Motor units, muscle spindles, golgi tendon organs and joint receptors

Question 1

What does the somatic motor system consist of?

Answer 1

• Skeletal muscles + elements of the nervous system controlling them.

Question 2

What is the neural element of the motor system comprised of?

Answer 2

• Upper motor neurones within the brain.

- Lower motor neurones with soma within the brain stem and ventral horn of the spinal cord.

Question 3

UMNs supply input to LMNs to modulate what?

Answer 3

LMN activity.

Question 4

LMNs receive input from UMNs and what else?

Answer 4

• Proprioceptors.

- Interneurons.

Question 5

LMNs command what?

Answer 5

Muscle contraction.

Question 6

LMNs form what pathway?

Answer 6

The “final common pathway”.

Question 7

LMNs comprise what?

Answer 7

• Alpha motor neurones.

- Gamma motor neurones.

Question 8

What is the function of alpha motor neurones of LMNs?

Answer 8

Innervate most fibres that generate force within a muscle.

Question 9

What is the function of gamma motor neurones of LMNs?

Answer 9

Innervate the muscle spindle - a sensory organ within the muscle.

Question 10

Biceps brachii and brachialis may be described as?

Answer 10

Synergists.

Question 11

Triceps brachii and anconeous may be described as?

Answer 11

Synergistic muscles.

Question 12

Biceps brachii and brachialis work as what?

Answer 12

Flexors of the elbow.

Question 13

Triceps brachii and anconeus work as what?

Answer 13

Extensors of the elbow.

Question 14

Axial muscles control movement of the what?

Answer 14

Trunk.

Question 15

What is the function of axial muscles?

Answer 15

To maintain posture.

Question 16

Where are proximal muscles found?

Answer 16

• Shoulder.
• Elbow.
• Pelvis.
• knee.

Question 17

What is the function of proximal muscles?

Answer 17

To mediate locomotion.

Question 18

Distal muscles move what?

Answer 18

• Hands.
• Feet.
• Digits (allow fine manipulation of objects).

Question 19

Axons of LMNs exit the spinal cord via?

Answer 19

Ventral roots or cranial nerves.

Question 20

Each ventral root joins with a dorsal root to form what?

Answer 20

A mixed spinal nerve.

Question 21

A mixed spinal nerve composed of both a dorsal and ventral root contains what fibres?

Answer 21

• Sensory fibres.

- Motor fibres.

Question 22

Motor neurones/motoneurones belong to a what?

Answer 22

A spinal segment.

Question 23

How are motor neurones distributed in the spinal cord?

Answer 23

Unequally.

Question 24

Where are the greatest numbers of motor neurones found in the spinal cord?

Answer 24

• Cervical enlargement (C3-T1).

- Lumbar enlargement (L1-S3).

Question 25

At what spinal levels is the cervical enlargement found?

Answer 25

C3-T1.

Question 26

At what spinal levels is the lumbar enlargement found?

Answer 26

L1-S3.

Question 27

The cervical enlargement mostly supplies what?

Answer 27

The arm.

Question 28

The lumbar enlargement mostly supplies what?

Answer 28

The leg.

Question 29

Motor neurones innervating distal and proximal musculature are mainly found in which segments of the spinal cord?

Answer 29

• Cervical.

- Lumbar-sacral.

Question 30

Motor neurones innervating the axial musculature mainly occur at which segments of the spinal cord?

Answer 30

All levels.

Question 31

What is a motor unit?

Answer 31

An alpha-motor neuron and all the skeletal muscle fibres it innervated.

Question 32

What is the smallest functional component of the motor system?

Answer 32

Motor unit.

Question 33

Collection of alpha-motor neurones innervating a single muscle is termed what?

Answer 33

A motor neurone pool.

Question 34

Force of muscle contraction is graded by alpha-motor neurones by what two principle mechanisms?

Answer 34

• Frequency of AP discharge of a-motor neurone.

- Recruitment of additional, synergistic motor units.

Question 35

Describe the “twitch” caused by AP discharge of an alpha-motor neuron.

Answer 35

A rapid sequence of contraction follow by relaxation.

Question 36

Cell bodies of LMNs show a distinct somatotropic distribution where?

Answer 36

In the ventral horn.

Question 37

Where are LMNs innervating axial muscles found in relation to those innervating distal muscles?

Answer 37

Medially.

Question 38

Where are LMNs innervating flexors found in relation to those supplying extensors?

Answer 38

Dorsally.

Question 39

What three sources of input to an alpha-motor neuron regulate its activity?

Answer 39

• Central terminal of dorsal root ganglion cells whose axons innervate muscle spindles.
• UMNs in the motor cortex and brain stem.
• Spinal interneurones.

Question 40

Muscle strength is dependent on what?

Answer 40

Neuromuscular activation.

Question 41

What features of neuromuscular activation impact muscle strength?

Answer 41

• (involved) LMN firing rate.
• Number of LMNs (motor units) innervating a muscle.
• Co-ordinated movement i.e. agonist vs antagonist, integration/control of reflex responses.

Question 42

Force production by innervated muscle fibres is dependent on what?

Answer 42

• Fibre size (hypertrophy).

- Fibre phenotype (“fast” or “slow” contracting muscle).

Question 43

A single AP in an alpha-motor neuron causes what?

Answer 43

A muscle fibre to twitch.

Question 44

Summation of muscle fibre twitches causes what?

Answer 44

• Sustained contraction.

Question 45

Why does summation of muscle fibre twitches cause sustained contraction?

Answer 45

Increasing number of incoming action potentials.

Question 46

What is the function of small motor units?

Answer 46

Fine movements e.g. extra-ocular eye muscles.

Question 47

Give a function of large motor units.

Answer 47

E.g. large postural (antigravity) muscles - leg muscles.

Question 48

Small motor units are innervated by what size of alpha-motor neurones?

Answer 48

Small alpha-motor neurons.

Question 49

Large motor units are innervated by what size of alpha-motor neurones?

Answer 49

Large alpha-motor neurons.

Question 50

Force of contraction that each motor unit produces is dependent on what?

Answer 50

Its size.

Question 51

Alpha-motor neurons innervating fast-type muscle fibres tend to be what and have what?

Answer 51

• Larger.
• Faster conducting units.
  (Than those of slow units).

Question 52

Each muscle fibre innervation occurs via what?

Answer 52

A single motor axon at endplate (NMJ), usually at the centre of the fibre.

Question 53

How do fast and slow muscle fibres differ (generally)?

Answer 53

In the speed of myosin ATPase splitting ATP to provide energy for cross bridge cycling.

Question 54

In slow-oxidative Type I muscle fibres, ATP is derived from what?

Answer 54

Oxidative phosphorylation.

Question 55

Describe the action of slow-oxidative (type-I) muscle fibres.

Answer 55

Fatigue resistant fibres performing slow contraction and relaxation.

Question 56

Why are slow-oxidative fibres red?

Answer 56

High myoglobin content.

Question 57

In fast type-IIa muscle fibres, ATP is derived from what?

Answer 57

Oxidative phosphorylation.

Question 58

Describe the action of fast type-IIa fibres.

Answer 58

Fatigue resistant fibres performing fast contraction and relaxation.

Question 59

How does vascularisation differ between fast type-IIa and IIb/x muscle fibres?

Answer 59

Type-IIa: (red) reasonably well vascularised.

Type-llb: (pale) poorly vascularised.

Question 60

Describe the action of fast type-IIb/x fibres.

Answer 60

Non-fatigue resistant muscle fibres performing fast contraction.

Question 61

In fast type-IIb/x muscle fibres, ATP is derived from what?

Answer 61

Glycolysis.

Question 62

What are the three types of motor unit?

Answer 62

• Fast fatiguing.
• Fatigue resistant.
• Slow.

Question 63

Describe fast fatiguing motor units.

Answer 63

• Very high tension.
• Fast fatiguing.
• Large alpha-motor neurons of high threshold.
• Type IIb/x fibres.

Question 64

Describe fatigue resistant motor units.

Answer 64

• High tension.
• Slow fatiguing.
• Intermediate alpha-motor neurons and threshold.
• Type IIa fibres.

Question 65

Describe slow motor units.

Answer 65

• Low tension.
• Fatigue resistant.
• Small alpha-motor neurons of low threshold.
• Type I fibres.

Question 66

Which motor units are more easily activated and “trained” by training that activates the muscle?

Answer 66

Slow motor units.

Question 67

Which motor units are associated with muscles of fine gradation of force?

Answer 67

Small motor units.

Question 68

Which motor units are associated with muscles of coarse gradation of force?

Answer 68

Large motor units.

Question 69

Recruitment of alpha-motor neurons by size allows for what?

Answer 69

Fine and graded development of muscle force.

Question 70

Which reflex is being described? When a skeletal muscle is pulled, it pulls back.

Answer 70

Myotatic reflex.

Question 71

What sensory organ registers change in length within a muscle?

Answer 71

Muscle spindle.

Question 72

What does a muscle spindle consist of?

Answer 72

• Fibrous capsule.
• Intrafusal muscle fibres.
• Sensory afferents.
• Gamma-motor neuron efferents.

Question 73

What is the function of sensory afferents in a muscle spindle?

Answer 73

To innervate intrafusal muscle fibres.

Question 74

What is the function of gamma motor neurone efferents in a muscle spindle?

Answer 74

To innervate intrafusal fibres.

Question 75

Striking of the paterllar tendon with a tendon hammer elicits what?

Answer 75

A knee jerk reaction underpinned by the myotatic reflex.

Question 76

Describe the myotatic reflex (basic).

Answer 76

It is a monosynaptic reflex arc. Rapid and most prominent in extensor muscles.

Question 77

Describe the myotatic reflex in detail.

Answer 77

1. Muscle spindle is stretched.
2. Ia afferent activated.
3. Excitatory synaptic transmission in spinal cord (monosynaptic).
4. Alpha-motor neuron activated.
5. Contraction of homonymous muscle.

Question 78

The only monosynaptic reflex humans.

Answer 78

Myotatic reflex.

Question 79

Intrafusal fusal fibres consist of?

Answer 79

• Non-contractile equatorial region.

- Contractile polar ends.

Question 80

The non-contractile equatorial region of intrafusal fibres is innervated by?

Answer 80

• Ia sensory neurones.

Question 81

Contractile polar ends of intrafusal fibres receive efferent input from what?

Answer 81

• Gamma-motor neurons with cell bodies in the ventral horn of the spinal cord.

Question 82

Stimulation of what causes the spindle to contract?

Answer 82

• Gamma motor neurons.

Question 83

Why are alpha- and gamma-motor neurons normally co-activated during voluntary movement?

Answer 83

To allow parallel contraction of intrafusal and extrafusal fibres thus maintaining the sensitivity of the spindle.

Question 84

Intrafusal fibres can be divided broadly into which two categories?

Answer 84

• Nuclear bag fibres.

- Chain fibres.

Question 85

Name the 2 types of nuclear bag fibres (intrafusal fibre subtype).

Answer 85

• Bag 1/ dynamic.

- Bag 2/ static.

Question 86

Describe Nuclear bag fibres - Bag 1/ dynamic.

Answer 86

• Very sensitive to rate of change in muscle length.

- Innervated by dynamic, but not static Gamma-motor neurons.

Question 87

Describe Nuclear bag fibres- Bag 2/ static.

Answer 87

• More sensitive to the absolute length of the muscle.

- Innervated by static gamma-motor neurons.

Question 88

Describes chain fibres of intrafusal fibres.

Answer 88

Sensitive to the absolute length of the muscle and innervated by static gamma-MNs.

Question 89

What two types of afferent fibre innervate the intrafusal fibres?

Answer 89

• Ia afferents.

- II fibres.

Question 90

Ia afferents form a primary annulospiral nerve ending, winding around the centre of all what?

Answer 90

Intrafusal fibres.

Question 91

II fibres, form flowerspray endings on all intrafusal fibres except what?

Answer 91

Bag 1/ dynamic type.

Question 92

Ia sensory fibres respond to what?

Answer 92

• Rate of change of muscle length.

- Absolute length of muscle.

Question 93

Stimulation of static gamma fibres causes what?

Answer 93

• Steady state/static response to increase.

Question 94

Stimulation of dynamic gamma fibre enhances what?

Answer 94

Dynamic response to stretch.

Question 95

In activities in which muscle length changes slowly and predictably, what type of gamma-MNs are active?

Answer 95

Only static gamma-MNs.

Question 96

Which type of gamma-MNs are active during activities in which muscle length changes rapidly and unpredictably?

Answer 96

Dynamic gamma-MNs.

Question 97

Where are golgi tendon organs located?

Answer 97

At the junction of muscle and tendon.

Question 98

What is the function of golgi tendon organs?

Answer 98

Monitor changes in muscle tension to regulate it.

Question 99

Describe the anatomical relationship of golgi tendons and extrafusal fibres.

Answer 99

They exist in series, rather than parallel to each other.

Question 100

Golgi tendon organs are innervated by what?

Answer 100

Group Ib sensory afferents.

Question 101

Why do golgi tendon organs regulate muscle tension?

Answer 101

• To protect the muscle from overload in extreme circusmtances e.g. weight lifting.
• Generally to regulate muscle tension to an optimal range.

Question 102

Group Ib afferents enter spinal cord and synapse upon inhibitory interneurones, which then synapse onto what?

Answer 102

Alpha-motor neurons of the homonymous muscle.

Question 103

Group Ib afferents enter spinal cord and synapse upon inhibitory interneurones, which then synapse onto Alpha-motor neurons of the homonymous muscle to form what?

Answer 103

The basis of the reverse myotatic reflex.

Question 104

An inhibitory interneuron interposed between the Ib afferent and alpha-MN is an example of what kind of pathway?

Answer 104

Polysynaptic pathway.

Question 105

How do golgi tendon organs gauge the force generated by a muscle?

Answer 105

By measuring the tension in its tendon.

Question 106

Coding of force by the Golgi Tendon Organ and the Reverse Myotatic reflex supplies important proprioceptive feedback for what?

Answer 106

Proper execution of fine motor acts.

Question 107

Proprioceptive axons are present in connective tissue of joints and therefore respond to what?

Answer 107

Changes in joint:

• Angle.
• Direction and velocity of movement.

Question 108

The position of a joint is transmitted to what?

Answer 108

The CNS.

Question 109

Free nerve endings are found where within a joint?

Answer 109

• Capsule.

- Connective tissue.

Question 110

Free nerve endings within a joint have which function?

Answer 110

Nociceptive.

Question 111

Golgi-type endings are only found where within a joint?

Answer 111

Only in ligaments.

Question 112

Function of golgi-type endings in a joint?

Answer 112

Protective?

Question 113

Paciniform ending are found where within a joint?

Answer 113

• In periosteum near articular attachments.

- Fibrous part of joint capsule.

Question 114

Ruffini endings are found where within a joint?

Answer 114

Mainly in joint capsules.

Question 115

Function of Ruffini endings in joints?

Answer 115

Static position and speed of movements.

Question 116

Proprioceptive information arises from?

Answer 116

• Muscle spindles.
• Golgi tendon organs.
• Joint receptors.