12b: Limbic System

Question 1

Limbic system is collection of structures in (telen/dien/mesen)-cephalon.

Answer 1

All tree

Question 2

Functionally, all limbic system structures are implicated in experience or (X) of (Y).

Answer 2

X = expression
Y = emotion

Question 3

Limbic lobe is composed of (telen/dien/mesen)-cephalic structures.

Answer 3

Telencephalic

Question 4

The limbic lobe “borders” which ventricular structure?

Answer 4

Foramen of monro

Question 5

The (X) structures of the limbic lobe are the (oldest/newest) cortical areas to emerge. List them.

Answer 5

Oldest;

1. Allocortex
2. Periallocortex
3. Proisocortex

Question 6

Allocortical structures of limbic (lobe/system) have (X) number of layers. List these structures.

Answer 6

Lobe;
X = 3

1. Hippocampus
2. Primary olfactory cortex

Question 7

Periallocortex structures of limbic (lobe/system) have (X) number of layers. List these structures.

Answer 7

Lobe;
X = 4-5

1. Entorhinal cortex
2. Parahippocampal gyrus
3. Cingulate cortex
4. Orbitofrontal cortex

Question 8

The Proisocortex surrounds (X) and has (Y) number of layers. It contains the same structures as (Z), but the portions adjacent to (neocortex/ventricles).

Answer 8

X = Z = periallocortex
Y = 5
Neocortex

Question 9

List the subcortical structures of the limbic system. These are (telen/dien/mesen)-cephalic structures.

Answer 9

Telencephalic;

1. Amygdala
2. Basal forebrain (cholinergic nuclei)

Question 10

The basal forebrain is part of the (telen/dien/mesen)-cephalic structures of limbic system. It includes which nuclei?

Answer 10

Telencephalic;

1. Septal nuclei
2. Diagonal band nuclei
3. Nucleus basalis

Question 11

List diencephalic components of limbic system, which have variety of (afferent/efferent) connections with telencephalic limbic lobe.

Answer 11

Both;

1. Hypothalamus (all nuclei)
2. Thalamus (anterior and MD nuclei)
3. Epithalamus (habenular nuclei)

Question 12

List mesencephalic components of limbic system, collectively called (X).

Answer 12

X = limbic midbrain areas (LMA)

1. VTA
2. PAG

Question 13

Olfactory receptor axons terminate on second-order (X) cells, which then project to (Y) via (Z) tract.

Answer 13

X = mitral
Y = primary olfactory cortex
Z = lateral olfactory tract

Question 14

Axons of primary olfactory cortex project to (X).

Answer 14

X = amygdala and entorhinal cortex

Question 15

T/F: Multimodal association areas project into the limbic system.

Answer 15

True

Question 16

The largest area/lobe containing multimodal association areas is:

Answer 16

Prefrontal cortex

Question 17

Lesions to (X) structure seems to affect “appropriateness” of (Y) responses and “associative learning”

Answer 17

X = amygdala
Y = emotional

Question 18

Give an example of problem with sensory-sensory association, a symptom of lesion to (X).

Answer 18

X = amygdala

Inability to associate visual appearance of ball with its somesthetic feel

Question 19

Lesion to (X) causes Kluver-Bucy syndrome.

Answer 19

X = amygdala

Question 20

The amygdala receives afferent input from which sensory modalities? Via which structures, respectively?

Answer 20

All;

1. Sensory association cortices (vision, audition, somatic)
2. Parabrachial nucleus in pons (taste/visceral)
3. Primary olfactory cortex (olfaction)

Question 21

Amygdala receives afferent input from which telencephalic structures of limbic system?

Answer 21

1. Basal forebrain
2. Orbitofrontal cortex
3. Entorhinal cortex/hippocampus

Question 22

Amygdala receives afferent information about sexual drive from which structure?

Answer 22

Hypothalamus

Question 23

(Like/unlike) striatum, amygdala receives (minimal/massive) input from entire cerebral cortex.

Answer 23

Like; massive

Question 24

(Like/unlike) striatum, amygdala sends output to (X) nucleus of thalamus.

Answer 24

Unlike;

X = MD

Question 25

Amygdala sends efferent projections to (anterior/posterior/medial/lateral) hypothalamus via which pathways? Star the longest one.

Answer 25

1. Medial hypothalamus via Stria terminalis*

2. Lateral hypothalamus via Ventral Amygdalofugal pathway

Question 26

Stria terminalis pathway from (X) to (Y) follows the shape of which structure?

Answer 26

X = amygdala
Y = medial hypothalamus

Caudate

Question 27

Ventral Amygdalofugal (VAF) pathway from (X) to (Y) travels (ventrally/dorsally) and gives off fibers that project to (Z).

Answer 27

X = amygdala
Y = lateral hypothalamus;
Dorsally;
Z = MD thalamus and basal forebrain

Question 28

Aside from basal forebrain and hypothalamus, the amygdala has efferents to which cortices.

Answer 28

1. Prefrontal
2. Entorhinal (then hippocampus)
3. Sensory association cortices

Question 29

Patient carries perfectly normal conversation one moment, but forgets the content/occurrence of the conversation a mere 5 min later. This is sign of damage to:

Answer 29

Hippocampus

Question 30

Damage to hippocampus likely present with (retrograde/anterograde) amnesia.

Answer 30

Anterograde

Question 31

Damage to hippocampus preserves (retrograde/anterograde) memories. This indicates that memories are stored (within/outside) hippocampal formation.

Answer 31

Retrograde;

outside (neocortex)

Question 32

List the hippocampal afferents.

Answer 32

1. Multimodal and olfactory cortices (sensory)
2. Amygdala (viscero-sensory)
3. Cingulate cortex (nociception/emotional state)

Question 33

Hippocampus sends efferents to which structure(s) via the fornix?

Answer 33

1. Basal forebrain
2. MB/Hypothalamus
3. Anterior Nucleus (thalamus)

Question 34

Hippocampus sends efferents to which structure(s) via direct corticocortical projections?

Answer 34

1. Amygdala
2. Entorhinal cortex
3. Multimodal parahippocampal, cingulate, and prefrontal cortices

Question 35

In LTP experiment for hippocampus, you’d place stimulating electrode in (X) and recording electrode in (Y).

Answer 35

X = entorhinal complex
Y = hippocampus

Question 36

In the phenomenon called “Kindling”, the threshold for producing (X) (increases/decreases/doesn’t change) under what circumstances?

Answer 36

X = seizure;
Decreases;

Give seizure once per day over several days

Question 37

The (X) phenomenon reflects learning/memory of behavior that’s maladaptive.

Answer 37

X = Kindling

Question 38

LTP/Kindling depend on (activation/suppression) of which receptor(s) in hippocampus?

Answer 38

Activation;

AMPA and NMDA

Question 39

In LTP prolonged (stimulation/inhibition) of (X) receptors (de/hyper/re)-polarizes membrane enough to (Y).

Answer 39

Stimulation;
X = AMPA
Depolarizes;
Y = remove Mg block from NMDA channel

Question 40

In LTP, additional pathways are activated by (X), which (enters/produced) by (Y). What’s one of the key effects of these pathways?

Answer 40

X = Ca;
Enters;
Y = NMDA channels

Adds AMPA receptors to post-synaptic membrane

Question 41

T/F: NMDA activation and Ca influx past certain level produces excitotoxic damage and hippocampal apoptosis.

Answer 41

True

Question 42

The cingulate cortex is comprised of (X) cortices, which are linked rostrally to (Y) and caudally to (Z).

Answer 42

X = ACC and PCC
Y = Prefrontal cortex
Z = medial temporal lobe

Question 43

The cingulate cortex is linked to its rostral/caudal attachments by (transversely/longitudinally)-running (Y).

Answer 43

Longitudinally;

Y = cingulum bundle

Question 44

Neurons of (X) limbic system structure are particularly vulnerable to degeneration in Alzheimer’s.

Answer 44

X = entorhinal cortex

Question 45

The (X) in (Y) has been neurosurgically transected to treat intractable pain in terminal patients. This disconnects perception of pain from its emotional consequences.

Answer 45

X = cingulum bundle;
Y = ACC

Question 46

The ACC is primarily involved in (X). The PCC is primarily involved in (Y).

Answer 46

X = registration of aversive emotion ("suffering")
Y = self-perception and assessment of relevance

Question 47

The (neo/paleo)-spinothalamic tract projects to cingulate cortex via which structures?

Answer 47

Paleospinothalamic;

PAG and CM nucleus (thalamus)

Question 48

The (X) nucleus of hypothalamus projects to cingulate cortex via its input to (Y).

Answer 48

X = periventricular;
Y = MD nucleus of thalamus

Question 49

T/F: Hippocampus projects to cingulate cortex both directly and indirectly via (X).

Answer 49

True

X = mammillary bodies then anterior nucleus OR MD thalamus

Question 50

T/F: Hypothalamus projects to cingulate cortex both directly and indirectly via (X).

Answer 50

False - only indirectly via:

X = MD nucleus

Question 51

T/F: Amygdala projects to cingulate cortex both directly and indirectly via (X).

Answer 51

True;

X = MD nucleus

Question 52

T/F: Multimodal/sensory association cortices projects to cingulate cortex both directly and indirectly via (X).

Answer 52

False - only directly via coritocortical input

Question 53

List efferent output from cingulate cortex.

Answer 53

1. Entorhinal cortex (then hippocampus)
2. Amygdala
3. Multimodal association cortices

Question 54

The (X) structure of limbic system is important for conscious evaluation of (aversive/rewarding) emotions/motivation.

Answer 54

X = orbitofrontal cortex

Both

Question 55

Patients with lesion to (X) may be apathetic or “disinhibited” (expressing inappropriate emotions/behavior).

Answer 55

X = prefrontal cortex

Question 56

Some afferents to prefrontal cortex come from (X) via (Y) nucleus of thalamus.

Answer 56

X = amygdala and hypothalamus
Y = MD

Question 57

T/F: The cingulate cortex projects to the prefrontal cortex.

Answer 57

True

Question 58

T/F: The amygdala projects to prefrontal cortex only indirectly through thalamic nucleus.

Answer 58

False - also directly

Question 59

T/F: Hippocampus projects to prefrontal cortex via entorhinal cortex.

Answer 59

False - either directly or via hypothalamus

Question 60

The (X) has been found to be almost the entire source of ACh in the cortex.

Answer 60

X = basal forebrain

Question 61

Various drugs that (facilitate/inhibit) (X) NT have shown symptomatic improvements in Alzheimer’s early stages.

Answer 61

Facilitate;

X = ACh

Question 62

Amygdala sends (direct/indirect) efferents to basal forebrain via (X).

Answer 62

Indirect;

X = VAF pathway

Question 63

Hippocampus sends efferents to basal forebrain via (X).

Answer 63

X = fornix

Question 64

Hypothalamus sends efferents to basal forebrain via (X).

Answer 64

X = Medial forebrain bundle (MFB)

Question 65

Limbic midbrain sends efferents to basal forebrain via (X).

Answer 65

X = Medial forebrain bundle (MFB)

Question 66

Medial septal nucleus of (X) sends efferents to:

Answer 66

X = basal forebrain

Hippocampus and entorhinal cortex

Question 67

Diagonal band nucleus of (X) sends efferents to:

Answer 67

X = basal forebrain

Amygdala and cingulate cortex

Question 68

Nucleus basalis of (X) sends efferents to:

Answer 68

X = basal forebrain

Entire cortex (esp prefrontal)

Question 69

T/F: Without activation of basal forebrain, stimulus events aren’t properly coded for long-term storage.

Answer 69

True

Question 70

List the two principal pathways that connect telencepahlic limbic structures with the LMA.

Answer 70

1. Medial forebrain bundle (MFB)

2. Habenulopeduncular tract

Question 71

What’s the “lateral forebrain bundle”?

Answer 71

The internal capsule

Question 72

The MFB connects with (most/all) the nuclei of (X).

Answer 72

All;

X = hypothalamus

Question 73

Rostrally, the MFB goes as far as which structures?

Answer 73

Amygdala and basal forebrain

Question 74

The habenulopeduncular tract is a principal relay for (X) to (Y).

Answer 74

X = basal forebrain
Y = LMA

Question 75

The (X) limbic structure is very sensitive to anoxia.

Answer 75

X = hippocampus