Upper & Lower Motor Neurone Disorders Flashcards
What are the main roles of the brain and spinal cord?
Brain:
- initiation
- integration
- co-ordination
spinal cord:
- simple reflexes
- pattern generation
What are the 2 descending systems (upper motor neurones) and what feeds into them?
Motor cortex:
- planning, initiating and directing voluntary movements
- the basal ganglia feed into this - gating proper initiation of movement
brainstem centres:
- basic movements and postural control
- the cerebellum feeds into this - sensory motor coordination
What are the 3 different types of spinal reflexes?
- Myotatic stretch reflex
- inverse myotatic reflex
- crossed extensor / flexor withdrawal reflex
What is the definition of a reflex?
A fast, predictable automatic response to a change in the environment or a stimulus
What are the 5 functional components of the reflex arc?
- Sensory receptor
- sensory neurone (afferent)
- integration centre
- motor neurone
- effector organ (muscle or gland)
What are examples of sensory receptors?
What is their role in the reflex arc?
- Golgi tendon organ
- ruffini endings
- meisseners corpuscles
- muscle spindle
- free nerve endings
once activated (upon stimulus) they fire action potentials via a sensory afferent
What is the role of the sensory neurone in the reflex arc?
It carries the action potential to the spinal cord
it has cell bodies in the dorsal root ganglion and enters the spinal cord via the dorsal root / dorsal horn
What is the role of the integration centre in the reflex arc?
What are the different types of integration?
It relays sensory information into motor information
monosynaptic:
- sensory afferent neurone synapses directly with the motor neurone
- this allows for a rapid response
polysynaptic:
- 2 or more synapses
- complexity is added in the form of interneurones
- slower response, but more complex
What is the role of the interneurones?
They can be inhibitory or excitatory and will alter the activity of the lower motor neurone
What is the myotatic stretch reflex?
Which receptor is involved?
Muscle spindle detects stretching (change of length) within the muscle
this leads to contraction of the same muscle
What are the functions of the myotatic stretch reflex?
- Antigravity
- posture
- movement
antigravity - muscles maintain the upright posture of the body against the force exerted on them by gravity
What is the sequence of events involved in the agonist response in the patellar tap reflex?
- Tap quadriceps tendon and stretch of quadriceps muscle
- activation of the muscle spindle and increased firing of 1a afferent
- afferent terminals synapse directly with and excite the alpha motor neurone (monosynaptic reflex)
- increased alpha motor neurone efferent axon activity
- contraction of the agonist homonymous muscle (i.e. the muscle from which the afferent arose)
What happens to the antagonistic muscle in the myotatic stretch reflex?
Reciprocal inhibition of the antagonist muscle groups during the myotatic reflex
(antagonist muscle must do the opposite all the time)
there is indirect inhibition via the Ia inhibitory interneurone of motor neurones innervating the antagonist (flexor) muscle groups
What does tapping the patellar tendon and activating the Ia afferent lead to?
- Direct excitation of motor neurones innervating agonist (extensor) muscle groups
- Indirect inhibition (via interneurone) via the Ia inhibitory interneurone of motor neurones innervating antagonist (flexor) muscle groups
What happens in the myotatic stretch reflex when there is addition of a load?
(e.g. arm muscle groups)
- Stretch of the flexor biceps brachii and activation of the Ia afferent
- Direct excitation of agonist (flexor) muscle groups (biceps)
- Indirect inhibition via the Ia inhibitory interneurone of antagonist (extensor) muscle groups (triceps brachii)
What is the receptor in the inverse myotatic stretch reflex?
What is the role of this reflex?
Once a muscle has contracted, there is tension in the muscle
The Golgi tendon organ detects the tension and elicits a response
controlling the tension of an active muscle in response to muscle contraction to avoid tendon damage
What are the functions of the inverse myotatic (Golgi tendon) stretch reflex?
- Tension feedback
- overload protection
What are the 5 stages in the inverse myotatic reflex (Golgi tendon reflex)?
Increased muscle tension leads to:
- Golgi tendon organ excitation
- increased firing in Ib afferent
- Indirect inhibition via inhibitory interneurone (disynaptic link) of the a motor neurone
- decreased a motor neurone activity to the homonymous muscle
- relaxation / inhibition of the homonymous muscle
What happens in the inverse myotatic reflex (e.g. leg muscle groups) when there is increased muscle tension?
- Increased muscle tension activates the Golgi tendon organ and excites Ib afferents
- this leads to indirect inhibition via an inhibitory interneurone of motor neurones innervating the homonymous muscle and muscle relaxation
- simulatenously, there is indirect excitation of motor neurones innervating antagonist muscle groups
What is the crossed extensor / flexor withdrawal reflex?
Noxious (harmful / unpleasant) cutaneous stimulation causes flexion withdrawal from the offending stimulus
simultaneous extension of the contralateral limb (crossed extensor) may occur for weight bearing
What are the functions of the crossed extensor / flexor withdrawal reflex?
- Damage limitation of avoidance
- maintained balance on limb withdrawal
In general, what are the 2 actions which occur in the crossed extensor / flexor withdrawal reflex?
Inputs from nociceptor afferents lead to:
contralateral inhibition** of flexors and **excitation of extensors
ipsilateral excitation** of flexors and **inhibition of extensors
What are the sequence of events on activation of the cutaneous nociceptor in the lower limb withdrawal reflex?
- Increased activity in A-delta and C afferents
- polysynaptic activation of ipsilateral flexors
- polysynaptic inhibition of ipsilateral extensors
- polysynaptic inhibition of contralateral flexors
- polysynaptic excitation of contralateral extensors
this enables automatic maintenance of balance during the reflex
Complete the table
