Lecture 14-Modulation of movement: Cerebellum and Basal Ganglia

Question 1

How many neurons does the cerebellum have?

Answer 1

-almost as many as the rest of the brain =small brain

Question 2

How do cerebellum and basal ganglia feed into the motor neurons?

Answer 2

-basal ganglia and cerebellum do not directly influence motor neurons, the influnce is on the motor cortex and brainstem integration

Question 3

What are the 3 functions of the basal ganglia?

Answer 3

1. Allow the selection of complex patterns of voluntary movement 2. Evaluate the success of actions in achieving goals of those actions (involved in motor learning 3.Initiating movements (know from damage to basal ganglia =Parkinson’s can’t get movements going)

Question 4

What is basal ganglia’s primary function?

Answer 4

-to control and regulate activities of the motor and premotor cortical areas so that voluntary movements can be performed smoothly

Question 5

What are the 5 interconnected nuclei that make up the basal ganglia?

Answer 5

1. Caudate
2. Putamen
3. Globus Pallidus
4. Subthalamic nuclei (just below the thalamus)
5. Substantia nigra pars compacta and Substantia nigra pars reticulata

Question 6

Which 3 nuclei of the basal ganglia are in the forebrain (telencephalon)?

Answer 6

1.Caudate 2.Putamen 3.Globus Pallidus

Question 7

Where is the substantia nigra?

Answer 7

-the midbrain

Question 8

True or false: Are globus pallidus and Substantia nigra pars reticulata similar tissue?

Answer 8

true

Question 9

Why is substantia nigra called that?

Answer 9

-black, presence of melanin

Question 10

What cells are in the substantia nigra?

Answer 10

-dopamine secreting cells

Question 11

True or false: Are caudate and putamen the same kind of tissue?

Answer 11

true

Question 12

What are the 2 divisions of the globus pallidus?

Answer 12

-internal and external

Question 13

Can you microscopically distinguish putamen and caudate?

Answer 13

no -functionally also the same, input areas of the basal ganglia

Question 14

What is the function of caudate and putamen in the basal ganglia?

Answer 14

-input areas of basal ganglia

Question 15

Where does the caudate get input from?

Answer 15

• frontal cortex
• substantia nigra pars compacta

Question 16

Where does the putamen get input from?

Answer 16

• frontal cortex
• parietal cortex
• temporal cortex
• substantia nigra pars compacta

Question 17

What does input to the basal ganglia excite?

Answer 17

-GABAergic neurons of the caudate and putamen

Question 18

What are the two output region of basal ganglia?

Answer 18

-substantia nigra pars reticulata -internal division of the globus pallidus -GABAergic neurons

Question 19

How can connections between the input and output areas of basal ganglia be made?

Answer 19

-direct or indirect pathway

Question 20

What is striatum?

Answer 20

-input of basal ganglia -structure that is divided by white matter tract and is made up of caudate and putamen

Question 21

What is corpus striatum?

Answer 21

striatum plus globus pallidus

Question 22

What regions of the brain project to the corpus striatum (ie. putamen and caudate)?

Answer 22

-

Question 23

What does the direct pathway ultimately lead to?

Answer 23

-when activated by cortical input leads to cortical excitation and therefore movement -important for initiating movement

Question 24

What does the indirect pathway ultimately lead to?

Answer 24

-when activated inhibits cortical activity and therefore no movement

Question 25

What is the direct pathway?

Answer 25

1. Get input from the cerebral cortex
2. That excited the caudate and putamen
3. That leads to inhibition of globus pallidus internal segment (the putamen caudate neurons when excited inhibit this region)
4. Globus pallidus tonically inhibits VA/VL complex, when the caudate and putamen inhibit this function then thalamus is more active as it is not being inhibited
5. VA/VL complex of thalamus excited the frontal cortex= movement!

—-also remember substantia nigra pars compacta makes dopamine= that also excited the caudate/putamen, enhancing this pathway -D1 must be present for the indirect pathway to occur!

Question 26

What is the indirect pathway?

Answer 26

1. Get input from cerebral cortex.
2. That excites the caudate/putamen
3. In this case the substantia nigra pars compacta is producing D2 (which is inhibitory) and the globus pallidus external segment will be inhibited
4. Globus pallidus external segment normally tonically inhibits the subthalamic nucleus and now g.p is inhibited by the caudate putamen so the subthalamic nucleus will be less inhibited and more active
5. b globus pallidus external segment normally also inhibits globus pallidus internal segment but now g.p.e is inhibited so it doesn’t inhibit the internal segment
6. The subthalamic nucleus will excite the globus pallidus internal segment
7. The globus pallidus internal segment tonically inhibits VA/VL of the thalamus and this way it will increase its inhibition
8. VA/VL complex of thalamus then doesn’t send excitation to frontal cortex= no movement!

Question 27

What is the role of dopamine in the direct and indirect pathway?

Answer 27

-dopamine producing substantia nigra pars compacta, has two types of receptors D1 and D2, -D1 is excitatory and makes direct pathway happen -D2 is inhibitory and makes indirect pathway happen

Question 28

Why does L-dopa work as a treatment for Parkinson’s (for a while)?

Answer 28

-more dopamine in the brain -can initiate movement again

Question 29

What is the center-surround organisation of the direct/indirect pathway?

Answer 29

-

Question 30

What does this picture demonstrate?

Answer 30

-basal ganglia is involved in many more things that just motor control

Question 31

What happens in Parkinson’s disease?(in terms of basal ganglia)

Answer 31

• loss of substantia nigra
• so no dopamine, cannot get movement going

Question 32

What happens in Huntingtin’s disease in terms of basal ganglia?

Answer 32

-loss of cells in basal ganglia

Question 33

What are the functions of the cerebellum? (4)

Answer 33

1. Coordinating the timing and sequence of muscle actions and movements
2. Maintenance of muscle tone
3. Motor learning
4. Planning sequences of muscle activation for complex movements

(like an optimizer -part of getting better at the movements all muscles at tone so ready to go= cerebellum does that-when damaged then not -lot of connection to motor cortex and brain stem) –tweaking the plan -adjust the movement motor plan going to the spinal cord, error detector

Question 34

What is the overall division and organisation of the cerebellum?

Answer 34

-has thin layer of cortex and grey matter and white matter and then deep grey matter = deep cerebellar nuclei

Question 35

What are the inputs of the cerebellum? (the info goes from there to cerebellum)

Answer 35

• cerebral cortex
• proprioception
• vestibular

Question 36

How does the information get to the cerebellum from its input areas?

Answer 36

1.-goes from frontal and parietal cortex to the pontine nuclei from there goes to the cerebellar cortex 2- from vestibular nuclei goes to the cerebellar cortex 3.from inferior olive goes to the cerebellar cortex 4.from external cuneate nucleus to the cerebellar cortex 5.from dorsal nucleus of Clarke goes to cerebellar cortex

Question 37

What is the inferior olive (olivary nucleus) for?

Answer 37

• closely associated with the cerebellum, meaning that it is involved in control and coordination of movements, sensory processing and cognitive tasks likely by encoding the timing of sensory input independently of attention or awareness

Question 38

What are the vestibular nuclei for?

Answer 38

-contributes to balance in most mammals and to the sense of spatial orientation, is the sensory system that provides the leading contribution about movement and sense of balance

Question 39

What are the brain regions that project to the cerebellum?

Answer 39

• primary motor cortex
• primary somatosensory cortex
• motor association cortex
• sensory association cortex

Question 40

What are the outputs of the cerebellum?ascending outputs

Answer 40

-motor cortex -inferior olive

Question 41

How does the information from the cerebellum gets to its targets? ascending outputs

Answer 41

1. cerebellar cortex to deep cerebellar nuclei, from there to VL (ventral lateral) complex of thalamus, then from there to primary motor and premotor cortex
2. cerebellar cortex to deep cerebellar nuclei, from there to the red nucleus (parvocellular) and from there to inferior olive

Question 42

What is the functional organisation of the major descending outputs of the cerebellum?

Answer 42

-

Question 43

What are the descending outputs of the cerebellum?

Answer 43

• descending motor pathways of the brainstem -
  1. Cerebellar cortex to vestibular nuclei
  2. Deep cerebellar nuclei to reticular formation
  3. Deep cerebellar nuclei to superior colliculus
• all those to lower motor neurons in medial ventral horn

Question 44

What is ataxia?

Answer 44

• cerebellar dysfunction
• can’t get the end point right -the precision of the movement is not right

Question 45

Cerebellar function?

Answer 45

The cerebellum is responsible for integrating a significant amount of neural information that is used to coordinate smoothly ongoing movements and to participate in motor planning.= if not working= ataxia