Neuroscience 1A LC9 Limbic System PDF

Summary

This document is an outline/notes on the Limbic System, a group of brain structures involved in various neurological functions, including emotion, memory, and motivation. It details the components, functions, and connections of the limbic system, and related areas like the hypothalamus.

Full Transcript

UNIVERSITY OF NORTHERN PHILIPPINES NEUROSCIENCE 1A LC9
[NEUROSCIENCE1A] 1.9 LIMBIC SYSTEM – Dr. Steve Arellano
COLLEGE OF MEDICINE, BATCH 2026 LIMBIC SYSTEM: The Structure and Functions of
Limbic System
Transcribers: Quilana, Reyes, Rodriguez,
Editors: Rivera, Rosalin Dr. Steve Arellano | Nov. 2022
B. TWO MAIN STRUCTURES OF THE LIMBIC SYSTEM
OUTLINE 1. Hippocampal formation
I. THE LIMBIC SYSTEM
A. Limbic System - Consolidation of short-term memory into long term
B. Two Main Structures of the Limbic System memory in order for these events or memories to be
C. Function of the Limbic System stored and retrieve in the future.
II. THE LIMBIC LOBE
A. Components of the Limbic Lobe - Includes:
B. Hippocampal Formation a. Hippocampus proper
B1. Structures Associated with the Hippocampal Formation b. Dentate Gyrus
B2. Hippocampus Formation
c. Subiculum
B3. Intrinsic Circuit of the Hippocampal Formation
C. Papez Circuit 2. Amygdala / Amygdaloid Body
D. Function of Hippocampal Formation in Memory - Regulates emotional expression via modulation of the
III. AMYGDALA hypothalamus
A. Divisions
B. Efferent and Efferent Projections to the Amygdala
C. Functions of the Amygdala C. FUNCTION OF THE LIMBIC SYSTEM
IV. BRAINSTEM CENTERS ASSOCIATED WITH LIMBIC SYSTEM FUCNTION 1. Species preservation – done by reproduction and
V. PATHWAYS OF THE LIMBIC SYSTEM
associated instinctive behavior
2. Self-preservation – done thru feeding, behavior and
I. THE LIMBIC SYSTEM aggression
3. Expression of fear, motivation, & other emotions
A. LIMBIC SYSTEM 4. Memory
Limbic means border or margin 5. Learning
Limbic system includes a group of structures that lie in the -Emotional background of intellect - to balance the
border zone between the cerebral cortex and the incognitive mechanism
hypothalamus -A lot of the internal organs of the body are being
Can only be seen when the brain is cut sagitally controlled by the limbic system including endocrine and
Interconnects the telencephalon, diencephalon, & brain stem nervous system.
Major function: modulate the hypothalamus
II. THE LIMBIC LOBE

(L. limbus, ‘border’)
e.g. eye - It is the part of the eye where the horizon or the
boundary between the dark colour and the white one.
-Limbic lobe is a border between mesencephalon and
prosenencephalon
Characterized by Paul Broca, 1878
Formed a transition border intervening between
diencephalon and the telencephalon
Components:
1. Subcallosal gyrus (Neocortex)
Figure 1. Sagittal Section of the Brain showing the Limbic System 2. Cingulate gyrus (Mesocortex)
1. cingulate gyrus – lesions result in akinesia, mutism, 3. Parahippocampal gyri (Neocrtex)
apathy and indifference to pain 4. Hippocampal formation (Archicortex)
2. subcallosal arca
3. parahippocampal gyrus Figure 2. The Components of the Limbic Lob
4. dentate gyri
5. hippocampus proper
6. subiculum
7. amygdaloid body
8. septal area
9. nuclei of the thalamus & hypothalamus

Figure 2. The components of Limbic Lobe
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[NEUROSCIENCE1A] 1.9 LIMBIC SYSTEM – Dr. Steve Arellano

A. COMPONENTS OF THE LIMBIC LOBE B. HIPPOCAMPAL FORMATION
Component Layers Cell Bodies Dendrites Axon Terminals
Hippocampus Molecular Pyramidal Cell *Granule Cells of
I. Subcallosal Gyrus Proper (Deepest) Apical Dentate Gyrus
Consists of gray matter, which underlies the basal surface of Dendrites (Mossy Fibers)
*Perforant Pathway
the rostral part of the corpus callosum *Septohippocampal
Curves superiorly around the genu of the corpus callosum, Tract
*Pyramidal cell axon
as the cingulate gyrus collateral branches
Extends posteriorly, superior to the corpus callosum, as the
cingulate gyrus *Pyramidal
*Pyramidal
Cells
The cingulate gyrus in turn continues as the (Middle)
*Interneurons
*Polymorphic *Pyramidal
parahippocampal gyrus (Superficial) cell basal
dendrites
Dentate Gyrus *Molecular Some *Apical *Perforant Pathway
II. Hippocampal Formation (Outer) dendrites *Alveus
Extend from your amygdala, anteriorly to the splenium to of granule cells *Collateral branchesof
granule cells
the corpus callosum posteriorly
Consists of archicortex
*Granule Cell Granule Cells
Function: recent memory and learning (Middle) Interneurons
Three Regions *Polymorphic
(Deepest)
2. Hippocampus proper
Subiculum Three-Layered
Aka: hippocampus, Ammon’s Horn, cornu ammonis, Cortex next to
Hippocampus
sea-horse shaped, comma shaped
3. Dentate gyrus Six-Layered
Cortex Next To
4. Subiculum Parahippocam
Neuroanatomical connections: pal Gyrus

1. Entorhinal cortex
2. Supracallosal gyrus (Indusium griseum) Table 2. Components of the Hippocampal Formation
3. Fasciola cincera (Gyrus fasciolaris)
HIPPOCAMPUS PROPER
4. Septal area
Gk. Hippocampus, “seahorse‟
III. Cortical Components of the Limbic Lobe Ancient cortical structure that forms a comma-shaped
Part of Cortex Components Phylogenetically ancient cortical structure that forms a
Archicortex comma-shaped prominence on the floor & medial wall of
Hippocampal the temporal horn of the lateral ventricle
formation: Ventricular surface: coated with ependymal layer
1. Hippocampus
-Ependymal layer - they are involve in production,
proper
resorption, and circulation of CSF.
2. Dentate gyrus
Allocortex 3. Subiculum -Lateral ventricle – contains CSF
Coronal section: appears similar to a seahorse as a result
Paleocortex of its arched form.
Piriform cortex ofthe C-chaped outline in coronal section, resembles a ram‟s
parahippocampal horm & is called Ammon‟s horm (cornu Ammonis or CA)
gyrus
Mesocortex
Juxtallocortex Cingulate gyrus
Neocortex
Subcallosal gyrus
Isocortex
Parahippocampal
gyrus
Table 1. The Cortical Components of the Limbic Lobe

Figure 3. The Hippocampal Formation sea-horse-like shape

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Input sources to the Output targets of the Components:
hippocampus hippocampus 1. Apical dendritic trees
Indusium griseum Septal nuclei
i. Belong to hippocampal pyramidal cells
Cingulate gyrus Lateral preoptic area
2. Axon terminals
(hypothalamus)
i. belong to granule cells
Septal nuclei Anterior part (hypothalamus)
ii. cell bodies reside in the:
Entorhinal cortex Mamillary body Granule cell layer (dentate gyrus)
Perforant pathway (entorhinal
Dentate gyrus Anterior nuclear group
(thalamus) cortex)
Parahippocampal gyrus Midbrain tigmentum Septohippo campal tract (septal
Contralateral hippocampus Habenuclei area)
Pyramidal cell axon collateral
branches(pyramidal cell layer
Table 3. Input Sources and Output Targets of the Hippocampus ii. Be of the hippocampus)

2. Pyramidal Layer
Middle layer
Most prominent layer of the hippocampal
formation
Consist of pyramidal cells
Dendrites ramify in the molecular layer, their
axons pass in the opposite direction, across
the polymorphic layer, & then course in the
alveus, finbria, & fornix

*Schaffer collaterals
Pyramidal cell axon collateral branches
Cross the polymorohic & pyramidal
Figure 4. The Hippocampus at the Transverse Section
layers to reach the molecular layer
of theTemporal Lobe
where they form synaptic contacts with
the dendrites of other pyramidal
neurons
-when you have cells in a specific layer, it
will not stay there. It will involve other
layers. How? By extending its axon or
dendrites.

3. Polymorphic Layer
Superficial layer
Shares structural characteristics with the
deepest layers ofthe neocortex
Lies deep to the alveus
-alveus – found in the region as the
hippocampus or thelimbic syster pivoting
posteriorly and superiorly.
Figure 5. The 3-Layered Hippocampus Proper and Dentate Consists of interneurons, as well as,
Gyrus are called the Cornu Ammonis (Ammon’s Horn) pyramidal celldendrites and axon collateral
branches
LAYERS OF THE HIPPOCAMPAL ARCHICORTEX
Components:
1. Molecular Layer
Deepest layer a. Interneurons (neurons connecting
-But when you reach dentate gyrus, molecular layer will be interveningtwo or more neurons)
the superficial most later. It will reverse because it is b. Pyramidal cell dendrites (from the
pivoted. There is an inversion process. pyramidallayer where their cell
Location: core of the hippocampal formation bodies are located)
c. Axon collateral branches

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DENTATE GYRUS C. Fasciola cinerea (Gyrus Fasciolaris)
(L. dentate, “tooth-shaped‟) (L. fasciola, “band”; cinereus, “ashen-hued”)
- Structure that is opposite to hippocampus proper. Transitional zone of intervening cortex that joins the
Notched band of cortex that in interposed between dentate gyrus with the indusium griseum
theupper aspect of the parahippocampal gyrus & the
fimbria D. Septal area
Layers of the Dentate gyrus: Located in the telencephalon (forebrain)
1. Molecular Layer Well developed in humans
Outer -it makes us unique from the lower forms of animals. It has
Small population of nerve cell bodies & something to do with memory, behaviour, and decision
granulecell dendrites making.
2. Granule layer *Septal nuclear complex
Middle v. Nuclei are gathered rostral to the anteriorcommissure
Corresponds to the pyramidal layer of the vi. Two main groups:
hippocampus 1. Media septal nuclei
Cell bodies of the granule cells 2. Lateral septal nuclei
3. Polymorphic Layer
Deep layer B2. HIPPOCAMPUS FORMATION
Consists of interneurons Afferent fibers to the hippocampus proper arise from:
1. Indusium griseum
2. Cingulate gyrus
SUBICULUM 3. Septal gyrus
4. Entorhinal cortex
Transitional zone
5. Dentate gyrus
Displays a three layered archicortex next to the
6. Parahippocampal gyrus
hippocampus
7. Contralateral hippocampus
Progressively becomes a more elaborate six-layered
Efferent fibers from the hippocampus proper:
(classic layering of cortex) neocortex as it approaches the
o Axons anterior to the anterior commissure terminate at:
parahippocampal gyrus
a. Septal nuclei
Receives information relayed by the hippocampal pyramidal cells b. Lateral preoptic area (hypothalamus)
c. Anterior part (hypothalamus)
o Axons posterior to the anterior commissure:
B1. STRUCTURES ASSOCIATED WITH THE HIPPOCAMPAL a. Mammillary body
FORMATION b. Anterior nuclear group (thalamus)
c. Tegmentum (midbrain)
A. Entorhinal Cortex (Brodmann’s area 28) d. Habenular nuclei
-Located in the temporal lobe *Hippocampo-Entorhino-Neocortical Pathway
Located ventral to the amygdaloid body & anterior half of viii. Pathway involved in the consolidation of episodic
the hippocampal formation memories.
Gives rise to the most prominent input to the dentate ix. Consolidation means it strengthen so that these
gyrus via: memories will stay forever in the brain so that in future
1. Perforant pathway retrieval, you can have it.
iii. Arise from the lateral part of the entorhinal cortex
2. Alvear pathway B3. INTRINSIC CIRCUIT OF THE HIPPOCAMPAL FORMATION
iv. Arise from the medial part of the entorhinal Components of the hippocampal formation:
cortex 1. Hippocampus
B. Indusium griseum (Supracallosal gyrus) 2. Dentate gyrus
Represents a portion of the hippocampal formation that 3. Subiculum
remained attached to the corpus callosum during its Axons from the Entorhinal cortex
development - Form the perforant (lateral) & alvear (medial) pathways
Dorsally it curves around the splenium of the corpus - Terminates in the molecular layer
callosum and then merge with the dentate and - Send collaterals to the CA1 & CA3 zones
parahippocampal gyrus by way of Fasciola cinerea.
Provides the major input to the hippocampal formation

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[NEUROSCIENCE1A] 1.9 LIMBIC SYSTEM – Dr. Steve Arellano

C. PAPEZ CIRCUIT
James Papez in the 1930s
Its initial segment is a projection primarily from the
subiculum to the medial mammillary nucleus via the post
commissural fornix
Neuroanatomical basis of emotion
Anatomical structures
a. Hippocampus
b. Fornix (member of the limbic system that also pivot
located posterior to the thalamus)
c. Mamillary body (located posterior-anterior to thalamus)
d. Anterior Nucleus (anterior part of thalamus)
e. Mamillothalamic tract
f. Cingulate gyrus Figure 7. Diagram Showing the Human Memory System

- Implicit (non-declarative) events from the past that we
experienced but we are not capable of elaborating or we cannot
relate this to other people. It is just there. In the future, this will just
guide you or get you away from danger.

- Explicit (declarative) you can talk about this kind of memories.
Experience in the past that is until now, it is present. You can
culminate and write. E.g., you know when is your birthday or when
did you graduate.

- Episodic: e.g., you know when and what is going on in your
birthday.

- Semantic: it strengthens the episodic memory. E.g. your friend
knows your birthday because at the same day, he/she won the
lottery.
Figure 6. Diagram Showing the Pathway of Papez Circuit
Lesions in the hippocampal formation
- Inability to transfer immediate & short-term memory into
D. FUNCTION OF HIPPOCAMPAL FORMATION IN MEMORY long-term memory
- You will now have forgetfulness
Learning Learning and Memory processes may be interrupted by:
− Manner by which knowledge is acquired 1. Trauma
Memory 2. Cerebral anoxia (vascular event like stroke)
− Process by which knowledge is stored and is retrievable 3. Alzheimer‟s disease (degenerating disease)
in the future -presence of neurofibrillary tangles, neurotic plaque, and
Classification of Memory: neuronal loss in specific brain region
1. Immediate Memory 4. Korsakoff‟s syndrome (acquired drug-related
− Where newly learned information is initially stored forgetfulness)
(seconds) − Amnestic confabulatory syndrome involving the
2. Short-term memory hippocampus.
− Where newly learned information is initially stored
(minutes) III. AMYGDALA
3. Long-term memory Aka: amygdaloid body, amygdala complex, amygdala nuclei
− Recently learned information are reinforced, conveyed, (G. amygdalon, “almond”)
& stored for a prolonged period of time Almond-shaped group of nuclei deep to the uncus of the
− Mediated by the hippocampal formatio parahippocampal gyrus

A. DIVISIONS
1. Basolateral (VL) nuclei (larger)
2. Corticomedial (DM) nuclei (smaller)
3. Central nuclei
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Basolateral (ventrolateral) nuclei Efferent Projections from the Amygdala:
- Receives afferent fibers 1. Stria terminalis
- Phylogenetically the newest - Small fiber bundle that arises primarily from cells of
- Projects to: the corticomedial group
1. Dorsomedial nucleus (thalamus) - Fibers from the corticomedial nucleus to the septal
2. Basal nucleus of Meynert nuclei & hypothalamus
3. Ventral striatum - Lies between the thalamus and the caudate nucleus
- Influences functions of the hypothalamus 2. Amygdaloid pathway
Corticomedial (Dorsomedial) nuclei - Fibers from the central nucleus to the brainstem
- Receives afferent fibers - Fibers from the basolateral nucleus to the thalamus,
- Phylogenetically the oldest ventral striatum, & basal nucleus
- Terminal of the olfactory fibers
- Project to the VL nucleus (hypothalamus) Afferent Projections to the Afferent Projections to the
- Play a role in eating behaviors Amygdala Amygdala
Central Nuclei Olfactory bulb Hypothalamus
- Give rise to efferent fibers Orbitofrontal cortex Septal Nuclei
- Receives projections from basolateral & corticomedial Cingulate gyrus Ventral Striatum
nuclei Basal forebrain Nucleus basalis of Meynert
- Gives rise to the Ventral Amygdalofugal Pathway Medial thalamus
- Terminates in the ANS nuclei (brainstem) Hypothalamus
- Involved in respiratory & CV functions Brainstem
Table 5. Connections of the Amygdala
Nucleus Connections Functions
B. FUNCTIONS OF THE AMYGDALA
Corticomedial *Afferents from Behaviors assoc.
(dorsomedial) olfactory bulb & with hunger 1. Control of the ANS in relation to previous experiences
olfactory cortex
− Indirectly: From the amygdala to the hypothalamus
*Efferents to the
− Directly: From amygdala to the brainstem autonomic
VM nucleus of
centers
hypothalamus
Corticomedial nucleus projects to the hypothalamus
Basolateral Reciprocally *Behaviors assoc.
(Indirectly)
(ventrolateral) connected to the with eating &
Central nucleus projects to the brainstem (Directly)
sesnsory drinking
association cortical *Autonomic and
areas: somatic reflex IV. BRAINSTEM CENTERS ASSOCIATED WITH LIMBIC SYSTEM
*Efferents to the activity FUNCTION
MD nucleus of *Behavioral 1. Hypothalamus
thalamus, basal reactions to
− Mediates ANS (visceral) responses that accompany the
nucleus of stressful situations expression of emotions
Meynert, & ventral
2. Thalamus
striatum
− Hippocampal formation receives afferent fibers from the
Central Reciprocally Respiratory &
anterior, LD LP, & intralaminar nuclei.
connected to the cardiovascular
3. Habenular Nuclei
visceral sensory & responses
-tiny structure posterior to thalamus
autonomic nuclei
− Project to the:
(brainstem)
a. Interpeduncular & raphe nuclei (midbrain)
Table 4. Nuclei of the Amygdaloid Complex b. Hypothalamus
c. VTA
A. AFFERENT & EFFERENT PROJECTIONS TO THE AMYGDALA d. SN
Afferent Projections to the Amygdala 4. Ventral tegmental area (VTA)
1. Olfactory bulb − Modulates the processing of memory via dopaminergic
2. Orbitofrontal cortex fibers
3. Cingulate gyrus − Projects ascending dopaminergic fibers to all limbic
4. Basal forebrain structures.
5. Medial thalamus 5. Locus ceruleus
6. Hypothalamus -superior-posterior pons
7. Brainstem

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− Sends noradrenergic fibers 9. Mammillo-interpeduncular tract
− Secretes noradrenaline or norepinephrine but small - Arises from the mammillary body & terminates in the
amount. It also secretes dopamine and serotonin. interpeduncular nucleus
− Projects ascending noradrenergic fibers to all limbic 10. Mammillo-tegmental tract
structures. - Arises from the mammillary body & terminates in the
6. Dorsal Raphe midbrain tegmentum
- locate in the medial site of the brainstem 11. Stria terminalis
− Sends serotinergic fibers to the limbic system, where they - From the amygdaloid body terminates in the
modulate the processing of memory hypothalamus & stria terminals
12. Stria medullaris (thalami)
Structure Function - Fibers that interconnect the habenular nucleus with the
Hypothalamic nuclei Control ANS responses assoc. septal nuclei & anterior hypothalamus
*Mamillary nucleus with the expression of 13. Anterior commissure
*Preoptic nucleus emotions - Decussating fibers transmitting olfactory information
Thalamic nuclei *Process information from between the olfactory bulbs & parahippocampal gyri
*Anterior hypothalamus & amygdala 14. Diagonal band of broca
*Lateral dorsal *Relay information to the - Fibers from paraolfactory area, terminate in
*Medial Dorsal limbic lobe periamygdaloid area (temporal lobe).
Habenuclear nuclei Serve as relay center for 15. Habenulointerpenduncular tract
information arising from the - Arises from the habenular nucleus & terminates in the
limbic system destined for the interpeduncular nucleus (midbrain)
midbrain reticular formation
Ventral tegmental area (VTA) Regulates processing of
Note:
(midbrain) memory
Locus ceruleus (midbrain) Regulates processing of BLOOD SUPPLY OF THE LIMBIC SYSTEM
memory Main vessels
Dorsal Raphe (midbrain) Regulates processing of - Anterior and Posterior cerebral arteries
memory - Anterior choroidal artery
Table 6. Brain Centers Associated with Limbic System Function Branches
- arises from the Circle of Willies
V. PATHWAYS OF THE LIMBIC SYSTEM
1. Alveus
- Two-way bundle of myelinated axons that gather to
become fimbria
- Consists of thin layer of white matter that lies on the
superior or ventricular surface of the hippocampus.
2. Fimbria
- Extends to the sub-splenial area inferior to the corpus
callosum

3. Fornix
- Main output pathway of the hippocampal formation
- Carries commissural fibers to the habenular nuclei
4. Perforant Pathway
- Main cortical input pathway to the hippocampal
formation
5. Cingulum
- Transmits information that interconnects the
surrounding neocortex
6. Septohippocampal tract
- Carries fibers that arise from the medial septal nucleus &
the nuclei of the diagonal band of Broca
7. Ventral amygdalohypothalamic tract
- Main projection pathway from amygdala to the
hypothalamus
8. Mammillothalamic tract (mammillary fasiculus)
- Principal output pathway from the hypothalamic
mammillary nucleus

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Test Your Knowledge e. none of the above

1. It formed a transition border intervening between the diencephalon 13. The following are layers of the dentate gyrus, except *
and the telencephalon _________________________ a. molecular layer
2. A process by which knowledge is stored and is retrievable in the future b. polymorphic layer
_________________________ c. granule cell layer
3. The neuroanatomical basis of emotion _________________________ d. pyramidal cell layer
4. The stimulation of this system will lead to arousal, alertness, and e. none of the above
attentiveness. Destruction of this system will lead to somnolence or coma
_________________________ 14. The following are components of the limbic lobe, except *
5.Inhibition of serotonin synthesis or destruction of serotonin- containing a. hippocampal formation
neurons in the raphe system will lead to a sleep disorder called b. subcallosal gyrus
_________________________ c. cingulate gyrus
6. The following are types of neurons in the monoaminergic system, d. parahippocampal gyri
except * e. none of the above
a. adrenergic neuron
b. cholinergic neuron 15. A bilateral lesions in the nucleus reticularis pontis caudalis will
c. serotonergic neuron result in complete elimination of what type of sleep
d. dopaminergic neuron
e. none of the above 16. All about apneustic center in the pons, except *
a. increases the depth and duration of expiration
7. The neurons are associated with memory decline in Alzheimer's disease b. sends signals for inspiration for long and deep breaths
a. nucleus accumbens c. inhibited by stretch receptors of the pulmonary
b. nucleus basalis of Meynert muscles
c. red nucleus d. increases tidal volume
d. caudate nucleus e. none of the above
e. none of the above
17. The reticular nucleus of thalamus has a role in integrating and
8. The reticular formation is a mass of neurons and nerve fibers extending gating activities of thalamic nuclei, and uses a neurotransmitter *
from caudal medulla to the rostral midbrain, continuous with the zona a. acetylcholine
incerta (thalamus), intralaminar and reticular nuclei (subthalamus) * True b. dopamine
or False c. GABA
d. glutamate
9. The following nuclei belong to the median raphe nuclear group, except e. serotonin
a. raphe obscurus
b. raphe magnus 18. Main output pathway of the hippocampal formation.
c. superior central nuclei a. fornix
d. reticulotegmental nucleus b. cingulum
e. none of the above c. stria terminalis
d. alveus

10. The following nuclei belong to the medial reticular nuclear group, 19. This tract carries fibers that arise from the medial septal
except * nucleus and the nuclei of the diagonal band of Broca.
a. nucleus reticularis gigantocellularis a. cingulum
b. nucleus reticularis pontis caudalis b. septohippocampal
c. cuneiform nucleus c. stria medullaris
d. nucleus reticularis pontis oralis d. diagonal band of Broca
e. none of the above
20. Which is not part of the Hippocampal Formation
11. The following are components of the hippocampal formation, except * a. Hippocampus Proper
a. dentate gyrus b. Dentate Gyrus
b. dentate nucleus c. Cingulate Gyrus
c. subiculum d. none of the above
d. hippocampus
e. none of the above 21. A circular pathway that interconnects the major limbic
structure
12. The following are structures associated with the hippocampal a. direct pathway
formation, except * b. indirect pathway
a. induseum griseum c. papez circuit
b. entorhinal cortex d. NOTA
c. fasciola cinerea d. septal area
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22. Subcallosal Gyrus
a. It consists of white matter, which underlies the basal surface
of the rostral part of the corpus callosum.
b. Curves anteriorly around the genu of the corpus callosum, as
the cingulate gyrus.
c. Extends posteriorly, superior to the corpus callosum, as the
cingulate gyrus.
d. The cingulate gyrus in turn continues as the hippocampal
gyrus.

23.The axons anterior to the anterior commissure terminate at all of the
choices, except?. a. Septal nuclei
b. Lateral preoptic area
c. Habenular nuclei
d. Anterior part of the hypothalamus

24. Has the highest opiate receptor in the brain

25. Lesion in Amygdala will result to what

26. Which of the Amygdala’s 3 Divisions will give rise to efferent fiber

27. Fibers that lie between the thalamus and caudate nucleus

28. Modified True or False. Lesion in the Amygdala will not cause memory Answer Key
loss 1. Limbic Lobe
2. Memory
29. Which does not belong to the group to the efferent projection to 3. Papez Circuit
Amygdala: Hypothalamus, Septal Nuclei, Medial thalamus,Nucleus basalis 4. Ascending Reticular Activating System (ARAS)
of Meynert, Ventral Striatum 5. Insomnia
6. B
30. Modified True or False. Ventral Amygdalofugal Pathway runs from 7. B
central nucleus the brainstem 8. False
9. D
31. The following are types of neurons in the monoaminergic system, 10. C
except: 11. B
a. adrenergic neuron 12. E
b. cholinergic neuron 13. D
c. serotonergic neuron 14. B
d. dopaminergic neuron 15. Paradoxical sleep
e. NOTA 16. A
17. C
32. The neurons are associated with memory decline in Alzheimer’s 18.a
disease 19.b
a. nucleus accumbens 20. c
b. nucleus basalis of Meynert 21. c
c. red nucleus 22. c
d. caudate nucleus 23. c
e. NOTA 24. Amygdala
25. Placidity, loss of fear, aggression, rage
26. Central Nuclei
27. Stria Terminalis
28. True, but there is reduction in emotional excitability
29. Medial thalamus
30. False. It should be Amygdaloid Pathway
31. B
32. B

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