Basal Ganglia

Question 1

Label the diagram showing the pathways and centres involved in movement

Answer 1

Question 2

What are the roles of the various components involved in movement?

Answer 2

• Cerebellum fine-tines and coordinates movement initiated in the cerebrum
• basal ganglia acts as an “on-off” switch that determines if movement initiated in the cortex is appropriate or not
• all information is relayed via the thalamus

Question 3

Where are movement signals initiated?

Answer 3

Signals originate in the cerebral cortex

They are modulated by a variety of subcortical structures, including the basal nuclei

Question 4

How do the cerebellum and basal ganglia act as control centres?

Answer 4

Control centres regulate the activity of descending pathways

cerebellum - involved in coordination and synergy

basal ganglia - normal initiation, control and cessation of movement

Question 5

What is the primary function of the basal ganglia (nuclei)?

Answer 5

To provide a feedback mechanism to the cerebral cortex for initiation, control and cessation of motor response (movement)

it determines whether a movement (from the cortex) is appropriate or not

Question 6

How does the basal ganglia perform its primary function?

Answer 6

• It receives and interprets information on plan and sequence of movement (from cortex)
• it relays the decision to move, via the thalamus

it can excite the cerebral cortex to facilitate wanted movement

it can dampen the cerebral cortex to inhibit unwanted movement

• it is involved in modulation of voluntary motor activity

Question 7

What can lesions of the basal ganglia lead to?

Answer 7

Dyskinesia

these are abnormal, involuntary movements

it can be hypokinetic or hyperkinetic

Question 8

What is the difference between hypokinetic and hyperkinetic?

Answer 8

Hypokinetic:

• Partial or complete loss of muscle movement due to a disruption in the basal ganglia

Hyperkinetic:

• increase in muscular activity that can result in excessive abnormal movements, excessive normal movements or a combination of both

Question 9

What would be the overall effects on the structures in each of the following situations?

Answer 9

Question 10

Label the basal ganglia

Answer 10

Question 12

What are the anatomical basal ganglia?

Answer 12

Masses of grey matter in the forebrain which are closely related anatomically / embryologically

they are found in close proximity and develop from the same embryonic tissue

they are not necessarily functionally related

Question 13

What are the 5 components of the functional basal ganglia (nuclei)?

Answer 13

1. Caudate nucleus
2. Putamen
3. Globus pallidus
4. Substantia nigra
5. Subthalamic nucleus

the putamen and globus pallidus make up the lentiform nucleus

Question 14

What are the 2 components of the corpus striatum?

Where is this found?

Answer 14

The corpus striatum is found within the telencephalon of the forebrain

Neostriatum:

• consists of the caudate nucleus and the putamen
• these function as one unit

Paleostriatum:

• globus pallidus
• this is divided into the internus (GPi) and externals (GPe)
• this forms later in development

Question 15

What are the 2 components of the globus pallidus?

Answer 15

Globus pallidus internus (GPi)

Globus pallidus externals (GPe)

Question 16

Where is the substantia nigra found?

What are the 2 components?

Answer 16

It is ‘mesencephalic’ as it is located in the midbrain

Pars reticulata (SNr) and pars compacta (SNc)

The substantia nigra has this name as it stains dark

Question 17

What is significant about the pars reticulata of the substantia nigra?

Answer 17

The globus pallidus internus (GPi) and pars reticulata (SNr) share functions and act as one unit

SNr is functionally part of the GPi

Question 18

Complete the diagram

Answer 18

Question 19

Label the basal ganglia involved in the corpus striatum

Answer 19

Question 20

What are the components of the striatum?

How are they separated?

Answer 20

The caudate nucleus and the putamen

the internal capsule separates these 2 structures

they are fused in some areas by cellular bridges

Question 21

How is the internal capsule related to the basal ganglia?

Answer 21

It carries information between:

caudate and putamen

and

globus pallidus and thalamus

Question 22

What are the 4 divisions of the diencephalon?

Answer 22

• Thalamus
• epithalamus
• hypothalamus
• subthalamus

Question 23

Label the components of the subthalamic nucleus of the basal ganglia

Answer 23

The subthalamic nucleus is close to the tegmentum of the midbrain

It is located laterally and below the thalamus

Question 24

Label the components of the substantia nigra (mesencephalic)

Which part stains darker and why?

Answer 24

The SNc (pars compacta) produces dopamine, leading to the production of melanin

melanin leads to this area staining darker

Question 25

Which area of the basal ganglia is implicated in Parkinson’s disease?

Answer 25

The pars compacta of the substantia nigra

this is due to dysfunction in the neurones which produce dopamine

Question 26

What is the primary function of the basal ganglia?

What are the other functions?

Answer 26

Primary function:

• normal initiation, control and cessation of movement

Other functions:

• cognitive processes - perception, learning, memory and abstract thought
• emotion

Question 27

Label the components of the circuitry of the basal ganglia

Answer 27

There are multiple, parallel looping circuits from the cerebral cortex back to the cerebral cortex via the thalamus

these modulate cortical output

input nuclei:

• caudate nucleus and putamen
• together they make up the striatum

output nuclei:

• globus pallidus internus (GPi) and substantia nigra reticulata (SNr)
• these communicate to the thalamus

Question 28

What is the default circuitry fo the basal ganglia?

Answer 28

Inhibitory pathway

this stops the thalamus from initiating movement

this pathway is spontaneously firing all the time unless the cortex excites input nuclei and inhibition of the thalamus is removed

Question 29

What are the 2 different afferent connections of the basal ganglia?

Answer 29

Corticostriatal and nigrostriatal

Question 30

What is the relationship between the input nuclei and afferent connections?

Answer 30

Input nuclei - striatum (caudate and putamen)

these are receiving areas of afferent connections

Question 31

What are the 2 forms of afferent projections to the striatum?

Answer 31

From the cortex:

• excitatory corticostriatal fibres
• these contain information about intended movement

From the substantia nigra pars compacta:

• nigrostriatal fibres release dopamine
• the effect is excitatory or inhibitory depending on the type of receptor on the postsynaptic neurone

Question 32

What is shown in this diagram?

Answer 32

Afferent connections

Orange shows the excitatory corticostriatal neurones from the cortex to the striatum

Red shows the nigrostriatal (excitatory or inhibitory) neurones from the substantia nigra to the striatum

Question 33

What is the efferent connection pathway of the basal ganglia?

Answer 33

The pallidothalamic pathway

Question 34

What is the relationship between the output nuclei and the efferent connections?

Answer 34

The output nuclei are GPi + SNr

these areas send efferent fibres to supply the thalamus

these are pallidothalamic fibres which are inhibitory

these fibres tonically inhibit the thalamus

Question 35

What fibres travel from the thalamus to facilitate movement as part of the efferent connections?

Answer 35

The thalamus is the way to talk back to the motor cortex (mainly premotor and supplementary motor areas)

thalamocortical fibres are inherently excitatory to the cortex (facilitate movement)

the motor cortex then influences LMNs via the corticospinal pathway and extrapyramidal pathways

Question 36

What is shown in this diagram?

Answer 36

The efferent connections

this is the pallidothalamic pathway

it is ALWAYS inhibitory and runs from the GPi to the thalamus

Question 37

What is the default circuit of the basal ganglia?

Answer 37

The thalamus is under chronic inhibition by pallidothalamic fibres from GPi and SNr neurones

Question 38

What is the role of the direct pathway of the basal ganglia?

Answer 38

The direct pathway facilitates a specific movement programme

It involves neurones from the striatum that project to the GPi directly

Answer 40

Question 41

What neurones are involved in the direct pathway?

Answer 41

1. Starts from the striatum (caudate and putamen)
2. Neurones of the striatum are excited by the cortex
3. The neurones running from the striatum to the internal globus pallidus are inhibitory neurones
4. The neurones running from the internal globus pallidus to the thalamus are also inhibitory neurones
5. From the thalamus, excitatory pathways go to the cortex where they affect the planning of the movement by synapsing with the neurones of the corticospinal and corticobulbar tracts

Question 42

What is the role of the indirect pathway of the basal ganglia?

Answer 42

To inhibit a specific movement programme, to allow the direct pathway’s programme

Involves neurones from the striatum that project to GPe

from the GPe, neurones project strongly to the subthalamic nucleus

this later projects back to GPi

Question 43

When flexing the fingers, what are the roles of the direct and indirect pathways?

Answer 43

Contract flexors - direct pathway

relax extensors - indirect pathway

Question 44

What neurones are involved in the indirect pathway?

Answer 44

1. The indirect pathway begins in the striate (putamen and caudate)
2. Inhibitory neurones from the striatum enter the globus pallidus externus
3. Inhibitory neurones run from the globus pallidus externus to the subthalamic nucleus
4. Excitatory fibres run from the subthalamus back to the globus pallidus internus
5. Inhibitory fibres run from the globus pallidus internus to the thalamus
6. Excitatory fibres run from the thalamus to the cortex

Question 45

What is the final result of the indirect pathway?

Answer 45

The striatum inhibits the globus pallidus externus, which causes disinhibition (still active) of the subthalamus

the neurones of the subthalamus become more active and excite the globus pallidus internus

this loop inhibits the thalamic nuclei

this leads to decreased activity of the cortical motor neurones and inhibition of movement

Question 46

How must the basal nuclei “balance” to influence movement?

Answer 46

To influence movement, the basal nuclei function through balancing between inhibition and disinhibition (release from inhibition) of thalamocortical pathways

Question 47

What are the 2 roles of the basal ganglia?

Through which pathways are these actions acheived?

Answer 47

Facilitate ongoing movements that are required and appropriate:

• acheived through the direct pathway
• leads to excitation of the cortex from the thalamus

inhibit unwanted movements:

• acheived through indirect pathway
• leads to inhibition of the cortex from the thalamus

Question 48

What is the role of the substantia nigra pars compacta?

Answer 48

Its main function is to initiate movement

it releases dopamine

it has a modulatory role in the direct and indirect pathways

(dopamine provides a burst of excitation to the cortex to initiate movement from rest)

Question 49

How does the substantia nigra pars compacta initiate movement?

Answer 49

It excites the direct pathway

it will inhibit the indirect pathway

(the indirect pathway inhibits movement, so the substantia nigra pars compacta must remove the inhibition)

Question 50

what are the potential consequences if the substantia nigra pars compacta is diminished?

Answer 50

Inability to initiate movement

this is seen in Parkinson’s disease

Question 51

What happens if there is a lesion of the basal ganglia?

Answer 51

Disordered movement (not paralysis) on the contralateral side

There is slow movement (hypokinesia) with poor initiation:

• walking slowly with little steps
• external initiation - someone is needed to push you
• mask face - cannot initiate facial expression and infrequent blinking

also rigidity and tremor

Question 52

What is the most common disease of the basal ganglia?

Answer 52

It involves disruption of the nigrostriatal input

this leads to Parkinson’s disease

there is degeneration of neurones in the substantia nigra pars compacta

Question 53

What are other degenerative changes that can affect basal ganglia circuitry?

Answer 53

Other degenerative changes lead to hyperkinesia

this is the occurrence of unwanted movements

Question 54

What is Hemiballismus as an example of a hyperkinetic disorder?

Answer 54

Degeneration of the subthalamic nucleus (excitatory to globus pallidus)

leads to jerky violent unwanted movements on the contralateral side to the lesion

Question 55

what is chorea (Huntington’s disease) as an example of a hyperkinetic disorder?

Answer 55

Degeneration of inhibitory fibres from the striatum to the globus pallidus

mainly in the GPe

leads to excessive unwanted movements due to an overactive thalamocortical neurone