Voluntary Motion

Question 1

What are the main voluntary motion control areas in the brain?

Answer 1

Primary motor cortex
Supplementary motor cortex
Premotor cortex

Question 2

What are the functions of the premotor cortex?

Answer 2

• Identifies the intent of the motion
• Decides if it is appropriate to move or not (dorsal aspect)
• Receives sensory information required to move

Question 3

What are the 2 divisions of the supplementary motor cortex?

Answer 3

Supplementary motor area (SMA) and the

Pre-supplementary motor area (pre-SMA)

Question 4

Function of the supplementary motor area?

Answer 4

Postural control

Question 5

Function of the pre-supplementary motor area?

Answer 5

• Plans the motor sequence needed to make action occur

- Control to switch strategies or actions

Question 6

What is the function of the primary motor cortex?

Answer 6

Controls specific movements –encodes the movements!

Question 7

What cortex layer receives the sensory input?

Answer 7

Layer 4 - internal granular layer

Question 8

What cortex layer outputs the info for the CST pathway?

Answer 8

Layer 5 - ganglionic layer

Question 9

How are the neurons in the primary motor cortex arranged?

Answer 9

Into columns

Question 10

What are the types of columns?

Answer 10

• On/off for agonist muscle

- Off/on for antagonist muscle

Question 11

What are the types of neurons in the columns?

Answer 11

• 1 set to start motion

- 1 set to stop motion

Question 12

Neighboring columns have what in common?

Answer 12

Control related motions!! (not neighboring muscles)

Question 13

Stimulation of an area/column in the primary motor cortex that controls fine motion may result in what?

Answer 13

Contraction of a SINGLE muscle

Question 14

Stimulation of an area/column in the primary motor cortex that controls general motion may result in what?

Answer 14

Contraction of a GROUP of muscles

Question 15

Is there a homunculus for the precentral gryus?

Answer 15

Yes - fine motion (for example hands), takes up more of the topical map

Question 16

When reaching for an object, what is the very first step?

Answer 16

The visual cortex (occipital) must see it and relay that axon to the parietal/frontal cortex

Question 17

What are the areas in the parietal cortex that receive input from the visual cortex when reaching?

Answer 17

V6A, VIP, PEc, MIP

Question 18

Function of VIP in the parietal cortex?

Answer 18

Create a rough map of the space around you

Question 19

Where does the VIP project?

Answer 19

F4 in the premotor cortex

Question 20

Function of F4?

Answer 20

Created a detailed map of the space around you

Question 21

Describe the rate of firing in relation to F4 area in the premotor cortex?

Answer 21

Increased firing rate of action potentials the closer the object is to you

Question 22

Function of V6A in the parietal cortex?

Answer 22

Tells you where your limb is in space

Question 23

Where does the V6A project?

Answer 23

F2 in the premotor cortex

Question 24

Function of F2?

Answer 24

Constructs a related map including the location of your limb in comparison to your body and the space around you

Question 25

For grasping, what areas of the parietal cortex are important?

Answer 25

Anterior Intraparietal area (AIP) and the PFG

Question 26

What can neurons in the Anterior Intraparietal Area and PFG respond to?

Answer 26

Seeing an object
Grasping an object
Seeing and grasping an object

Question 27

Where does the Anterior intraparietal area and PFG project to?

Answer 27

F5 in the premotor cortex

Question 28

Function of F5?

Answer 28

Neurons that fire the GOAL of the action!!

Question 29

When trying to drink a cup of coffee, but the gripping is different what area of the premotor cortex is still firing the same?

Answer 29

F5 – goal is not changed just because the grasp of the cup is!

Question 30

What area of the brain can sequence complex actions, correct force/direction, balance and eye movements and learn complex actions?

Answer 30

Cerebellum

Question 31

What are the 4 functional (not anatomical) regions of the cerebellum?

Answer 31

Spinocerebellum (vermis) and Spinocerebellum (lateral)
Cerebrocerebellum
Vestibulocerebellum

Question 32

Function of the Spinocerbellum (medial)?

Answer 32

Postural control of ongoing motions

Question 33

Inputs to the spinocerebellum (Vermis)?

Answer 33

Efferent copy

Vestibular, hearing, auditory information

Question 34

Outputs of the spinocerebellum (vermis)?

Answer 34

Fastigial nucleus, Interpositus nuclie to the rubrospinal tract of the SC

Question 35

Interpositus

Answer 35

Globose nucleus + Emboliform nucleus

Question 36

How are the outputs of the cerebellum communicated?

Answer 36

Deep cerebellar nuclei

Question 37

Function of the Spinocerebellum (lateral)?

Answer 37

Force and direction of ongoing motion and ballistic motion control

Question 38

Ballistic motion

Answer 38

Motion too fast with no time to correct it

Question 39

Inputs of the spinocerebellum (lateral)?

Answer 39

Efferent copy and muscle afferent info

Question 40

Outputs of the spinocerebellum (lateral)?

Answer 40

Interpositus nuclei to SC

Question 41

Function of the cerebrocerebellum?

Answer 41

Planning complex motions and learning

Question 42

Inputs of the cerebrocerebellum?

Answer 42

Cerebral cortex

Question 43

Outputs of the cerebrocerebellum?

Answer 43

Dentate nucleus back to the cerebral cortex

Question 44

Function of the vestibulocerebellum?

Answer 44

Future balance and eye movements

Question 45

Input of the vestibulocerebellum?

Answer 45

Vestibular

Question 46

Outputs of the vestibulocerebellum?

Answer 46

Vestibular nuclei that can ascend or descend

Question 47

For repetitive actions such as walking, chewing, breathing; what initiates the movement?

Answer 47

Central pattern Generators (CPG)

Question 48

What is necessary to activate the CPG?

Answer 48

Cerebral cortex

Question 49

What is optional to activate the CPG but can help?

Answer 49

Sensory input helps to modify actions to be appropriate to the environment

Question 50

What is the function of the Basal Ganglia?

Answer 50

Start and stop and modulate movement

Question 51

What is the main NT released in the pathways within the Basal ganglia?

Answer 51

GABA - inhibitory

Question 52

Another name for the direct pathway?

Answer 52

Straitonigral GABAergic

Question 53

Describe the Direct pathway in detail

Answer 53

• Striatum projects to the SNPR/GPI and releases a lot of GABA
• This causes an IPSP and the neurons going from the SNPR/GPI do not release many action potentials
• This causes there to be less inhibition of the thalamic neurons and they will become excitatory and fire many action potentials to the cortex and release EAA
• Motion allowed

Question 54

Purpose of the direct pathway in the basal ganglia?

Answer 54

Increase motor movements

Question 55

Purpose of the indirect pathway in the basal ganglia?

Answer 55

Decrease motor movements

Question 56

Describe the indirect pathway in detail

Answer 56

• Striatum projects to the GPE and releases a lot of GABA
• This causes an IPSP and few action potentials are generated on the neuron going from the GPE to the subthalamic nucleus
• GPE neurons will release less GABA so the subthalamic nucleus will be activated and increase its action potentials
• The subthalamic nucleus will release EAA to the SNPR/GPI and activate them
• The SNPR/GPI will then release a lot of GABA on to the thalamic neurons which will result in their inhibition and they will send less EAA to the cortex
• No motion allowed

Question 57

What is the effect of dopamine on the direct pathway?

Answer 57

Amplifies movements and increases motor activity

Question 58

Where does dopamine come from?

Answer 58

Substantia nigra pars compacta

Question 59

What is the effect of dopamine on the indirect pathway?

Answer 59

Inhibits the indirect pathway from doing its original function of inhibiting motion

Question 60

Overall effect of dopamine?

Answer 60

Initiation of motion! By activating the direct pathway and inactivating the indirect pathway

Question 61

What is the dopamine receptor on the direct pathway and what is its response when bound to dopamine?

Answer 61

D1, excitatory

Question 62

What is the dopamine receptor on the indirect pathway and what is its response when bound to dopamine?

Answer 62

D2, inhibitory

Question 63

What is lost with parkinsons disease?

Answer 63

SNPC (substantia nigra pars compacta) - and consequentially dopamime

Question 64

What is the result on each pathway when there is no SNPC and thus no dopamine?

Answer 64

The direct pathway is harder to activate
The indirect pathway is harder to inactivate
= Harder to initiate motion!

Question 65

What are the 2 functions of the prefrontal cortex?

Answer 65

Planning of complex motor actions and carrying out “thought” processes

Question 66

What areas are involved in planning complex motor actions?

Answer 66

Prefrontal cortex, premotor cortex, supplementary motor cortex and cerebrocerebellum - also basal ganglia (dopamine)

Question 67

Once a motion is approved, what is activated?

Answer 67

The columns in the primary motor cortex

Question 68

What must the brain activate for muscle contraction to occur in the agonist muscle?

Answer 68

It must activate the alpha AND gamma motor neurons

Question 69

What must the brain inactivate for muscle relaxation/stretching to occur in the antagonist muscle?

Answer 69

It must inhibit the alpha AND gamma motor neurons

Question 70

Once a motion has already started, what ensures the motion is correct?

Answer 70

Spinocerebellum