Week 9: Spinal Reflexes

Question 1

What are UMNs in the brain needed for?

Answer 1

• initiation
• integration
• co-ordination

Question 2

What are LMNs in the spinal cord needed for?

Answer 2

• simple reflexes

- pattern generation

Question 3

What are the 3 types of spinal reflexes?

Answer 3

1. Myotatic stretch reflex
   - agonist response
   - antagonist response
   - load response
2. Inverse myotatic reflex
3. Crossed extensor/flexor withdrawal reflex

Question 4

What is a reflex?

Answer 4

a fast, predictable automatic response to a change in the environment or a stimulus

Question 5

What are the 5 functional components of a reflex arc?

Answer 5

1. Sensory receptor –> fires action potential upon stimulus
2. Sensory afferent neuron: carries action potential to spinal cord
3. Integration centre: relay sensory –> motor
4. Motor neuron
5. Effector organ

Question 6

What are the two different types of reflexes?

Answer 6

Reflexes can be:

1. Monosynaptic: 1 synapse, rapid
2. Polysynaptic: 2 or more synapses, slower but more complex, involves interneurons

Question 7

The myotatic stretch reflex occurs in response to what?

Answer 7

muscle contraction in response to stretching (change in length) within the muscle

Question 8

Which receptors are involved in the myotatic stretch reflex?

Answer 8

Muscle spindle - these detect change in length

Question 9

What are the functions of the myotatic stretch reflex?

Answer 9

• antigravity
• posture (helps us remain upright)
• movement

Question 10

Explain the 6 sequence of events in the agonist response of the myotatic stretch reflex using the example of the patellar tap reflex?

Answer 10

1. Tap quadriceps tendon & stretch quadriceps muscle
2. Activation of the muscle spindle & increased firing of 1a afferent
3. Afferent terminals synapse directly with LMNs in ventral horn of SC and excite the alpha motor neuron
4. Increased alpha motor neuron efferent axon activity
5. Contraction of the agonist homonymous quadricep muscle
6. Extension of lower leg

Question 11

What do muscle spindles do in the myotatic stretch reflex?

Answer 11

detect a change in stretch and send afferent fibres to the spinal cord

Question 12

What are the afferent fibres from muscle spindles in the myotatic stretch reflex called?

Answer 12

1a afferents

Question 13

Is the myotatic stretch reflex monosynaptic or polysynaptic?

Answer 13

monosynaptic as it only requires two neurones

Question 14

Does the myotatic reflex occur ipsilaterally or contralaterally?

Answer 14

ipsilaterally - i.e tap on left leg causes extension of left leg

Question 15

What is the antagonist response of the myotatic stretch reflex?

Answer 15

reciprocal inhibition of antagonist muscle groups during the myotatic reflex

Question 16

What does reciprocal inhibition mean?

Answer 16

reciprocal inhibition means the antagonist muscle does the opposite - in the patellar tendon reflex, the quadricep contracts so the hamstring muscle will relax/be inhibited

Question 17

Explain the antagonist response in the patellar tendon reflex (the myotatic stretch reflex)

Answer 17

1. Tapping the patellar tendon activates the 1a afferent
2. Leads to direct excitation of motor neurons innervating agonist (extensor) muscle groups
3. Indirect inhibition via the 1a inhibitory interneuron of motor neurons innervating antagonist (flexor) muscle groups
4. we activate the inhibitory interneuron so we have decreased firing on the antagonist/flexor muscle
5. hamstrings flex

Question 18

Is the antagonist response of the myotatic stretch reflex direct or indirect?

Answer 18

indirect (polysynaptic) as it involves three neurons

Question 19

Explain the myotatic stretch reflex when you add a load e.g to arm muscle groups

Answer 19

Addition of a load leads to:

1. Muscle spindles detect change in length and send the 1a afferents to connect with the LMNs in the ventral horn. These LMNs increase firing to contract the bicep muscle
2. Decreased firing in LMNs to triceps to allow it to relax

Question 20

Is there excitation or inhibition of:

1. The agonist/flexor
2. The antagonist/extensor

Answer 20

1. There is direct excitation of agonist/flexor muscle groups
2. There is indirect inhibition via the 1a inhibitor interneuron of antagonist/extensor muscle

Question 21

When is the inverse myotatic (golgi tendon) stretch reflex activated?

Answer 21

In response to muscle contraction to avoid tendon damage

controls the TENSION of an active muscle

Question 22

Which receptor is used in the inverse myotatic stretch reflex?

Answer 22

golgi tendon organ

Question 23

What are the function of the inverse myotatic/golgi tendon stretch reflex?

Answer 23

• tension feedback
• overload protection
• kicks in when tension in muscle is too high and it needs to relax to prevent destruction of fibres
• is exact opposite to myotatic reflex

Question 24

Explain the inverse myotatic (golgi tendon) reflex

Answer 24

1. Increased tension is sensed by golgi tendon and excites 1b afferents
2. This leads to indirect inhibition via inhibitory interneurones of motor neurones innervating the homonymous muscle causing relaxation
3. Simultaneously, there is indirect excitation of motor neurones innervating antagonist muscle groups causing contraction

So there is indirect inhibition to the agonist muscle and indirect excitation of the antagonist muscle

Question 25

What does homonymous mean?

Answer 25

same muscle that was stretched

Question 26

What is the crossed extensor/flexor withdrawal reflex

Answer 26

• noxious (harmful/unpleasant) cutaneous stimulation causes flexion withdrawal from the offending stimulus
• simultaneous extension of contralateral limb (crossed extensor) may occur for weight bearing

Question 27

What are the functions of the crossed extensor/flexor withdrawal reflex?

Answer 27

• damage limitation of avoidance

- maintained balance on limb withdrawal

Question 28

Explain the sequence of events on activation of the cutaneous nociceptor?

Answer 28

1. Increased activity in A-delta & C afferents
2. Polysynaptic activation of ipsilateral flexors
3. Polysynaptic inhibition of ipsilateral extensors
4. Polysynaptic inhibition of contralateral flexors
5. Polysynaptic excitation of contralateral extensors

This enables automatic maintenance of balance during the reflex

Question 29

Explain what happens when you step on glass

Answer 29

• If you step on glass, you need to remove your leg from the painful stimulus
• Pain receptors initiate firing. These give rise to different afferent fibres called alpha delta or C afferents
• Interneurons activate ipsilateral flexors so we can withdraw from stimulus
• Another interneuron will cross the midline of the SC and communicate with the other side
• This activates quadriceps (extensors) and inhibits hamstring (flexor)
• So we decrease the activity of the contralateral hamstring

Question 30

Which sensory afferents are involved in:

1. Myotatic (stretch) reflex
2. Inverse myotatic
3. Flexor withdrawel

Answer 30

1. 1a afferents
2. 1b afferents
3. A-delta, C afferents

Question 31

What is the sensory stimulus for:

1. Myotatic (stretch) reflex
2. Inverse myotatic
3. Flexor withdrawel

Answer 31

1. Change in muscle length
2. Change in muscle tension
3. Painful or damaging stimuli

Question 32

Which receptors are involved in:

1. Myotatic (stretch) reflex
2. Inverse myotatic
3. Flexor withdrawel

Answer 32

1. Muscle spindles
2. Golgi tendons
3. Nocioceptors