Reflexes & Gait

Question 1

What are the 2 main sensors involved in muscle sensation?

Answer 1

Muscle spindle (senses length), which will activate the alpha motor neuron; Golgi tendon organ (senses force or contraction), which inhibits the alpha motor neuron

Question 2

What are the components of the reflex circuit?

Answer 2

1. Receptor
2. Afferent (sensory) nerve fiber
3. Interneuron
4. Efferent (motor) nerve fiber
5. Effector organ

Question 3

What are the components of the myotatic reflex?

Answer 3

Primary sensory endings Ia afferent fibers innervate the sensors called muscle spindles and detect rate + amount of stretch; secondary sensory endings type II fiber detects the amount of stretch

Question 4

What is the function of the myotatic reflex?

Answer 4

To correct for unexpected loads

Question 5

What is the effect of the myotatic reflex on homonymous muscles?

Answer 5

Muscle contraction that opposes the original stretch

Question 6

What is the effect of the myotatic reflex on synergistic muscles

Answer 6

Activation of synergistic muscle to aid in the muscle contraction that opposes stretch

Question 7

What is the effect of the myotatic reflex on antagonist muscles

Answer 7

Inhibition of antagonist muscles via glycinergic interneuron Ia ii inhibition of alpha motor neuron that goes to the antagonist muscle

Question 8

Define reciprocal inhibition

Answer 8

Type 1a fiber activation of an alpha-MN resulting in the contraction of homonymous and synergistic muscles + inhibition of antagonistic muscle via interneurons (1a inhibitory neurons OR Ia ii)

Question 9

Define recurrent inhibition

Answer 9

RC inhibition returns to the motor neuron that opposes the action of the muscle that resulted in the excitation of the RC;

Question 10

What is the function of Renshaw cells (RC)

Answer 10

Renshaw cells are small MNs in the ventral horn that are excited by ACh release by axon collaterals of alpha-MNs; upon activation, RC axons release inhibitory glycine

Question 11

How do gamma-MNs function

Answer 11

Will slack when alpha-MNs are activated, making it so that no further signaling can occur; normal movement requires the co-activation of both alpha and gamma -MNs

Question 12

What is the gamma loop

Answer 12

1. Gamma-MN activation conrtacts the polar region of intrafusal muscle
2. Contraction stretches equatorial region by pulling ends
3. Stretch of intrafusal fiber activates 1a afferents, exciting alpha-MNs innervating homonymous muscle

Question 13

Give examples of multisegmental reflexes

Answer 13

Moro reflex, which is stimulated by sudden movement of the head backwards and results in a reflexive wide abduction of the arms and rapid breath intake + flexion of the legs (normal in infants <6 months of age)

Question 14

What elicits the M wave on an EMG recording

Answer 14

High stimulation intensity and moderate stimulation intensity; does not occur under low stimulation intensity

Question 15

What elicits the H reflex on an EMG recording?

Answer 15

Results from low stimulus intensity as well as moderate stimulus intensity; does not occur when there is high stimulation intensity

Question 16

What do central pattern generators do?

Answer 16

Produces semi-automatic movements like walking, running, chewing

Question 17

Where does central pattern generation occur

Answer 17

Spinal cord and brain stem

Question 18

How is central pattern generation initiated (from which region)?

Answer 18

External trigger initiates it to arise from the mesencephalic locomotor region; increase output to increase speed of a slow walk to a sprint

Question 19

What part of the muscle sensor system do gamma motor neurons modulate?

Answer 19

Muscle spindle

Question 20

Where are muscle sensors located?

Answer 20

Between the ligament/tendon and the muscle

Question 21

Why do spindles sense stretch?

Answer 21

They’re trapped in parallel

Question 22

What is the simplest reflex?

Answer 22

Myotatic reflex

Question 23

What is the only monosynaptic reflex in humans?

Answer 23

Myotatic reflex

Question 24

What does the myotatic reflex look like on a physical exam?

Answer 24

Knee-jerk/patellar reflex

Question 25

What are the steps of the myotatic reflex, starting with stimulation of the patellar tendon and ending with the leg kick (8 steps)

Answer 25

1. Stimulate patellar tendon
2. Quadriceps muscle stretches
3. 1a & II afferent fibers of femoral nerve activated via muscle spindle
4. Signal travels to spinal cord (L4)
5. Cross the mono-synapse
6. Stimulate the alpha motor neuron to the quadriceps muscle
7. Contraction of the quadriceps (simultaneous inhibition of the flexor muscle)
8. Leg kick

Question 26

How fast is the myotatic reflex?

Answer 26

50 ms

Question 27

Describe the central region of the intrafusal fibers

Answer 27

Lacks contractile proteins (doesn’t contract) and is innervated by the 1a fibers; type II fibers innervate the ends

Question 28

Where are the contractile proteins of the intrafusal fibers contained?

Answer 28

The ends, which are innervated by the gamma (efferent) fibers as well as the type II fibers

Question 29

What is the muscle spindle

Answer 29

A capsule containing intrafusal fibers

Question 30

When does the muscle spindle stretch passively?

Answer 30

When the whole muscle (extrafusal) is contracted

Question 31

Do intrafusal fibers contribute to the force of contraction?

Answer 31

NO

Question 32

How are muscle spindles oriented relative to the extrafusal fibers?

Answer 32

Parallel

Question 33

Are there more extrafusal fibers or more muscle spindles?

Answer 33

More muscle spindles

Question 34

Which fibers detect stretch?

Answer 34

Ia sensory fibers

Question 35

Which part of the fiber do gamma motor neurons innervate

Answer 35

polar regions

Question 36

What is the function of gamma motor neurons

Answer 36

To contract the fiber (stretching it as a result)

Question 37

Normal function of a muscle needs coactivation of which motor neurons?

Answer 37

Alpha and gamma

Question 38

What does Golgi tendon organ activation do?

Answer 38

Inhibit contraction

Question 39

How many synapses does the GTO reflex have?

Answer 39

2 (disynaptic)

Question 40

How is the GTO activated?

Answer 40

Via muscle contraction or tension (force), located in a capsule by the tendon

Question 41

Which fibers are involved with the GTO reflex?

Answer 41

It depends on Ib afferent fibers that activate an inhibitory (glycinergic) interneuron, which will inhibit homonymous and synergistic muscles via their alpha-MNs

Question 42

What is the inverse of the myotatic reflex?

Answer 42

The GTO reflex opposes and terminates the myotatic reflex’s function

Question 43

What is the impact of RC inhibition of Ia ii inhibitory interneurons?

Answer 43

disinhibition of MNs to the antagonistic muscles (rapidly inhibits contraction, terminates alpha-MNs, and produces a brief contraction)

Question 44

What condition may result from recurrent inhibition?

Answer 44

Tetanus

Question 45

What is the effect of forebrain damage on gamma-MNs?

Answer 45

Brainsteam gamma-MNs postural activation of extensor muscles takes over, producing spasticity

Question 46

How does activation of gamma-MNs alone cause muscle contraction?

Answer 46

Via indirect excitation of alpha-MNs

Question 47

Define multi-segmental reflexes

Answer 47

Reflexes that involve more than one segment of the spinal cord, coordinates muscles at different spinal cord levels; postural

Question 48

What coordinates the Moro reflex?

Answer 48

Fasciculus proprius

Question 49

Bilateral Moro dysfunction is indicative of what?

Answer 49

brain damage, spinal cord damage

Question 50

unilateral Moro reflex dysfunction is indicative of what?

Answer 50

Clavicle damage, birth trauma (brachial plexus damage AKA Erb Duchenne Palsy, hemiplegia)

Question 51

Describe the tonic neck reflex

Answer 51

Rotation of the head to one side elicits extension of the ipsilateral arm and flexion of the contralateral arm

Question 52

persistence of the tonic neck reflex (TNR) past 4 months is predictive of what?

Answer 52

Poor motor development

Question 53

What is the effect of a lower motor neuron injury on a reflex?

Answer 53

Decreases its strength

Question 54

What is the effect of an upper motor neuron injury on a reflex?

Answer 54

Increases its strength

Question 55

What do the following grades in describing reflexes mean?
0
1+
2+
3+
4+

Answer 55

0 - absent
1+ - hypoactive
2+ - normal
3+ - hyperactive without clonus 
4+ - hyperactive with clonus

Question 56

What is the oscillatory motor response to muscle stretch in Hz?

Answer 56

3-7 Hz

Question 57

What causes clonus?

Answer 57

A lack of normal cortical inhibition of a deep tendon reflex, resulting in rapid, strong, oscillating muscular contractions

Question 58

When does clonus occur?

Answer 58

Whern there is sustained tension placed on one of the muscles controlling a joint, like the wrist or ankle

Question 59

What is the normal Babinski reflex?

Answer 59

Toe flexion

Question 60

What is a positive Babinski’s sign?

Answer 60

Toes extend and separate, this is abnormal and indicates an upper motor neuron lesion affecting the lower extremity in question

Question 61

What often accompanies a positive babinski’s sign

Answer 61

Spastic hypertonia

Question 62

The clasp-knife reflex is an example of _____________

Answer 62

interneuron release of spasticity

Question 63

What is the clasp-knife reflex?

Answer 63

Gradual muscle stretch leads to reflex resistance, followed by muscle extension at a critical length. There is brief excitation followed by a powerful, long-lasting inhibition of homonymous and synergistic muscles

Question 64

Which mechanoreceptors are overactive in the clasp-knife reflex

Answer 64

group II and group IV mechanoreceptors; central effects pronounced because of reduced descending inhibition of segmental interneurons

Question 65

How is hyporeflexia related to the myotatic reflex?

Answer 65

Hyporeflexia is an abnormal decrease in myotatic reflex

Question 66

What may be the cause of hyporeflexia?

Answer 66

Lesion of sensory input from muscle spindles; a motoneuron lesion to the anterior horn of the spinal cord

Question 67

What are the clinical outcomes of hyporeflexia

Answer 67

Peripheral neuropathy, Guillain-Barre, muscular dystrophy, myasthenia gravis

Question 68

What happens in an EMG recording when there is low stimulus intensity?

Answer 68

AP travels orthodromically, excites an alpha-MN, which travels to the muscle, causing contraction resulting in the H reflex

Question 69

What happens in an EMG recording when there is high stimulation intensity?

Answer 69

All fibers are activated, all antidromic signals collide with orthodromic signals and cancel out; only the M response will be observed

Question 70

Do central pattern generators depend on sensory feedback from the periphery?

Answer 70

NO

Question 71

What is the crossed extensor reflex/nociceptive withdrawal

Answer 71

A polysynaptic reflex that involves contralateral activation/inhibition of muscle groups opposite to those innervated on the ipsilateral side of the spinal cord: muscle groups excited on one side are inhibited on the opposite side

Question 72

What is the function of the crossed extensor reflex/nociceptive withdrawal

Answer 72

Allow for body weight support on the opposite leg of a withdrawal reflex; supports alternating leg muscle activation on the opposite side of the body during walkng/running

Question 73

Do central pattern generators require supraspinal input or peripheral feedback?

Answer 73

NO, neither are required

Question 74

Gait arises from ___________

Answer 74

spinal circuits

Question 75

Central pattern generator of the spinal cord generates _____________

Answer 75

rudimentary pattern = fundamental leg stride pattern