitter. These neurons (with their NT input) also synapse on intracortical neurons that release _______ on other cortical neurons.

Answer 50

EAA
GABA

***These excitatory/inhibitory waves are what make the waves recorded on EEG!

Question 51

The alternating waves of excitation (due to the EAA released) and inhibition (due to the GABA released) are believed to lead to the waves recorded on the ______.

Answer 51

EEG

Question 52

The ________ ________ system is crucial for increasing general excitability of cortical neurons. The ________ also adds to that general excitation.

Answer 52

RAS/Parabrachial EAA

Cholinergic

Question 53

In a persistent vegetative state, the rostral regions of the _______, _______, and _______ show neuronal loss that exceeds that of the cortex.

Answer 53

Pons
Midbrain
Thalamus

Question 54

In this disease, the cholinergic systems are particularly hard hit. Mental processes slow dramatically and memory information is profoundly impaired in the absence of the excitation.

Answer 54

Alzheimers

Question 55

These systems move us from being awake to being more generally aware of incoming information.

Answer 55

Noradrenergic

Serotonergic

Question 56

T/F. The alerting response in the EEG is an early indicator that the cortex is ‘looking’ for sensory input.

Answer 56

True

Question 57

This system seems to add to focused awareness associated with novel stimuli.

Answer 57

Dopaminergic

Question 58

In a limited number of people in a persistent vegetative state, treatment with ________ has produced dramatic increases in cognitive function.

Answer 58

L-Dopa

Question 59

During sleep, ___________ neurons are hyperpolarized and show occasional short bursts of action potentials. This hyperpolarization essentially cuts the cortex off from the excitatory influence during the deepest levels of sleep.

Answer 59

Thalamocortical