Olfaction and the limbic system

Question 1

What makes up the olfactory epithelium?

Answer 1

Bipolar olfactory neurones- these have two processes
Sustentacular cells- support cells mainly providing metabolic support
Basal cells- regenerate olfactory neurones

Question 2

How do olfactory neurones change with age?

Answer 2

We lose them

Question 3

Where is the olfactory bulb found?

Answer 3

Sitting just above the cribriform plate

Question 4

Where is the olfactory epithelium found?

Answer 4

Upper part of the nose

Question 5

How do the axons of the bipolar cells travel?

Answer 5

They pass through the cribriform plate in the base of the skull up into the olfactory bulb

Question 6

What happens when these bipolar cells reach the olfactory bulb?

Answer 6

They synapse at a glomerulus with a second order olfactory neurone which send their axons down the olfactory tract towards the brain

Question 7

What are the second order olfactory neurones called?

Answer 7

Olfactory bulb mitral cells

Question 8

What happens to the olfactory tract?

Answer 8

It splits to form two olfactory stria (medial and lateral)

Question 9

Where does higher processing of smell occur?

Answer 9

In the piriform and orbitofrontal cortices

Question 10

What does damage to piriform or orbitofrontal cortices result in?

Answer 10

Inhibition of normal smell processes

Question 11

What effect does connections of the olfactory system to the brain stem have?

Answer 11

Odours can promote autonomic responses e.g. salivating when you smell foot

Question 12

What is a clinical deficit in the olfactory system?

Answer 12

Anosmia

Question 13

What is a common cause of anosmia and how?

Answer 13

Mid-face trauma- if you get smacked in the nose that is serious enough to cause a fracture of the skull you can break the cribriform plate and shear off the neurones going from the olfactory epithelium

Question 14

Where does most of the olfactory processing take place?

Answer 14

Piriform cortex and orbitofrontal cortex

Question 15

Where is epilepsy often focussed?

Answer 15

Temporal lobe

Question 16

What does the fact that epilepsy is often centred in temporal lobe lead to?

Answer 16

Some people with epilepsy will experience prodromal aura where they are made aware that they’re going to have a seizure because they’ll smell something that isn’t there

Question 17

What is pathology in the olfactory bulb an early aspect of?

Answer 17

Parkinson’s and Alzheimer’s disease

Question 18

What is thought to be the cause of Parkinson’s

Answer 18

It is a very sporadic disease with less than 5% of cases being autosomal dominant or recessive inheritance. It is thought that there could be some environmental trigger

Question 19

What is thought to be the environmental trigger of Parkinson’s?

Answer 19

In the gut (up the vagus nerve to the brainstem) or through the nose (little between top of nose and brain)

Question 20

What is the definition of the limbic system?

Answer 20

A rim of cortex adjacent to the corpus callosum and diencephalon

Question 21

What is the main aim of limbic processes?

Answer 21

Survival of the individual

Question 22

What behaviour is the limbic system responsible for?

Answer 22

Maintenance of homeostasis via:
-Activation of visceral effector mechanisms
-Modulation of pituitary hormone release
-Initiation of feeding and drinking
Agnostic behaviour
Sexual and reproductive behaviour
Memory

Question 23

What are the two key parts to the limbic system and where are they found?

Answer 23

They are found in the temporal lobe:
Amygdala (anteriorly)
Hippocampus (immediately behind the amygdala on the floor of the inferior horn of the lateral ventricle)

Question 24

What circuit do the amygdala and hippocampus belong to?

Answer 24

Papez circuit

Question 25

What cortical representation of the limbic system is there?

Answer 25

Mainly the cingulate cortex which is just above the corpus callosum

Question 26

What is the Papez circuit?

Answer 26

A neural circuit for the control of emotional expression

Question 27

Where is the hippocampus and what is its main output pathway?

Answer 27

It is found on the floor of the inferior horn of the lateral ventricle and its main output pathway is the fornix

Question 28

What is the fornix?

Answer 28

The fibre pathway that comes out of the inferior horn, passes under the corpus callosum and dives down anteriorly to synapse in the mamillary bodies (in the hypothalamus)

Question 29

What are the mamillary bodies particularly damaged in?

Answer 29

Chronic alcoholism and Wernicke-Korsakoff syndrome- these diseases involve amnestic tissues

Question 30

What is the pathway from the mamillary bodies in the Papez circuit?

Answer 30

The fibre pathway called the mammillo-thalamic tract (MTT) which projects to the anterior nucleus of the thalamus

Question 31

What projects from the anterior nucleus of the thalamus?

Answer 31

There are thalamocortical projections in this case going to the cingulate cortex.

Question 32

What completes the loop from the cingulate cortex in the Papez circuir?

Answer 32

It is complete by fibres projecting back to the hippocampus via the cingulate vundle

Question 33

How is your reaction to the world affected by what you’ve seen before?

Answer 33

It is coloured by the neocortex

Question 34

What does digital tensor imaging show?

Answer 34

This form of imaging shows co-instant activity in different parts of the brain hence shows which parts of the brain are working together

Question 35

What is the main afferent connection of the hippocampus?

Answer 35

The perforant pathway- main connections are from the adjacent cortex (entorhinal) through the perforant pathway and that adjacent piece of cortex receives input from every other neocortical area. Every other piece of cortex sends some projections to the entorhinal crotex and from there via the perforant pathway you have input to the hippocampus

Question 36

What is the main efferent connection of the fimbria/fornix?

Answer 36

This is the output pathway from the hippocampus- part of the Papez circuit

Question 37

What is the function of the hippocampus?

Answer 37

Memory and learning

Question 38

What clinical conditions affect the hippocampus?

Answer 38

Alzheimer’s and epilepsy

Question 39

Where is the hippocampus?

Answer 39

In the medial temporal lobe

Question 40

What happens to the hippocampus in Alzheimer’s?

Answer 40

There is severe shrinking of the hippocampus

Question 41

What do you find on the floor of the lateral ventricles?

Answer 41

The hippocampus on either side (look a bit like penises)

Question 42

What does the fornix lie immediately below?

Answer 42

The corpus callosum

Question 43

Where is the amygala found?

Answer 43

Not in the ventricle but in the white matter at the front of the temporal lobe

Question 44

What does the hippocampus look like in a coronal section?

Answer 44

Seahorse shape of the two interlocking Cs of the primary cells - this is why it is called hippocampus because it means seahorse

Question 45

What key area is next to the hippocampus?

Answer 45

Entorhinal cortex which receives inputs from every other cortical area- prohections into hippocampus from entorhinal cortex is via the perforant pathway

Question 46

What is cortical atrophy a general feature of?

Answer 46

Alzheimer’s

Question 47

What is the very stereotypical progression of cortical atrophy?

Answer 47

Loss of neurones and ventricles are much larger than they should be and widening of the sulci

Question 48

What type of staining allows you to see damaged neurones?

Answer 48

Tau immunostaining- tau protein which shows intracellular pathology

Question 49

What do senile plaques show?

Answer 49

Extracellular pathology- lumps of protein sitting in between cells in the neuropil

Question 50

What is the normal anatomical progression of Alzheimer’s?

Answer 50

Early: Hippocampus and entorhinal cortex- leads to short term memory problems
Moderate:
Parietal lobe- procedural memory e.g. dressing apraxia
Late:
Frontal lobe
Loss of executive skills

Question 51

Where is the amygdala found?

Answer 51

It is buried in the white matter of the anterior temporal lobe and it has connections to basically everything

Question 52

What are the main afferent connections of the amygdala?

Answer 52

Olfactory cortex
Septum
Temporal neocortex
Hippocampus
Brainstem

Question 53

What is the main efferent connection of the amygdala?

Answer 53

Stria terminalis- fear and anxiety- focus of degenerative disease

Question 54

How does the amygdala show pathology early on in Alzheimer’s and Parkinson’s?

Answer 54

It can go in two directions: people who are tired of everything or people who are totally disinhibited and can become quite agressive

Question 55

What does Kluver-Bucy syndrome result from?

Answer 55

Bilateral lesions of the anterior temporal lobe (including amygdaloid nucleus)

Question 56

What are the symptoms of Kluver-Bucy syndrome?

Answer 56

Hyperorality- exploring things with your mouth
Loss of fear
Visual agnosia- inability to recognise objects
Hypersexuality

Question 57

What structures are associated with aggression?

Answer 57

Hypothalamus
Brainstem (periaqueductal grey matter)
Amygdala
Serotonin (aka 5-HT) in the raphe nuclei of the brainstem appear to also be involved in agression

Question 58

What are the main afferent connections of the septum?

Answer 58

Amygdala
Olfactory tract
Hippocampus
Brainstem

Question 59

What are the main efferent connections of the septum?

Answer 59

Stria medularis thalami
Hippocampus
Hypothalamus

Question 60

What are the functions of the septum?

Answer 60

Reinforcement and reward

Question 61

What do the motor problem’s in Parkinson’s disease arise from?

Answer 61

Loss of dopaminergic cells in the substantia nigra in the midbrain projecting up to the basal ganglia

Question 62

What does the breakdown of the dopaminergic pathway lead to in Parkinson’s?

Answer 62

Tremulous presentation or akinetic, rigid presentation

Question 63

What do projections from the VTA dopaminergic nucleus go via?

Answer 63

The medial forebrain bundle to the cortex, amygdala and nucleus accumbens- important in drug dependence

Question 64

How does the VTN relate to the substantia nigra?

Answer 64

VTN is more medial

Question 65

Where do the dopaminergic neurones of the substantia nigra project to?

Answer 65

They project to the basal ganglia

Question 66

Where do the dopaminergic neurones of the ventral tegmental area project to?

Answer 66

Nucleus accumbens

Question 67

What effect do all drugs of abuse have in dopaminergic neurones?

Answer 67

They all increase dopamine release in nucleus accumbens

Question 68

How do drugs of abuse increase dopamine release in nucleus accumbens?

Answer 68

They stimulate midbrain neurones
Promote DA release
Inihbit DA reuptake