Motor Control 2

Question 1

Where does directional tuning occur?

Answer 1

Primary motor cortex (area 4)

Question 2

What can be said about the neurons in M1 and the direction of movement they control?

Answer 2

Each neuron has a preferred direction but the responses of all neurons are combined to produce a population vector

Question 3

What kind of loop mechanisms control movement?

Answer 3

Both feedback and feedforward mechanisms control movement

Question 4

What are examples of feedback mechanisms in movement?

Answer 4

Change in body position initiates rapid compensatory feedback messages from brainstem vestibular nuclei to spinal cord motor neurons to correct postural instability

In addition, before movement begins brainstem reticular formation nuclei (controlled by the cortex) initiate feedforward anticipatory adjustements to stabilise posture

Question 5

In damage to descending motor pathways, what does the injury site determine?

Answer 5

The symptoms

Question 6

In terms of movement, what does cortical damage cause?

Answer 6

Immediate flaccidity of contralateral muscles:

initial hypotonia due to “spinal shock” where spinal circuits are deprived of cortical input

days later spinal motor reflexes re-emerge in a consistent pattern as spared connections strengthen and new connections sprout

Question 7

What is the Babinski sign?

Answer 7

Stimulation of lateral plantar aspect of foot leads to extension of the big toe, there may also be fanning of the other toes

Question 8

What is supposed to occur with stimulation of the lateral plantar aspect of the foot in adults?

Answer 8

Planter flexion

Question 9

When does planter extension occur on stimulation to the lateral planter aspect of the foot?

Answer 9

In baby or with cortical damage

Question 10

What are examples of things that damage to descending motor pathways causes?

Answer 10

Flaccidity of contralateral muscles

Babinski sign (tendon reflexes impacted)

Loss of fine finger movement

Spasticity (due to removal of cortical suppressive influences)

Question 11

What does the basal ganglia motor loop do?

Answer 11

Selects and initiates willed movements

Question 12

What does Vlo stand for?

Answer 12

Ventral lateral nucleus in dorsal thalamus

Question 13

Where does major subcortical input to area 6 comes from?

Answer 13

Ventral lateral nucleus in dorsal thalamus

Question 14

Where does input to Vlo come from?

Answer 14

Basal ganglia

Question 15

Where does input to the basal ganglia come from?

Answer 15

Frontal, prefrontal and parietal cortex

Question 16

Explain the process of the basal ganglia motor loop?

Answer 16

Cortex > thalamus and basal ganglia > back to the SMA in cortex (area 6)

Question 17

What are some major components of the basal ganglia?

Answer 17

Corpus striatum (stripped body)

This includes two principal nuclei, the caudate and the putamen

Question 18

What are the input zones for the basal ganglia, and where do they recieve input from?

Answer 18

Caudate and putamen

From all over the cortex

Question 19

What kind of inputs does the medium spiny neurons of the putamen and caudate receive?

Answer 19

Excitatory (glutamatergic) cortical inputs on dendrites

they have large dendritic trees and integrate massive somatosensory, premotor and motor cortical inputs

Question 20

Are the axons of the putamen and caudate excitatory or inhibitory?

Answer 20

Inhibitory (GABAergic)

Question 21

Where does the putamen and caudate project to?

Answer 21

Globus pallidus and to substantia nigra pars reticulata

Question 22

What does the putamen fire before?

Answer 22

Limb/trunk movements

Question 23

What does the caudate fire before?

Answer 23

Eye movements

Question 24

The motor loop is cortex > basal ganglia > cortex, which of these pathways are excitatory and which are inhibitory?

Answer 24

Cortex to putamen - excitatory

Putamen to globus pallidus - inhibitory

Globus pallidus to VLo neurons - inhibitory

VLo back to SMA - excitatory

this means functional consequence of cortical activation of putamen is excitation

Question 25

Explain how cortical activation of putamen boosts cortical excitation?

Answer 25

At rest, globus pallidus neurons are spontaneously active and inhibit VLo

So cortical excitation:

1) Excites putamen which
2) Inhibits the inhibitory globus pallidus which
3) Releases cells in VLo from inhibition so
4) Activity in VLo boosts SMA activity

Question 26

At rest, what state are neurons in the globus pallidus?

Answer 26

Spontaneously active and inhibit VLo

Question 27

What kind of loop does the motor loop of the basal ganglia act as?

Answer 27

Positive feedback loop funnelling activation of widespread cortical areas back onto cortical SMA

Question 28

When does the “go” signal for voluntary movement occur?

Answer 28

When the SMA is boosted beyong threshold level by activity coming through the basal ganglia funnel

Question 29

What kinds of loops do cortical inputs flow as through basal ganglia (2 different kinds)?

Answer 29

Direct pathway

Indirect pathway

Question 30

What is the function of direct pathway through basal ganglia?

Answer 30

Acts as positive feedback loop causes a “go” signal to the SMA in cortex

Enhances the initiation of movements by the SMA

Question 31

What is the function of the indirect pathway through the basal ganglia?

Answer 31

Antagonises the direct root

Inhibits the thalamus, suppreses competing/inappropriate action

Question 32

What is the process of the indirect pathway through the basal ganglia?

Answer 32

1) Striatum inhibits GPe (globus pallidus external)
2) This inhibits both GPi (GP internal) and STN (subthalamic nuclei)
3) Cortex excites STN, this excites GPi which inhibits thalamus

Question 33

What are examples of basal ganglia disorders?

Answer 33

Parkinson disease (PD)

Huntington disease

Question 34

What does GPe stand for?

Answer 34

Globus pallidus external

Question 35

What does GPi stand for?

Answer 35

Globus pallidus internal

Question 36

What does STN stand for?

Answer 36

Subthalamic nuclei

Question 37

What causes parkinson disease?

Answer 37

Degeneration of neurons in substantia nigra (SN) and their dopaminergic (excitatory) inputs to the striatum

Depletion of dopamine closes down the activation of the focussed motor activites that funnel through thalamus to SMA

Question 38

What does SN stand for?

Answer 38

Substantia nigra

Question 39

Are dopaminergic inputs excitatory or inhibitory?

Answer 39

Excitatory

Question 40

Are GABAergenic inputs excitatory or inhibitory?

Answer 40

Inhibitory

Question 41

How does dopamine impact the direct and indirect pathways through the basal ganglia?

Answer 41

Enhances cortical inputs through direct pathway

Suppresses inputes through the indirect pathway

Question 42

What is a major symptom of PD?

Answer 42

Hypokinesia

Question 43

What does hypokinesia describe?

Answer 43

Slowness

Difficult to make voluntary movements

Increased muscle tone (rigidity)

Tremors of hand and jaw

Question 44

What is Huntington’s disease?

Answer 44

Hyperkinesia with dementia and personality disorders

Progressive and fatal

Hereditary

Question 45

What is the prevalence of Huntington’s disease?

Answer 45

5-10/100,000

Question 46

What is Huntington’s disease caused by?

Answer 46

Profound loss of caudate, putamen and globus pallidus

So loss of ongoing inhibitory effects of basal ganglia

Question 47

Huntington’s disease shows characteristic chorea, what does this describe?

Answer 47

Spontaneous, uncontrolled, rapid flicks and major movements with no purpose

Question 48

What percent of brain volume is the cerebellum?

Answer 48

10%

Question 49

What percentage of CNS neurons are in the cerebellum?

Answer 49

50%

Question 50

What do lesions to the cerebellum cause?

Answer 50

Uncoordinated inaccurate movements:

ataxia

fail to touch nose with eyes shut

similar to alcohol which represses cerebellar circuits

Question 51

What is ataxia?

Answer 51

A term for a group of disorders that affect co-ordination, balance and speech

Question 52

What connects the cortex, pontine nuclei and cerebellum?

Answer 52

Cortico-ponto-cerebellar projection

Question 53

What parts of the cortex are part of the cortico-ponto-cerebellar projection?

Answer 53

Layer 5

Areas 4 and 6

Somatosensory cortex

Question 54

What does information travel from the cerebellum back to the cortex via?

Answer 54

Ventrolateral thalamus

Question 55

What information does the cerebellum give the cortex?

Answer 55

Instructs direction, timing and force required to coordinate movement

Question 56

What does the motor loop for voluntary movement through basal ganglia and VLo undergo ongoing refinement from?

Answer 56

Involvement of feedback loop through pons, cerebellum, thalamus and back to cortex