Neurophysiology of Emotion

Question 1

The limbic system is now recognized to control, or be involved in controlling

Answer 1

emotional behavior

motivational drives

Question 2

Anatomy of the limbic system - Hypothalamus

Answer 2

key player
emotional experience
physiological responses (connection to ANS)

Question 3

Anatomy of the limbic system - Olfactory areas (para-olfactory)

Answer 3

olfaction and emotion strongly linked

parts of limbic system deal with olfaction (in addition to emotion)

Question 4

Anatomy of the limbic system - Thalamus

Answer 4

anterior nucleus part of papez circuit

other regions involved in both input and output of limbic system

Question 5

Anatomy of the limbic system - Basal Ganglia

Answer 5

particularly nucleus accumbens
other regions (e.g. putamen) play a DIFFERENT role in emotion

Question 6

Anatomy of the limbic system - Hippocampus

Answer 6

another part of the papez circuit
plays a role in learning/memory
Memory and emotion are strongly linked

Question 7

Anatomy of the limbic system - Amybdala

Answer 7

association with emotion recognized very early
particularly fear
plays a role in learning and memory

Question 8

Anatomy of the limbic system - Cingulate cortex

Answer 8

mostly paleocortex (3 cell layers)
some parts have full 6 layers
important feature - many of these neurons show after discharge (like when you are mad and can't let it go)

Question 9

7 brain regions and their function in emotion

Answer 9

1. hypothalamus - used to create physiologic response to emotion
2. olfacctory cortex - odors as stong stimulus for emotion
3. Thalamus - relays sensory information inot system
4. Basal Ganglia - tied to pleasure, disgust
5. Hippocampus - links emotion to memory creation
6. Amygdala - strongly linked with fear, was considered core of all emotional responses
7. anterior cingulate cortex - higher level control, sadness

Question 10

more recent research has provided evidence for the idea that certain :basic: emotions are common across cultures? species (6) and controlled by _____

Answer 10

separate neural substrates

1. pleasure
2. fear
3. sadness
4. avoidance
5. disgust
6. anger

Question 11

It appears that the neural circuits for _________ are also involved in producing _______ in ourselves

Answer 11

regognizing emotion in others

that emotion

Question 12

Someone who cannot experience an emotion cannot

Answer 12

recognize it in someone else

Question 13

Mirror neuron system

Answer 13

these neurons fire both when you do something (smile) and when you see someone else do that.

their role in imitation and imitative learning are more clear cut, but it is becoming clearer that they are important in emotional processing

Question 14

The core of the reward/pleasure system

Answer 14

Ventral tegmental area

nucleus accumbens

Question 15

Major input to the pleasure/reward system sends

Answer 15

DOPAMINE to target neurons

very closely related to the SNPc

Question 16

The ventral segmental area receives excitatory input from (3)

Answer 16

pre-frontal cortex
lateral hypothalamus
laterodorsal tegmental N.

Question 17

The ventral segmental area receives excitatory input from (3) places - what are the NT they use

Answer 17

Pre frontal cortex - EAA
lateral hypothalamus - orexin
laterodorsal tegmental N - Ach

Question 18

The ventral segmental area receives excitatory input from (3) places - what are the NT they use

Answer 18

Pre frontal cortex - EAA
lateral hypothalamus - orexin
laterodorsal tegmental N - Ach

Question 19

The ventral segmental area provides a ______ input to the ________ via the _______

Answer 19

dopaminergic
nucleus accumbens
median forebrain bundle

Question 20

The nucleus accumbens

Answer 20

the third nucleus in the striatum
often referred to as the ventral striatum
has the same basic micro-circutry as the others
direct and indirect pathways

Question 21

In addition to dopaminergic VTA input, the NAc also receives excitatory inputs from (3).
These inputs appear to use what NT?

Answer 21

prefrontal cortex
amygdala
hippocampus

EAA

Question 22

Output from NAc is to

NAc use what NT here

Answer 22

the prefrontal cortex

GABA

Question 23

NAc also sends a GABAergic input where

Answer 23

BACK to the VTA

the cotransmitter dynorphin is also released in the VTA

Question 24

The pleasure/reward systems receive inputs from multiple_____

Answer 24

opioid pathways

Question 25

particular importance of opioid inputs to the VTA

Answer 25

opioid inputs to the VTA inhibit a subset of GABAergic interneurons.

This INCREASES the release of dopamine in the nucleus accumbens

Question 26

Describe the reward (pleasure) system and how the 3 nuclei participate in producing pleasure

Answer 26

1. VTA - receives inputs and releases dopamine in NA to lead to feeling of pleasure
2. NAc - part of striatum - D1 activate direct; D3 inhibit indirect pathways. When active, GABA is released to produce pleasure
3. prefrontal cortex - receives input allowing pleasure from NAc

Question 27

The input to the NAc is mediated by ________, it;s effect in the NAc is generally _____

Answer 27

Dopamine

inhibitory

Question 28

VTA releases ______ onto ______, which then releases less _______ to the ______= PLEASURE

Answer 28

dopamine
NAc (inhibitory)
GABA
prefrontal cortex

Question 29

The effect of dopamine release is to _________ in the prefrontal cortex and allow _______

Answer 29

decrease GABA releas

activity of the reward pathways

Question 30

The effect of dopamine release is to _________ in the prefrontal cortex and allow _______

Answer 30

decrease GABA releas

activity of the reward pathways

Question 31

Producing pleasure - activation

1. via EAA to VTA
2. via orexin to VTA

Answer 31

1. prefrontal cortex, laterodorsal tegmental nucleus

2. lateral hypothalamic nucleus

Question 32

‘Preventing pleasure’ - Activation of NAc

via increased EAA to NAc

Answer 32

prefrontal cortex, amygdala, hippocampus

Question 33

Producing pleasure - the opiods

Answer 33

increased opiods come from multiple sources and work as a diffuse system to increase pleasure (work on VTA and NAc)

Question 34

Opiod input system also activates

Answer 34

locus ceruleus

periaqueductal grey

Question 35

What is the point?

Answer 35

to reinforce the occurrence of certain behaviors that are important for our survival (like eating)

Question 36

The pleasure/reward system is basically a ________ system

Answer 36

positive feedback

Question 37

Reward/pleasure system - dopamine

Answer 37

released by VTA neurons who’s axons terminate in the NAc
Binds to D1, D2, D3 receptors,
D2 or D3 inhibitory, predominate

Question 38

Reward/pleasure system - GABA

Answer 38

released by NAc neurons whose axons terminate in the prefrontal cortex
also fibers terminating in VTA from NAc or interneruons within VTA

Question 39

Reward/pleasure system - the opiods

Answer 39

major action - inhibit GABA interneuron in VTA –> VTA releases more dopamine in NA –> intense feeling of pleasure (euphoria)

Question 40

To produce pleasure
VTA
Nac
GABA
experience

Answer 40

activate VTA
inhibit the NAc
less GABA in the prefrontal cortex
experience pleasure

Question 41

To inhibit pleasure
VTA
NAc
GABA
experience

Answer 41

-
activate the NAc
more GABA in the prefrontal cortex
prevent pleasure

Question 42

Two kinds of fear

Answer 42

Innate (unconditioned)

learned (conditioned)

Question 43

Innate (unconditioned) fear

Answer 43

fear that requires no experience
in animals, associated with olfactory cues
Humans - debated, falling and loud noises most frequently cited

Question 44

Learned (conditioned) fear

Answer 44

learned fom experience

in humans, the experience can be indirect (watching someone else experience a frightening thing)

Question 45

Learned (conditioned) fear

Answer 45

learned fom experience

in humans, the experience can be indirect (watching someone else experience a frightening thing)

Question 46

Neuroanatomical basis for fear - amygdala

Answer 46

processing and recognition of social clues related to fear
emotional conditioning in response to fear
memory

Question 47

Neuroanatomical basis for fear - inputs

Answer 47

inputs (both the thalamic and via the cortex) arrive at the lateral nucleus of the amygdala

Question 48

The lateral nucleus of the amygdala does what?

Answer 48

integrates the inputs (i.e.. the pairing of sound and an electrical shock)

Question 49

The paired information is sent from the lateral nucleus of the amygdala to where?

Answer 49

to the basal and intercalated nuclei for additional processing

Question 50

information about fear from the lateral, basal and intercalated nuclei is sent to___________ which decides________. The ______ is an important component of generating the physiologic responses

Answer 50

the central nucleus of the amygdala
what responses are required and relays information appropriately
hypothalamus

Question 51

In the individual with damage to the amygdala, fear is

Answer 51

not perceived, therefore conditioning related to fear does not occur

Question 52

Neuroanatomical basis for Sadness - anatomical substrate

Answer 52

lower sector of the anterior cingulate cortex

strongly activated when recalling sad events

Question 53

Neuroanatomical basis for Avoidance - anatomical substrate

Answer 53

lateral posterior hypothalamus
dorsal midbrain
entorhinal cortex

Question 54

Although we don;t understand the system particularly well, the punishment/avoidace system is designed to oppose the occurrence of behavior. Describe long term and short term

Answer 54

in the long term, behavior usually has negative consequences, but the short term may be neutral or positive

Question 55

Neuroanatomical basis for disgust - anatomical substrate

Answer 55

insular cortex/putame
processing and recognition of social cues related to disgust
damage (including huntington’s disease) abolishes

Question 56

Neuroanatomical basis for Anger/rage

Answer 56

amygdala

requires dopaminergicc input acting at D2 receptors

Question 57

inhibition of anger/rage requires

Answer 57

neocortex
ventromedial hypothalamic nuclei
septal nuclei

Question 58

Pleasure

Answer 58

VTA, NA - dopamine. positive feedback system to encourage behavior

Question 59

Anger

Answer 59

involves amygdala and dopaminergic D2 receptor activation

Question 60

Fear

Answer 60

inputs from thalamus and cortex come into lateral n of amygdala, pressed and sent to basal and intercalated n. , outflow from amygdala via central n. to various places for physiologic consequence

Question 61

Disgust

Answer 61

putamen and insular cortex is strongly involved (loss of ability to recognize in Huntingtons dz)

Question 62

Sadness

Answer 62

lower pole of anterior cingulate cortex

Question 63

Integrating the inputs Step 1 - the anterior cingulate Cx

functionally divided into 2 regions

Answer 63

Ventral= affective
dorsal = cognitive

Question 64

Integrating the inputs Step 1 - the anterior cingulate Cx

Role in emotion

Answer 64

integration of visceral, attentional and emotional input
Regulation of AFFECT - particularly top-down control (controlling our emotions)
Monitors or detects conflict between our function al state (right now) and new information that has potential or motivational consequences.

It does;t decide what to do, but relays the information to…. the prefrontal cx

Question 65

Integrating the inputs Step 2 - the prefrontal cx

Two divisions

Answer 65

ventromedial

dorsolateral

Question 66

Integrating the inputs Step 2 - the prefrontal cx

ventromedial division

Answer 66

receives input from

amygdala, hippocampus, temporal visual association area, dorsolateral prefrontal cx (the other division)

Question 67

Integrating the inputs Step 2 - the prefrontal cx

ventromedial division

Answer 67

receives input from

amygdala, hippocampus, temporal visual association area, dorsolateral prefrontal cx (the other division)

Question 68

Integrating the inputs Step 2 - the prefrontal cx

dorsolateral division

Answer 68

receives input from
motor areas, including basal ganglia, pre and supplementary motor cortex
cingulate cortex, especially parts related to performance monitoring
several cortical association areas

Question 69

Integrating the inputs Step 2 - the prefrontal cx

division we are interested in?

Answer 69

Ventromedial division

Question 70

Integrating the inputs Step 2 - the prefrontal cx

Three roles

Answer 70

Reward processing
integration of bodily signals
top down regulation

Question 71

Integrating the inputs Step 2 - the prefrontal cx

reward processing

Answer 71

(orbitofrontal) - with the amygdala, we link new stimulus to a primary reward

Question 72

Integrating the inputs Step 2 - the prefrontal cx

integration of bodily signals

Answer 72

(ventromedial prefrontal) - the “gut feeling” decision when logical analysis is unable to help

Question 73

Integrating the inputs Step 2 - the prefrontal cx

top down regulation

Answer 73

especially towards delayed gratification

Question 74

Role of anterior cingulate cx - summary

Answer 74

ventral region
integration of all sensory and emotional processing
controlling emotional display
conflict detection - what new information has the power to change how i;m feeling

Question 75

Role of prefrontal cortex - summary

Answer 75

ventromedial subdivision
reward processing
gut-feeling
delayed gratification