Motor Control and Plasticity

Question 1

Muscle fibers are made up of ____________, which are made up of ___________.

• Sacromeres; myofibrils
• Sacromeres; myosin
• Myosin; myofibrils
• Myofibrils; sacromeres

Answer 1

Myofibrils; sacromeres

(The correct answer is ‘myofibrils; sacromeres’ - muscles are made up of muscle fibers, which in turn are made up of smaller units called myofibrils. Within myofibrils are many sarcomeres - the units containing actin/myosin that will slide past each other during muscle contraction.)

Question 2

Motor neurons make up the final common pathway because…

• If activated, they will release enough acetylcholine at the NMJ to guarantee muscle contraction
• If activated, they will release enough acetylcholine at the NMJ to guarantee muscle relaxation
• If activated, they will release enough glutamate at the NMJ to guarantee muscle relaxation
• If activated, they will release enough glutamate at the NMJ to guarantee muscle contraction

Answer 2

If activated, they will release enough acetylcholine at the NMJ to guarantee muscle contraction

(The correct answer is ‘If activated, they will release enough acetylcholine at the NMJ to guarantee muscle contraction’ - this is the final decision point for whether muscle contraction will occur, because once activated, these motor neurons will cause muscle contraction due to their release of acetylcholine at the NMJ.)

Question 3

At Starbuck’s the barista places your mocha-awesome-double-shot-soy-latte on the counter. Your ___________________, is the motor planning region that will be activated as you plan to grab your drink. To actually grab your drink, you will activate the ________________________ which is the executive controller of voluntary movement.

• supplementary motor area; primary motor cortex
• premotor cortex; basal ganglia
• supplementary motor area; basal ganglia
• premotor cortex; primary motor cortex

Answer 3

premotor cortex; primary motor cortex

(The correct answer is ‘premotor cortex; primary motor cortex’ - your coffee is an external stimulus, so the motor planning region involved is the premotor cortex. To execute a voluntary action, the primary cortex must be activated.)

Question 4

The ion most critical of initiating muscle contraction is _____________.

• Acetylcholine
• K+
• Ca2+
• Na+

Answer 4

Ca2+

(The correct answer is ‘Ca2+’ - calcium - released from the sacroplasmic reticulum - causes a conformational change in actin, allowing the myosin head to bind and pull the filaments into increased overlap)

Question 5

John is a ballet dancer. When he sees someone doing a dance he knows how to do, we would expect to see:

• activation in his premotor cortex
• activation in his visual cortex
• Both A and B
• Neither A nor B

Answer 5

Both A and B

(The correct answer is ‘Both (a) & (b)’ - anyone will show activation of the visual cortex while seeing someone dance, but John will also show premotor cortex activation because of his history of dancing ballet.)

Question 6

Nonprimary motor areas are especially active

• during the preparation of reflexes.
• following the completion of movements
• following the completion of reflexes
• during the preparation of movements.

Answer 6

During the preparation of movements.

(The correct answer is ‘during the preparation of movements.’ - non primary areas are involved in movement planning. Reflexes will occur without the input of the brain.)

Question 7

Rotation of the myosin head after conformational change in actin causes muscle the actin (thin) and myosin (thick) filaments to

• Move further apart
• Slide past one another
• Shrink
• Produce new filaments

Answer 7

Slide past one another

(The correct answer is ‘slide past one another.’ - After a conformational change in actin that reveals a binding site for the myosin head, we see an increase in overlap between the thin and thick filaments, caused by them sliding past one another.)

Question 8

Which of the following would send information via the corticospinal tract?

• Primary motor cortex
• Basal ganglia
• Supplementary motor area
• both (a) & (C)
• both (b) & (C)

Answer 8

both (a) & (C)

The primary motor cortex and SMA are cortical areas that will send signals via this tract.

Question 9

A motor unit with a high innervation ratio will control

• movements associated with sudden actions
• fine movements in small muscles
• coarse/large movements in large muscles
• Slow fibers

Answer 9

Coarse/large movements in large muscles

(​​The correct answer is ‘coarse/large movements in large muscles’ - high innervation ratios mean there are many branches of the axon that innervate the muscle within a motor unit. This is necessary for control of large movements because these muscles are large and you need a coordinated contraction across the muscle fibers.)

Question 10

If the golgi tendon organ is activated, it will lead to ____________ of the associated muscle.

• Stretching
• Contraction
• Relaxation
• Supination

Answer 10

Relaxation

(The correct answer is ‘relaxation’ - the Golgi tendon organ responds when there is too much tension on a muscle, and signals for relaxation, by inhibiting APs that would cause muscle contraction)

Question 11

What question do sensory systems concern?

Answer 11

How do we take in information from the outside world?

Question 12

What questions do motor systems concern?

Answer 12

How do we act on the world (and react)?

Question 13

What makes up skeletal muscles?

Answer 13

Muscle fibers

Muscles contain hundreds to millions of muscle fibers

Question 14

Muscle fibers are made up of _______.

Answer 14

Myofibrils

Question 15

Myofibrils contain thick and thin filaments which are known as ____ and ______.

Answer 15

Thick: myosin filaments
Thin: actin filaments

Question 16

In a muscle contraction, thick and thin filaments…

Answer 16

side past each other

This is initiated through an action potential.

Question 17

We have to be able to _____ from our brain to our muscles to move.

Answer 17

signal

Question 18

We have to be able to receive __________ from our muscles, tendons, and joints to monitor movement.

Answer 18

sensory feedback

Question 19

The spine and brain control our muscles through __________.

Answer 19

motor neurons

Question 20

Motor neurons are the _____ ________ _______.

Answer 20

final common pathway

Question 21

What is the final common pathway?

Answer 21

Information-processing pathway consisting of ALL motor neurons in the body

(Receive and integrate motor signals –> direct movement)

Question 22

Motor neurons meet muscle fibers at the ______________.

Answer 22

Neuromuscular Junction (NMJ)

Instead of a neuron synapsing on a neuron, here a neuron synapses on a muscle fiber.

Question 23

How does the brain signal muscles to move?

Answer 23

1. Motor neurons integrate signals from hundreds to thousands of synapses.
2. If EPSPs outweigh IPSPs, AP initiated
3. AP travels down myelinated axon.
4. Axons split into branches near target muscle
5. At axon terminal, ACh released

Question 24

What is so special about excitation at the NMJ?

Answer 24

If AP reaches terminal, almost 100% guarantee that a muscle fiber will respond by contracting.

(This happens because A TON of ACh is released at the terminal.)

Question 25

What is a motor neuron?

Answer 25

A single motor neuron and all the muscle fibers it innervates, via axonal branches

Question 26

True or False:

ALL muscle fibers will respond to an AP sent down the motor neuron.

Answer 26

True

Question 27

What is the innervation ratio?

Answer 27

The number of muscle fibers innervated by one motor neuron

Question 28

Muscles involved in fine movements have a ____ innervation ratio.

Answer 28

low

Question 29

Muscles involved in gross movements have a _____ innervation ratio.

Answer 29

high

Question 30

Regardless of innervation ration, action potentials from a motor neuron will have the _________ on any muscle fibers they innervate.

Answer 30

same effect

Question 31

What are the steps for muscle contraction?

Answer 31

1. ACh released from motor neuron at endplate of muscle fiber.
2. ACh binds to receptors, depolarizing the endplate and causing an action potential
3. Action potential travels across the membrane of the muscle fiber.
4. Depolarization causes Ca2+ to be released from the sarcoplasmic reticulum
5. Ca2+ binds to sites on thin filaments, which leads to a conformational change
6. Myosin head (on thick filaments) binds to thin filaments
7. Overlap between thick and thin filaments increases - shortening muscle fiber
8. MUSCLE CONTRACTION

Question 32

What are the steps to muscle relaxation?

Answer 32

1. Acetycholinesterase breaks down ACh at NMJ
2. No more AP - membrane returns to normal state
3. Ca2+ actively transported back to sarcoplasmic reticulum
4. Conformational change in thin filament –> myosin head cannot stay attached
5. Overlap between thick and thin filament decreases.
6. MUSCLE RELAXES

Question 33

What ion is ultimately responsible for muscle contraction and relaxation?

Answer 33

Ca2+

Question 34

True or False:

Motor neurons only receive input from cholinergic neurons (i.e., those that release acetylcholine)

Answer 34

False

Question 35

What is proprioceptive feedback?

Answer 35

Information about position and movement of the body that is sent to the brain

(‘Body Sense’)

Question 36

What are the different proprioceptive receptors?

Answer 36

• Muscle spindles

- Golgi tendon organs

Question 37

What can happen to a muscle?

Answer 37

Contract or Stretch

Question 38

Muscle spindles send action potentials to the CNS in response to…

Answer 38

lengthening of muscle and velocity of muscle stretch

Question 39

What are the receptor elements in muscle spindles?

Answer 39

• Primary sensory endings

- Secondary sensory endings

Question 40

What are the steps involved in muscle spindles?

Answer 40

1. Muscle stretches
2. Stretch causes deformation of spindle at sensory endings
3. Deformation causes an AP in afferent fibers that informs the CNS of the stretch and triggers changes in motor neurons.

Question 41

Golgi tendon organ responds to …

Answer 41

tension

both muscle stretch and contraction

Question 42

The Golgi tendon provides feedback about…

Answer 42

the force of muscle contractions

(extend arm –> little to no reaction
lift something heavy (requiring large contractions) –> reaction

Question 43

How is the Golgi tendon protective?

Answer 43

It relaxes muscles that may tear away from tendon due to tension.

Question 44

What is a reflex?

Answer 44

A simple, highly stereotyped, and unlearned response to a particular stimulus

(Stretch reflex does not involve the brain - just the spinal cord and cells in the PNS)

Question 45

What are the steps in a stretch reflex?

Answer 45

1. Weight pulls hand down, stretching muscle
2. Afferent nerves from muscle spindle are excited
3. AP from afferent nerves excites motor neuron, innervating same muscle
4. Excitation of motor neuron leads muscle (Ma) to contract

(Motor neuron innervating antagonistic muscle (Ma) is inhibited)

Question 46

What are the cortical motor regions involved in motor control?

Answer 46

• Primary motor cortex
• Supplementary motor area (SMA)
• Premotor cortex

Question 47

What is the primary motor cortex associated with?

Answer 47

Executive region for movement initiation

Question 48

The primary motor cortex exhibits contralateral control. What does this mean?

Answer 48

The left side of M1 initiates movement in the right side of the body

Question 49

More M1 devoted to body parts involved in…

Answer 49

elaborate/complex movements

Question 50

Do cortical motor neurons encode muscle contraction or movement direction?

Answer 50

M1 neurons code both types of messages but more neurons code direction of movement

Question 51

What are the premotor and supplementary motor areas associated with?

Answer 51

Movement planning

Main distinction between regions in the type of movement planning that occurs in each area.

Question 52

Premotor and Supplementary motor areas communicate to…

Answer 52

M1 and non-cortical motor regions

Question 53

In the premotor cortex, movements are based on ________.

Answer 53

external cues

(With a strong enough stimulation, movement is initiated –> more complex movements than M1)

(Ex: shaping hand movement to reach a coffee cup)

Question 54

In the supplementary motor area, movements are based on ________.

Answer 54

internal cues

(Strong enough stimulation in this region can lead to bilateral movements –> role in coordinating movements on two sides of body.)

(Ex: I need to stretch)

Question 55

To create a change in the PNS, cortical neurons project to the motor neurons in the spinal cord via the _________.

Answer 55

corticospinal tract

It passes through the brainstem and is also known as the pyramidal system

Question 56

Subcortical regions are also part of the motor system. What are the 2 main regions?

Answer 56

• Basal ganglia

- Cerebellum

Question 57

What are the 3 characteristics of the Basal ganglia?

Answer 57

• Set of nuclei that are important for initiating and terminating movement
• Modulates activity in cortical motor regions –> lots of communication with M1
• Important for movement based on acquired skills

Question 58

What are the 3 characteristics of the Cerebellum?

Answer 58

• Set of nuclei that are important for monitoring ongoing movement
• Modulates activity in cortical motor regions –> lots of communication with SMA
• Works via inhibition

Question 59

Subcortical neurons project to the motor neurons in the spinal cord via the…

Answer 59

extrapyramidal system

(Also communicate with cortical areas via the thalamus

Question 60

Which cortical region will show activation if you are planning a movement based on an external cue?

Answer 60

Premotor cortex

Question 61

Which subcortical region is involved in initiating a movement?

Answer 61

Basal Ganglia

Question 62

What are the steps to get from sensor to effector?

Answer 62

sensor –> sensory input –> integration (CNS) –> motor output (PNS) –> effector

Question 63

What are examples of dependencies between sensorimotor systems?

Answer 63

• Playing an instrument

- Learning through self-produced action

Question 64

Creating music is a…

Answer 64

sensori-motor process

Question 65

Why is creating music a complex form of skilled serial action?

Answer 65

Each action results in a sound. Each sound influences a subsequent action.

Question 66

What is the auditory-motor interface?

Answer 66

It is the mapping between auditory and motor representations.

(Posterior auditory regions at parieto-temporal boundary.)

Question 67

What is the relation between auditory feedback and performance evidence for?

Answer 67

Strong coupling between hearing music and performing music

Question 68

What are the 3 auditory feedback paradigms?

Answer 68

• Delayed auditory feedback
• Feedback content
• No feedback

Question 69

What are auditory feedback paradigms?

Answer 69

Behavioral decrements follow alteration of sensori-motor coupling

Question 70

Musical training has effects on…

Answer 70

the structure and function of the auditory and motor systems

Question 71

What are the neural effects of professional musicians?

Answer 71

Listening to a piece of music activates auditory AND motor regions

(instrument specific)
(Activation of the action listening network occurs - frontal-parietal motor related regions)

Question 72

Playing a piece of music without auditory feedback activates…

Answer 72

auditory regions

Question 73

Do our brains treat information learned through our own actions differently than information learned through observation of another person’s actions?

Answer 73

Yes. The type of input we get shapes the connections and neural activity in our brains.

(James and Swain - learned novel verbs either actively or passively,