Cerebellum & EF

Question 1

The purpose of our brain

Answer 1

Control over movement

Question 2

How does the brain engage with our environment?

Answer 2

Object recognition
Spatial recognition – object location
Detect movement & engage in voluntary action

• We are either thinking about doing OR doing

Question 3

Types of movement we need to learn to manage our environment:

Answer 3

Predictable and unpredictable:

Predictable:
Fixed, routine automatic responses

Unpredictable
Novel and require flexible responses

SO we need both habit and thinking systems that interact

Question 4

What are the 2 re-entrant systems

Answer 4

Cortico-striatal system - reward & Categorisation

Cerebro-cerebellar system

Question 5

What are the characteristics of re-entrant systems?

Answer 5

• Closed systems that connect 2 or more brain regions together
• couple the function of multiple brain area
• Non-direct
• • Via thalamus or 1/2 afferents/efferents that cross deep cerebellar nuclei
• Closed loop
• they allow the cerebellum to generate models of the brain

Question 6

Connections between cerebellum & Cortex

Answer 6

Anterior cerebellum ==> Sensorimotor

Posterior cerebellum ==> ‘cognitive region’
PFC + Parietal Association area

Vermal Region
Damage = affective/behavioural malformations

Question 7

Which 2 brain areas have grown in sync?

Answer 7

PFC + Cerebellum have grown in sync

Balsters, Joshua et al (2014)

Question 8

Functions of the cerebellum:

Answer 8

movement, Cognition & Affect

LOTS of overlap between large regions of cortex + subcortical regions in tandem
- Serves consciously controlled + automatic adaptive behaviour

Question 9

Assigned pathway to brain function

Answer 9

We can’t distinguish Perception + Cognition + Action; overlap makes it difficult to distinguish perception, cogntiion and action

Question 10

What does the Ecological Perspective to Brain Organisation postulate?

Answer 10

• The control of interactive behavior involves competition between parallel sensorimotor control loops
• Neural representations involved in this control are pragmatic and dependent upon the environment

Question 11

‘Cool’ Executive functioning is:

Answer 11

Meta-cognitive 
Top down
Under deliberate conscious control
- Problem solving
- Planning/goal setting
- Fluency
- Concept formation 
- Self-directed attention/shifting

Question 12

‘Hot’ EF is:

Answer 12

Emotional
Bottom up
- Affected by dysregulation and arousal problems
- Coordinating cognitive with motivation

Question 13

Brain areas involved in EF

Answer 13

Cerebellum + Cortex + BG

Question 14

Role of BG & Cerebellum in EF

Answer 14

Do not not have the capacities for sensory processing and motor programming
BUT
Play central role in deciding what information is or is not used by the cortex

Question 15

Role of the cortex in EF

Answer 15

has sensory capacities + motor programming that they use for calculation

Question 16

Is EF unique to humans?

Answer 16

No - all animals have the capacity to problem solve and engage in goal directed behaviour

Question 17

What % of brain volume does the cerebellum encompass?

Answer 17

10%

Question 18

What % of neurons does the cerebellum hold?

Answer 18

80%

Question 19

When does the cerebellum develop?

Answer 19

3rd trimester - therefore susceptible to premature injury

19% of prems have cerebellar injury

Question 20

How is the CB involved in action?

Answer 20

Through interactions between the thalamus, neocortex and CB - cerebro-cerebellar circuit:

->the CB helps the brain decided WHEN to act

• > how to act
• refined rhythm, rate and force

-> shift responses according to a situation

Question 21

Feed-forward model: Cerebro-cellerbellar circuit & Movement

Answer 21

• Sensory information and feedback is fed from the cortex
  this allows the CB to refine movement accordingly
  & refine movement over time and practice

Question 22

Cerebellum & social cognition

Answer 22

Social cognition requires you to be constantly online - therefore it needs the cerebro-cerebellar system to be intact

Question 23

How does the CB develop automaticity

Answer 23

Creates automaticity: through the repetition of movement & integration of feedback the CB obtains more information & become more accurate

It creates inverse models

Question 24

What is a cerebellar inverse model?

Answer 24

It is a model that facilitates automaticity to develop

They are: rapid, coordinated, highly skilled movement (and thought) that occur at an unconscious level, outside the awareness of cortically based working memory

How they are carried out:
inverts the information flow of the forward model by inputting the desired goal of the movement, i.e. its desired sensory consequences, and back calculating the motor commands that would be required to achieve this. In other words it is the inverse model that actually generates the programme of motor commands to make the movement

Question 25

Disordered rate, rhythm or force of the behaviour

Answer 25

Dysmetria

Over or under-shooting in an attempt to match movement to environment

Question 26

Symptoms of CAS

Answer 26

Cerebellar Cognitive Affective Syndrome a.k.a Schmahmann’s syndrome

Attentional Control
Emotional Control
Autism Spectrum
Psychosis Spectrum
Social skill set

Question 27

Behaviour clusters of CAS

Answer 27

Behaviours are clustered into positive (overshooting/exageratted) or negative (undershoot/underrepresented)

e.g.
Inattentiveness vs. Obsessional thought

Question 28

Cerebro- cellebellar circuit & ASD

Posterior vermis Limbic area

Answer 28

Posterior vermis Limbic area

Affective dysregulation
Social processing deficits
Irritability

Question 29

Cerebro- cellebellar circuit & ASD:

Anterior Lobe somatosensory

Answer 29

Stereotyped & repetitive behaviour

Motor impairment

Question 30

Cerebro- cellebellar circuit & ASD:
Anterior Vermis (VIIIA & VIIIB)  somatosensory

Answer 30

Stereotyped & repetitive behaviour

Question 31

Cerebro- cellebellar circuit & ASD:

Right Crus 1 & II (Posterior Lobe) fronto-language areas

Answer 31

CB (Posterior Lobe) fronto-language areas:

Language Deficits
Social Cognition Deficits
Theory of mind deficits
Imitation impairment 
Stereotyped and Repetitive behaviours

Question 32

Cerebrocellebellar circuit & ASD

Answer 32

Disruptions to the cerebro-cerebellar circuit has been implicated in ASD

Question 33

What to consider when thinking about EF in clinical practice:

Answer 33

• consider problems navigating rate, rhythm and force of emotions and behaviour
• our ability to automatise and anticipate is key for adaptive functioning

Question 34

Neurodevelopmental Disorders & EF

Answer 34

• > Ability to make and implement effective, adaptive decisions about what to do, when to do it and how to do it
• > difficulty with Bringing intentions to constructive execution
• > Sensorimotor difficulties – sensory meltdown
• > Poor automaticity burden higher order control
• ->Too much of your brain is used & slows down performance

->Trouble developing internal models makes it hard to generalise effectively