Basal Ganglia and Cerebellum

Question 1

Do the basal ganglia modify the signals of upper and motor neurones?

Answer 1

No, they only modify the signals from upper motor neurones, they have no direct connection to lower motor neurones.

Question 2

Which part of the brain is the cerebellum part of?

Answer 2

Rhombencephalon (hindbrain)

Question 3

What are the folds on dorsal surface of the cerebellum called?

Answer 3

Folia - to give the cerebellar cortex a large surface area.

Question 4

What is the white matter of the cerebellum called?

Answer 4

Arbor vitae

Question 5

What are the two functions of the cerebellum?

Answer 5

Comparator functions - detecting “motor error” (the difference between the intended movement and the actual movement carried out), detecting discrepancies and sending feedback to the thalamus, so the movement can be corrected and coordinated
Motor memory - storing learned movements, any complex skill that becomes automatic after time and practice e.g driving a car

Question 6

What are the three major sections of the cerebellum, based on the source of the input?

Answer 6

Spinocerebellum - input direct from spinal cord
Cerebrocerebellum - inputs from cerebral cortex
Vestibulocerebellum - (includes nodulus and floculus) inputs from vestibular nuclei in brainstem

Question 7

What is the function of the cerebrocerebellum?

Answer 7

Regulates highly skilled movements involving complex sequences of movements e.g speech

Question 8

What is the function of the spinocerebellum?

Answer 8

The central part (vermis) is involved in movements of the axial (trunk) muscles.
The lateral parts are involved in movements of the distal muscles (e.g limbs).

Question 9

What is the function of the vestibulocerebellum?

Answer 9

Involved in movements controlling posture and balance.

Question 10

What is the superior cerebellar peduncle for?

Answer 10

Transmits neurones between the cerebellum and midbrain, it is entirely efferent (output of cerebellum), so carries the contralateral dentatorubrothalamocortical tract.

Question 11

What is the middle cerebellar peduncle for?

Answer 11

It transmits neurones between the cerebellum and pons. It is entirely afferent, so is where the cerebellum receives inputs.

Question 12

What is the inferior cerebellar peduncle for?

Answer 12

It transmits neurones between the cerebellum and medulla oblongata. It is a mixture of afferent and efferent pathways, it is where the cerebellum receives contralateral input from the inferior olive (climbing fibres) and also ipsilateral information from the spinal cord and vestibular nuclei.

Question 13

What are the three inputs received by the cerebellum?

Answer 13

1) Motor inputs - from motor cortex to pontine nuclei of relay neurones, where they decussate to reach cerebellum through contralateral middle cerebellar peduncle
2) Sensory inputs - ipsilaterally received from muscle proprioceptors, vestibular nuclei, visual and auditory through the inferior cerebellar peduncle, conveying information about position and motion
3) Inferior olive in the medulla oblongata - transmits information to contralateral hemisphere through inferior cerebellar peduncle, conveys modulation on timing, learning, memory

Question 14

What is the major way information is transmitted out of the cerebellum?

Answer 14

Major output structures are the deep cerebellar nuclei. Information is sent from the deep cerebellar nuclei to the cortex via the thalamus, providing the feedback loop for the comparative functions of the cerebellum.
The information is sent contralaterally through the superior cerebellar peduncle.
Dentatorubrothalamocortical pathway.

Question 15

Which of the deep cerebellar nuclei relays information from the vestibulocerebellum?

Answer 15

Fastigial nucleus (or direct to spinal cord) for balance and eye movement.

Question 16

Which of the deep cerebellar nuclei relays information from the central spinocerebellum?

Answer 16

Fastigial nucleus, for motor execution of the axial (proximal/trunk) descending systems.

Question 17

Which of the deep cerebellar nuclei relays information from the lateral spinocerebellum?

Answer 17

Interposed nucleus, for motor execution of the distal (limbs) descending systems.

Question 18

Which of the deep cerebellar nuclei relays information from the cerebrocerebellum?

Answer 18

Dentate nucleus, to the motor and premotor cortex for motor planning.

Question 19

What are the three layers of the cerebellar cortex?

Answer 19

Molecular, Purkinje, Granule.

Question 20

What are the 2 input cells in the cerebellar cortex?

Answer 20

Climbing fibre (from inferior olive)
Mossy fibre (from all other inputs)

Question 21

What are the output cells of the cerebellar cortex?

Answer 21

Purkinje cells (have large cell bodies in Purkinje layer and large branched dendrites in molecular layer)

Question 22

What are the interneurones in the cerebellar cortex?

Answer 22

Granule cells, basket cells, stellate cells, golgi cells.

Question 23

What are parallel fibres?

Answer 23

Parallel fibres are the branches of Granule cells in the molecular layer, which run parallel to the cerebellar cortex, and synapse with the dendrites of Purkinje cells.

Question 24

What is the function of climbing fibres?

Answer 24

They carry input from the inferior olive. They carry error signals so when the movement fails to meet the target/expectations, they can correct it by altering the effectiveness of the parallel inputs to the Purkinje cells (inhibitory).
So they are part of the comparative function, and modify outputs of the Purkinje cells to adjust movements.

Question 25

What is the function of mossy fibres?

Answer 25

They carry inputs from the cerebra cortex via pontine nuclei and the middle cerebellar peduncle, and inputs from the spinal cord and vestibular nuclei via the inferior cerebellar peduncle. They synapse with granule cells in the Granule layer.

Question 26

What is the function of granule cells?

Answer 26

To send information to Purkinje cells via parallel fibres.

Question 27

What is the neurotransmitter released by Purkinje cells at their synapse with the deep cerebellar nuclei?

Answer 27

Gamma aminobutyric acid (GABA)

Question 28

`Will movement errors be contralateral or ipsilateral to the damaged hemisphere of the cerebellum?

Answer 28

Ipsilateral (because the cerebellum receives ipsilateral input from muscle proprioceptors, vestibular nuclei, auditory and visual)

Question 29

What effects result from damage to the vestibulocerebellum (nodulo-flocular lobe)?

Answer 29

Disturbances of balance and eye movements

Question 30

What effects occur from damage to the central spinocerebellum?

Answer 30

Postural and gait ataxia (wide based gait with small shuffling movements)

Question 31

What effects occur from damage to the lateral spinocerebellum?

Answer 31

Upper limb ataxia and dysarthria

Question 32

What effects occur from damage to the cerebrocerebellum?

Answer 32

Impairments in highly skilled sequences of learned movements.

Question 33

What is cerebellar ataxia?

Answer 33

Jerky, imprecise, uncoordinated movements

Question 34

What is dyssynergia?

Answer 34

Loss of synergistic multi-jpont movements, so joints have to be moved one at a time.

Question 35

What is dysmetria?

Answer 35

Inability to judge distances, so movements overshoot e.g past-pointing

Question 36

What is dysdiadochokinesis?

Answer 36

Inability to perform rapid alternating movements e.g tapping the table with alternating hands

Question 37

What is intention tremor?

Answer 37

Shaking when trying to move but no tremor when at rest (also seen with lesion in the rubrospinal tract)

Question 38

What is ataxic dysarthria?

Answer 38

Slurred speech

Question 39

Which part of the cerebellum is particularly damaged by alcohol abuse, and what are the effects caused?

Answer 39

Anterior cerebellum, which includes part on lateral spinocerebellum concerned with lower limbs.
Leads to wide staggering gait, but little impairment of arm or hand movements.

Question 40

Why don’t we laugh when we tickle ourselves?

Answer 40

Cerebellum acts as a gate and alerts primary somatosensory cortex to planned movement, so it dampens down any sensations caused by the movement, so the brain knows it’s just you tickling yourself and doesn’t get excited.

Question 41

What are the components of the basal ganglia?

Answer 41

Putamen, globus pallidus pars internal and pars external, caudate nucleus, substantia nigra, subthalamic nucleus

Question 42

What are the two parts of the substantia nigra, and which is input and which is output?

Answer 42

Pars compacta = input

Pars reticulata = output

Question 43

What makes up the striatum (input zone)?

Answer 43

Caudate nucleus and putamen

Question 44

Which three parts of the basal ganglia make up the output zone?

Answer 44

Globus pallidus, subthalamic nucleus, substantia nigra pars reticulata
(The most lateral nuclei are the input zone and the deeper nuclei are the output zone)

Question 45

What is the function of the basal ganglia?

Answer 45

Selection and maintenance of voluntary movements.
They suppress unintended movement due to constitutive firing of neurones, by tonic inhibition.
They keep intended movement going.
They modulate the initiation and termination of motor commands.
(They also have a role in non motor functions like cognition, working memory, attention)

Question 46

What are the three pathways by which the basal ganglia receive inputs, and what are the neurotransmitters?

Answer 46

1) Corticostriatal pathway - inputs from cerebral cortex to striatum, neurotransmitter is glutamate
2) Nigrostriatal pathway - inputs from pars compacta of substantia nigra to striatum, neurotransmitter is dopamine
3) Medium spiny neurones - neurones in the striatum that receive inputs

Question 47

What are the two places where outputs of the basal ganglia go?

Answer 47

1) cerebral cortex via the thalamus

2) eye movements go to the superior colliculi

Question 48

What are the two pathways forming the corticostriatal loops?

Answer 48

1) Direct pathway - D1 receptors in striatum activated, output via globus pallidus internal segment, tonic inhibition of thalamus lifted
2) Indirect pathway - D2 receptors in striatum activated, output via globus pallidus external segment and subthalamic nucleus, thalamus is tonically inhibited

Question 49

What is the direct pathway of the basal ganglia?

Answer 49

Motor cortex sends excitatory signal to striatum so striatum increases inhibition of globus pallidus internal segment. Dopamine released from the substantia nigra binds to D1 receptors in the striatum and increases the inhibition of the globus pallidus internal segment by the striatum, so the tonic inhibition of the thalamus is lifted, the cortex is excited and movement is initiated.

Question 50

What effect does the substantia nigra have on the direct and indirect pathways?

Answer 50

Stimulates the direct pathway, inhibits the indirect pathway.

Question 51

What is the indirect pathway of the basal ganglia?

Answer 51

Motor cortex sends excitatory signals to striatum which activates inhibitory neurones from striatum to globus pallidus external segment. The striatum inhibits the globus pallidus external segment, which lifts the inhibition on the globus pallidus internal segment and on the subthalamic nucleus. The subthalamic nucleus excites the globus pallidus internal segment which inhibits the thalamus. The cortex is not excited and movement is inhibited.
The substantia nigra releases dopamine which activates the D2 receptors of the striatum and this decreases the inhibition of the globus pallidus external segment by the striatum.

Question 52

What sort of movement disorder is Parkinson’s?

Answer 52

Hypokinesia - paucity of movement

Question 53

What is the global prevalence, and peak onset age, of Parkinson’s?

Answer 53

Global prevalence = 1 in 500

Peak onset age = 60

Question 54

What are the four clinical characteristics of Parkinson’s?

Answer 54

TRAP
Tremor of hands (with periodicity)
Rigidity of muscles
Akinesia
Postural problems

Question 55

What is the neuropathology of Parkinson’s disease?

Answer 55

The degeneration of the dopaminergic neurones in the substantia nigra that project to the striatum (nigrostriatal pathway), decreasing dopamine availability.
This means the stimulation of the direct pathway is reduced and the inhibition of the indirect pathway is reduced, so the tonic inhibition on the thalamus is increased so there is difficulty in starting and stopping movements.

Question 56

What are the five treatments used for Parkinson’s?

Answer 56

1) Levodopamine (L-dopa) - increases systemic dopamine but can can cross BBB so increases dopamine in the neurones of the substantia nigra that are still alive
2) Dopamine agonists to activate D1 and D2 receptors in the striatum (side effects = sudden sleepiness)
3) Foetal cell transplants - mesencephalic cells (stem cells) transplanted into putamen
4) Deep brain stimulation - implanted electrode to inactivate the globus pallidus or subthalamic nucleus or thalamus using high frequency stimulation
5) Surgery to remove part of the globes pallidus (pallidotomy) or thalamus (thalamotomy)

Question 57

What are the side effects of L-dopa?

Answer 57

Dyskinesia, drug resistance, psychosis.

Question 58

What is the cause of Huntingdon’s disease?

Answer 58

It’s a genetic disorder, a mutation on chromosome 4 means the output neurones of the striatum to the globus pallidus external segment are lost, so cortical motor areas are over stimulated.

Question 59

What type of disorder is Huntingdon’s and what are the symptoms?

Answer 59

It is a hyperkinesia disorder, and the symptoms are excessive uncontrollable jerky movements (chorea).

Question 60

How do the drugs used to treat Huntingdon’s and Hemiballismus work?

Answer 60

They deplete dopamine.

Question 61

What is the cause of hemiballismus?

Answer 61

Damage to the subthalamic nucleus inhibits the indirect pathway, so there is rapid, flinging, violent movement of limbs (ballismus) on only one side of the body.