Session 8: Higher Cortical Function

Question 1

How many layers of the cortex?

Answer 1

6

Question 2

Where are most inputs from that are going to the cortex?

Answer 2

Thalamus

Cortical areas (meaning the cortex loops back on itself)

Question 3

Where are most outputs from (going from the cortex)?

Answer 3

From pyramidal cells

Question 4

What type of fibres can pyramidal cells be?

Answer 4

Projection

Commissural

Association

The output is going to widespread areas

Question 5

Functions of the frontal lobes.

Answer 5

Motor

Expression of speech

Behavioural regulation and judgement

Cognition

Eye movements

Continence

Question 6

Why can a lesion in the frontal lobe lead to motor disturbances?

Answer 6

Because the primary motor cortex can be found in the pre-central gyrus of the frontal lobe.

Question 7

Why can a lesion in the frontal lobe lead to disturbances of expression of speech?

Answer 7

Because Broca’s area is found in the frontal lobe.

Brocas area is closely associated with the primary motor cortex and especially the tongue and larynx.

Question 8

Give examples of some behavioural disturbances and judgement might happen in a frontal lobe lesion.

Answer 8

Impulsive

Disinhibited behaviours

Sexual inappropriateness

Aggression

Question 9

Give examples of cognition difficulties with frontal lobe lesions.

Answer 9

Difficulties with complex problem solving and calculations.

Question 10

Why can a lesion in the frontal lobe lead to continence issues?

Answer 10

Because the UMV supply urethral and rectal sphincters.

Question 11

If a patient has difficulty in expressing themselves, which half of the frontal lobe is most likely to be damaged?

Answer 11

Broca’s area is most commonly found in the left frontal lobe.

Question 12

Functions of the parietal lobes.

Answer 12

Sensory

Comprehension

Body image

Awareness of external environment

Calculation and writing

Visual pathways

Question 13

Why can a lesion in the parietal lobe lead to sensory disturbances?

Answer 13

Because the post-central gyri where the primary sensory cortex resides can be found in the parietal lobe.

Question 14

Why can a lesion in the frontal lobe lead to speech comprehension issues?

Answer 14

Because Wernicke’s area can be found in the parietal lobe which is closely associated to the primary auditory cortex in the temporal lobe.

A lesion here will give difficulties understanding speech.

Question 15

In Wernicke’s aphasia, which parietal hemisphere is more likely to be affected?

Answer 15

The left.

Wernicke’s area is most commonly found in the left hemisphere.

Question 16

Explain the body image disturbances that can occur in a parietal lobe lesion.

Answer 16

It leads to neglect.

This means that you might see left half of space but don’t acknowledge its existence.

An example is that a man might only shave half his face.

Question 17

If a patient has neglect of the left side of their space.

Which hemisphere of the parietal lobe is more likely to be affected?

Answer 17

The right one.

This is because the left parietal lobe only deals with space on the right half.

The right parietal lobe deals with space on both halves.

This means that a lesion in right half would lead to only right half still being consciously aware.

Question 18

How can the visual fields be disturbed in parietal lobe lesion and why?

Answer 18

Because the superior optic radiations travel through the parietal lobe.

This can lead to contralateral inferior homonymous quadrantopia.

Question 19

Functions of the temporal lobe.

Answer 19

Hearing

Olfaction

Memory

Emotion

Visual pathways.

Question 20

Why can a lesion in the frontal lobe lead to hearing disturbances?

Answer 20

The primary auditory cortex resides in the superior part of the temporal lobe.

Question 21

Why can a lesion in the frontal lobe lead to smell disturbances?

Answer 21

The primary olfactory cortex can be found in the medial part of the temporal lobe.

Question 22

What can greatly enhance emotion and memory in the temporal lobe?

Answer 22

Smell as olfaction is closely associated with memory and emotion.

Question 23

What type of visual field defect can a lesion in the temporal lobe lead to and why?

Answer 23

Inferior optic radiations run through temporal lobe.

This leads to contralateral superior homonymous quadrantopia.

Question 24

Explain cerebral dominance.

Answer 24

Left hemisphere is dominant in 95% of people.

An example is most people are right handed.

Question 25

Cerebral dominance of the left hemisphere

Answer 25

95% of people:

Sequential processing of language, mathematics and logic.

Question 26

Cerebral dominance of the right hemisphere.

Answer 26

95% of people:

More of a whole picture processing dealing with body image, visuospatial awareness, emotion and music

Question 27

A man complains about his hands not being in synch. One hand buttons his shirt and the other hand is undoing his shirt.

What is the likely problem?

Answer 27

Damage to the corpus callosum leading to alien-hand syndrome.

This is because the corpus callosum allows the two hemispheres to communicate with one another and acknowledge one another.

The corpus callosum is a bundle of commissural fibres (connecting the hemispheres)

Question 28

Why can temporal lobe lesions lead to memory disturbances?

Answer 28

Because the hippocampus is found in the temporal lobe and deals with memory.

This means a lesion here can lead to amnesia and feeling of dejavu.

Question 29

Where can Broca’s area be found?

Answer 29

In the iferior lateral frontal lobe.

Question 30

Where can Wernicke’s area be found?

Answer 30

In the superior temporal lobe at the parieto-temporal junction.

Question 31

How do the two areas communicate?

Answer 31

Via arcuate fasciculus.

Question 32

Explain the pathway for repeating a heard word.

Answer 32

Sound is sent from the ear to the primary auditory cortex.

The PAC then communicates with Wernicke’s area.

Wernicke’s area will then communicate with Broca’s area via arcuate fasciculus.

Broca’s area then sends stimulus to primary motor cortex (mouth/pharynx area) leading to production of speech.

Question 33

Explain the pathway for speaking a written word.

Answer 33

Visual stimuli from primary visual cortex goes to WA.

WA -> BA (arcuate fasciculus)

BA -> PMC

Question 34

Explain the pathway for speaking a thought.

Answer 34

Thinking comes from all areas of the cortex -> WA.

WA -> BA

BA -> PMC

Question 35

Cause of global aphasia.

Answer 35

Large middle cerebral artery infarct

Question 36

What can damage to the arcuate fasciculus cause?

Answer 36

Can cause inability to repeat heard words.

Question 37

Give examples of types of memory.

Answer 37

Declarative/Explicit

Nondeclarative/Implicit

Short term memory

Long term memory

Question 38

Explain explicit memories.

Answer 38

Factual information

Question 39

Explain implicit memories.

Answer 39

Motor skills

Emotion

Question 40

Where are explicit memories stored?

Answer 40

In the cerebral cortex

Question 41

Where are implicit memories stored?

Answer 41

In subcortical structures such as the basal ganglia and cerebellum.

Question 42

Give ways of how short term memories are more easily consolidated into long term memories.

Answer 42

By emotional context

Rehearsal

Association

Question 43

What part of the brain is crucial for consolidating declarative memories?

Answer 43

Hippocampus.

It takes input from all areas of brain like;

visual system, auditory, somatosensory, limbic etc…

Question 44

Explain the molecular and cellular mechanisms of memory.

Answer 44

Long term potentiation

Strengthens synaptic connections