Limbic system

Question 1

the limbic system is ….

Answer 1

an anatomical concept

Question 2

Describe the anatomy of the limbic system

Answer 2

• It includes a group of cortical and subcortical nuclei found on the medial aspect of the frontal, parietal and temporal lobes.
• these cortical areas are interconnected by corticosteroids-cortical pathway
• made out of the orbito-frontal cortex, cingulate cortex and limbic cortex

Question 3

What lobes is the limbic system found on

Answer 3

• It includes a group of cortical and subcortical nuclei found on the medial aspect of the frontal, parietal and temporal lobes.

Question 4

describe the blood supply of the limbic system

Answer 4

• The limbic cortex in the frontal and parietal lobes is supplied by blood from the ANTERIOR cerebral artery.
• Limbic cortex in the temporal lobe is supplied by the POSTERIOR cerebral artery,
• although the tip of the temporal lobe & orbital cortex may be supplied by the middle cerebral artery

Question 5

What are the three parts of the limbic system

Answer 5

• orbito-frontal cortex and the cingulate cortex make up the limbic cortex in the frontal and parietal lobe
• parahippocampal cortex is the third part of the limbic cortex, it lies in the medial temporal lobe

Question 6

What affect do strokes in the anterior cerebral arteries have on the limbic system

Answer 6

• they affect the anterior part of the limbic system which effects what the limbic system does with personality moods and emotions

Question 7

What affect do strokes affecting the posterior cerebral arteries have on the limbic system

Answer 7

Strokes of the posterior cerebral artery affect the temporal part of the limbic cortex which can affect memory

Question 8

What does the limbic system do

Answer 8

 The limbic system is involved in emotion, memory and learning.
 It is linked to rewards and punishments for actions.

Question 9

What else is the limbic system connected to

Answer 9

• the limbic system is connected to the olfactory sensory system
• allows animals to experience good memories when they smell nutrias food and bad memories when they smell food that made them sick

Question 10

What is the anterior cingulate cortex made out of

Answer 10

• Made out of the rostral and caudal anterior cingulate cortex

Question 11

Where is the anterior cingulate cortex

Answer 11

• it goes over the front of the corpus callous

Question 12

When does the anterior cingulate cortex become active

Answer 12

• it becomes active when someone is suffering and in pain as well as during depression

Question 13

Describe how pain is linked to the anterior cingulate cortex

Answer 13

• nociceptive (pain) information travels up the lateral spinothalamic tract. From there it goes a) via the parabrachial nucleus (PB) to the amygdala (AMY) and b) via the anterior thalamic nucleus to the anterior cingulate cortex (ACC) and insula

Question 14

What is the difference between the anterior cingulate cortex and the prefrontal cortex

Answer 14

• the anterior cingulate cortex appears to be the cortical area responsible for the ‘unpleasantness’ of pain and its depressing emotional consequences. The prefrontal cortex is activated to “do something” about the pain.

Question 15

What is the difference between the caudal and rostral anterior cingulate cortex

Answer 15

Caudal Anterior Cingulate:
 Registers the quality of the pain, how bad it is.

Rostral Anterior Cingulate:
 Decides upon the action in response to the pain.
 Merges into the orbitofrontal cortex, the frontal lobe is responsible for actions.
 This planning of future actions helps to avoid pain.

Question 16

in what area do OCD patients may have excessive brain activity

Answer 16

 Prolonged exposure to make impossible choices causes extreme stress, and has been
linked to the development of OCD.
 OCD patients may have excessive activity in this brain area.

= Orbitofrotnal cortex

Question 17

What is a cingulotomy and what does it do

Answer 17

• a cingulotomy is the procedure of cutting the anterior cingulate gyrus which disrupts fibres that pass through it
• this reduces the emotional distress of pain
• in patients in which this has happened they reported a decrease in the level of pain and no longer required pain killers

Question 18

what is the orbitofrontal cortex involved in

Answer 18

• Involved in actions to avoid pain or injury in the future

Question 19

the anterior part of the cingulate merges into…

Answer 19

the orbitofrontal cortex

Question 20

What happens when you have to make a difficult decision

Answer 20

• person may not be a able to chose between actions and freeze
• these decisions cause extreme stress and cause the release of stress hormones such as cortisol and adrenaline
• this leads to a sense of hopelessness and then depression
• this happens to patients with OCD

Question 21

What is the posterior cingulate cortex linked to

Answer 21

• The posterior cingulate cortex (PCC) has been shown by fMRI to display intense activity when memories with emotional significance such as those concerning friends and family are recalled successfully.
• therefore It has been suggested that the PCC codes or is responsible for the emotional content or significance of memories.

Question 22

if there is dysfunction in the posterior cingulate cortex what is it linked to

Answer 22

Loss of function correlates with the disorientation seen in Alzheimer patients.

Question 23

Where is the parahippocampal gyrus

Answer 23

• lies medially and inferiorly in the temporal lobe

Question 24

what is the parahippocampal gyrus responsible for

Answer 24

• in the acquisition of new memories

Question 25

What are the subcortical parts of the limbic system made out of

Answer 25

• hippocampus

- amygdala

Question 26

what is the parahippocampal gyrus closely connected to

Answer 26

• It is closely connected to the subcortical parts of the limbic system which are inside the temporal lobe

Question 27

Where are the subcortical parts of the limbic system

Answer 27

• made out of the hippocampus and amygdala

They lie around the walls of the inferior horn of the lateral ventricles in the temporal lobe

Question 28

Where is the hippocampus

Answer 28

• The hippocampus lies along the medial wall of the inferior horn of the lateral ventricle

Question 29

What do the output fibres of the hippocampus form

Answer 29

; its output fibres form the fornix which curves upwards and round the over the top of the third ventricle

Question 30

describe the structure of the lateral ventricle

Answer 30

• has an anterior horn, posterior horn and inferior horn

Question 31

describe how the hippocampus merges into the fornix

Answer 31

• at the anterior part of the hippocampus it is mostly cells and then as it moves backwards it becomes axons this is called the fornix
• the fornix goes in a 3D curve and ends up in the hypothalamus

Question 32

describe the structure of the fornix

Answer 32

The anterior end of the fornix folds down almost vertically at the front of the third ventricle and ends up in the hypothalamus
The septum reaches down to the anterior pole of the hypothalamus

Question 33

Where do the fornix axons end in

Answer 33

• they end in the septal nuclei and mammillary body of the hypothalamus

Question 34

What happens in the hippocampus is damaged

Answer 34

 Loss of the hippocampus causes failure to create experiences into memories.
 Anterograde amnesia = Loss of ability to store new experiences.

Question 35

Describe the neuronal connections in the limbic system

Answer 35

1. Information goesfrom the cingulate cortex to the parahippocampal gyrus
2. Information goes from the parahippocampal cortex to the hippocampus
3. Information goes from the hippocampus along the fornix to the mamillary bodies of the hypothalamus
4. Information goes from the hypothalamus to the anterior thalamus
5. Information goes from the anterior thalamus back to the cingulate cortex

Question 36

what is anterograde memory

Answer 36

could not make new memory but can remember the past

Question 37

What is retrograde memory

Answer 37

cannot get past memories but can make new memory

Question 38

What does the hippocampus do to memory

Answer 38

• it is needed for memory storage as it puts a place and date stamp on the experience
• without this information you are not able to store the memory

Question 39

Where are memories stored

Answer 39

= in the cortex

Question 40

What does damage of the hippocampus not affect

Answer 40

• Damage to the hippocampus does not affect some types of memory, such as the ability to learn new motor skills (playing a musical instrument,).
= This fact suggests that such abilities depend on different brain regions (probably the cerebellum).

Question 41

What is the fornix attached to near the lateral ventricle

Answer 41

septum pellucidum.

Question 42

what is kluver bucy syndrome and what are the symptoms

Answer 42

• this is when the subject loses all sense of fear

symptoms
- Psychic blindness (inability to process information).
- Oral tendencies.
- Hypermetamorphism; grabbing objects in view and appropriately using them-
but not at appropriate times.
- Altered sexual behaviour.
- Emotional changes.

Question 43

What is kluver bucy syndrome due to

Answer 43

Bilateral loss of the amygdala

Question 44

Where is the amygdala

Answer 44

The amygdala is embedded in the entorhinal (olfactory) cortex in the anterior medial temporal lobe.

Question 45

what does electrical stimulation of the amygdala produce

Answer 45

• creates fear or anxiety

Question 46

What does the amygdala do

Answer 46

It activates the fight or flight response of the sympathetic NS.

Question 47

describe the structure of the amygdala

Answer 47

• it is made out of many sub nuclei with different connections and thus different functions

Question 48

Describe the pathway of the amygdala

Answer 48

• Septal nuclei is a sensory mechanism, which connects to the reticular formation.
• The RF forwards the signal to the ventral striatum (nucleus accumbens).
• The signal is sent to the amygdala where it can activate fight or flight.
• The commands are sent to the hypothalamus, which is then sent again to the RF.
• The reticulospinal tracts can then be activated and a response triggered.

Question 49

where are the septal nuclei

Answer 49

The septal nuclei lie at the base of the septum pellucidum

Question 50

What does the septal nuclei merge with

Answer 50

merge into the basal nucleus (of Meynert)

Question 51

What do the septal nuclei and the nucleus accumbens form together

Answer 51

ventral striatum

Question 52

the nucleus accumbens is anatomically,,,

Answer 52

Thus it is anatomically part of the basal ganglia but functionally is part of the limbic system
- this is because it is the ventral most part of the anterior striatum where the caudate and putamen merge

Question 53

what does the nucleus accumbes receive dopaminergic fibres from

Answer 53

It receives dopaminergic fibres as part of the mesolimbic dopamine pathway.

Question 54

Describe what the amygdala does to memory

Answer 54

The amygdala tells us whether it is pleasant or frightening

Question 55

What is the mesolimbic pathway

Answer 55

The mesolimbic pathway is a set of dopamine neurones that project from the
brainstem to the accumbens nucleus.

Question 56

What is the ventral striatum involved in

Answer 56

 The ventral striatum is involved in the initiation of termination of behaviours that
trigger reward pathways.

Question 57

Describe how the ventral striatum leads to reward pathways

Answer 57

 Septal nuclei send axons down to the brainstem and activate dopaminergic
neurones, these then go up to the dorsal and ventral striatum to release dopamine.
 The dopamine input to the accumbens nucleus is necessary for the pleasurable
behaviour to take place.
 The release of dopamine in the accumbens is what makes you feel good, but it also
enforces the behaviour.
 Dopamine motivates you to do things to increase your sense of award.

Question 58

What happens if you block the nucleus accummbens from releasing dopamine

Answer 58

 Thus, blocking dopamine receptors in the accumbens may help stop motor actions
associated with addictive behaviours.
 However, by blocking dopamine it will cause Parkinson-like effects.