Motor

Question 1

What is a myotome?

Answer 1

Muscle fibres innervated by a single spinal nerve

Question 2

What is the general function of the lateral corticospinal tract?

Answer 2

Motor supply to body

Speed, direction and agility of movements involved in rapid skilled fine movement

Question 3

What is the general function of the rubrospinal tract?

Answer 3

Control of flexor muscle tone

Question 4

What is the general function of the lateral vestibulospinal tract?

Answer 4

Control of extensor muscle tone

Question 5

What is the general function of the ventral corticospinal tract?

Answer 5

Motor supply to body

Question 6

How many spinal arteries are there?

Answer 6

2 posterior supply 1/3

1 anterior supply 2/3

Question 7

What can be causes of infarction of spinal arteries?

Answer 7

Embolus
Atheroma
AAA
Tumour 
Trauma

Question 8

What are alpha motor neurons?

Answer 8

Innervate extrafusal muscle fibres

Large myelinated axons

Question 9

What are gamma motor neurons?

Answer 9

Innervate intrafusal muscle fibres of the muscle spindle

Smaller diameter neurons

Question 10

Which corticospinal tract decussates at the medullary pyramids?

Answer 10

Lateral corticospinal tract

The ventral tract decussates at the level of the lower motor neuron synapse

Question 11

What does an upper motor neuron lesion cause?

Answer 11

Spastic paralysis
Hyper-reflexia
No muscle wasting or fasiculations
Extensor plantar response present

Question 12

What symptoms does a lower motor neuron lesion cause?

Answer 12

Flaccid paralysis
Hypo-reflexia
Muscle wasting (atrophy)
Fasciculations

Question 13

What is Babinski sign?

Answer 13

Normal adult response is digit plantarflexion - flexor plantar response
Extensor-plantar response occurs following upper motor neuron lesions
Great (big) toe extension & digit splaying
Present in newborn-2 years old and adults with UMN lesions

Question 14

Corticospinal (pyramidal) tract lesions are associated with what signs and symptoms?

Answer 14

Loss of fine-skilled voluntary movements
Absent superficial abdominal reflexes
Cremasteric reflex absent
Clonus (rhythmic involuntary oscillation of a joint)
Extensor plantar response (Babinski)

Question 15

Where can upper motor neuron symptoms occur?

Answer 15

Cortex 
Internal capsule 
Corona radiata 
Descending tracts 
Brainstem 
Spinal cord

Question 16

Where can lower motor neuron lesions occur?

Answer 16

Spinal cord (at level of LMN cell body)
Spinal nerve
Cauda equina
Peripheral nerve damage e.g. radial nerve

Question 17

What can cause motor neuron lesions?

Answer 17

Stroke 
Motor neuron disease
Multiple sclerosis 
CNS Tumour 
Meningeal tumour 
Spinal tumour 
Trauma 
Penetrating injury 
Fracture 
Dislocation 
Stenosis 
IV disc prolapse

Question 18

What symptoms will a spinal cord hemisection cause?

Answer 18

Upper and lower motor neuron signs in different parts of the body
LMN at level of injury, UMN below injury Ipsilateral
Brown-Sequard syndrome
Ipsilateral loss of fine touch and proprioception below
Contralateral loss of pain and temperature below

Question 19

Describe cortical connections to cranial nerve motor brainstem nuclei

Answer 19

Bilateral supply from cortex
Innervation comes from corticobulbar/corticonuclear neurons
Main UMN innervation comes from contralateral cortex
MAIN EXCEPTION = Unilateral supply to CN VII to the lower face

Question 20

What motor losses are associated with a brainstem lesion?

Answer 20

Ipsilateral face

Contralateral body

Question 21

Describe the rubrospinal tract

Answer 21

From red nucleus in midbrain, decussates here
Descends contralaterally
Mainly to proximal upper limb & trunk muscles
Excite flexor LMN, Inhibit extensor LMN

Question 22

Describe the vestibulospinal tract

Answer 22

Lateral vestibular nucleus in brainstem - pons/medulla border
Descends ipsilaterally
Antigravity (upright posture & balance)
Excites extensor LMN, Inhibits flexor LMN

Question 23

What do reticulospinal tract neurons do?

Answer 23

Modulate lower motor neuron activity, locomotion and posture
Inhibit or excite lower motor neurons (α and γ)
Modulate sympathetic activity
Mostly originate from brainstem nuclei mesh
Fibres mostly run ipsilaterally
Modulate muscle activity/tone – especially in antigravity muscles
Control emotional movement of muscles of facial expression

Question 24

Lesion to which tract results in spasticity seen in upper motor neuron lesions?

Answer 24

Reticulospinal tract, Net loss of lower motor neuron inhibition
Reticulospinal neurons excite inhibitory Renshaw cells to modulate muscle tone. Loss of the medullary reticular pathways in spinal cord injury contributes to spasticity and over-activity in α-motor neurons

Question 25

Why can cervical cord damage lead to Horners syndrome?

Answer 25

Ventrolateral medullary nucleus helps control the sympathetic system Neurons in tract innervate preganglionic sympathetic fibres in lateral grey horn

Question 26

What is Lou Gehrig’s disease?

Answer 26

Amyotrophic lateral sclerosis
Degeneration of corticospinal tracts 
Degeneration of ventral horn 
Descending autonomic fibres interrupted 
Start in lower limbs, progresses to trunk & upper limbs

Question 27

Describe the myotatic reflex

Answer 27

Passive muscle stretch sensed by muscle spindle
Reflex arc stimulates contraction of stretched muscle
Reflex arc inhibits antagonist muscle - reciprocal inhibition

Question 28

Describe the inverse myotatic reflex

Answer 28

Golgi tendon organ detect stretch in tendons, initiate a protective reflex
1b afferent neurons carry sensation from tendon organ
Reflex arc inhibits agonist muscle and stimulates contraction of antagonist muscle

Question 29

Describe the flexor withdrawal reflex

Answer 29

Withdrawal of a limb from a painful or noxious stimulus mediated by free nerve endings
Synaptic connections span several spinal cord levels
Stimulates ipsilateral flexors of limb
Inhibits ipsilateral extensors of limb

Question 30

Describe the crossed extensor reflex

Answer 30

Ipsilateral flexor withdrawal and contralateral extensor activation

Question 31

What are the supplementary and pre motor area for?

Answer 31

Motor pattern selection 
Generate intention to move 
Convert intention into movement 
Movement plan selection 
Area 4 words, Area 6 phrases/sentences

Question 32

To move in an accurate meaningful we way require…?

Answer 32

Somatosensory inputs 
Visual inputs 
Proprioceptive inputs 
In order to create a mental body image 
Integrated in posterior parietal cortex (area 5,7) which receive  extensive inputs from sensory cortex

Question 33

What can damage to SMA/PMA lead to?

Answer 33

Apraxia: inability to carry out complex movements

Question 34

Which area of the cortex will light up on fMRI when a motor movement is simply mentally rehearsed, no action?

Answer 34

PMA

Question 35

What re entrant loops are involved in motor control?

Answer 35

Both cerebellum and basal ganglia receive inputs from the cerebral cortex and project to motor areas of the cortex via the thalamus
also influence brain stem and spinal mechanisms

Question 36

What are the major cerebellar tracts?

Answer 36

Spinocerebellar (muscle spindle/ tendon organ) connecting the spinal cord and cerebellum (mossy fibres)
Vestibulospinal:semicircular canals and cerebellum, vestibular nuclei -spinal cord
Olivocerebellar tract: Inferior olivary nucleus (climbing fibres)
Cortex, spinal cord to olive - carry error signal

Question 37

What are the major output cells of the cerebellum?

Answer 37

Purkinje cells

GABAergic

Question 38

What is the Corticopontocerebellar tract?

Answer 38

Biggest tract in brain

Connects the cerebral cortex via the pons to the cerebellum

Question 39

What is the Dentatorubrothalamic tract?

Answer 39

Connects the dentate nucleus of cerebellum, the red nucleus and the thalamus outputs: via deep cerebellar nuclei

Question 40

What are unconscious motor functions?

Answer 40

Maintenance of balance
Muscle tone and posture
Muscle co-ordination trajectory, speed and force
Eye movements (Vestibular-ocular reflex)
Planning movements and evaluating sensory information
Learning of motor skills

Question 41

What is the function of the cerebellum?

Answer 41

Muscle co-ordination trajectory, speed and force
Evaluates disparities between intention and action by adjusting the operation of motor centres while a movement is in progress
Motor learning: Efficiency of movements enhanced, Learn through trial and error, Once learned, performed automatically

Question 42

What three parts of cerebellum anatomy underlie function?

Answer 42

Extensive inputs: Spinal cord proprioception/sensory feedback, Vestibular (semicircular canals), Superior Colliculi, Cerebral cortex (via Corticopontocerebellar pathway)
Outputs focus on premotor and motor systems
Synaptic transmission within circuit is plastic - long term depression

Question 43

What is cerebellar ataxia?

Answer 43

Symptoms - depend on area of lesion
Ataxia - uncoordinated voluntary movements
Intention tremor
Dysmetria - overshoot
Dysdiadochokineasia - inability to produce simple repetitive movement
Slurred speech
Nystagmus - involuntary movements of eyes

Question 44

What are the 4 subcortical nuclei that make up the basal ganglia?

Answer 44

Striatum (caudate nucleus, putamen, nucleus accumbens)
Globus pallidus (Gp)
Substantia nigra
Subthalamic nucleus

Question 45

Describe the basal ganglia feedback loop

Answer 45

Primary input: cerebral cortex
Output: brain stem and via the thalamus to prefrontal, premotor and motor cortices
No direct output to spinal cord

Question 46

What is the role of the basal ganglia?

Answer 46

Damage disrupts movements, cause deficits in cognition, perception
Facilitate movement and/or suppress movement
Act to reinforce a selected motor pattern and suppress potentially conflicting motor patterns
Balance between direct and in-direct pathways
Primarily function through disinhibition

Question 47

Describe the direct pathway of the basal ganglia

Answer 47

Cortex excites the striatum
Striatum inhibits Globus palidus interna which in turn disinhibits the thalamus
Thalamus is then able to excite the cortex and therefore facilitate movement
Meanwhile the striatum acts via the substantia nigra to activate D1 receptors in the striatum and in turn facilitate the pathway

Question 48

Describe the indirect pathway of the basal ganglia

Answer 48

Cortex excites striatum
Striatum inhibits Globus palidus externa which in turn disinhibits the Subthalamic nucleus which is then more able to excite the Globus palidus interna. This in turn inhibits the thalamus to reduce movements.
Meanwhile, the striatum acts via the substantia nigra to activate D2 receptors which act to inhibit the striatum and therefore reduce the indirect pathway

Question 49

What are types of hypokinesia?

Answer 49

Akinesia
Bradykinesia
Rigidity (Increased muscle tone) Cog-wheel rigidity
Tremor at rest

Question 50

Describe the effect of Parkinson’s disease on the direct and indirect pathways of the basal ganglia

Answer 50

Degradation of the substantia nigra disrupts balance between direct pathway excitation of cortex and indirect pathway inhibition of cortex.
Tipped in favor of the indirect pathway, with a subsequent pathological global inhibition of motor cortex areas

Question 51

Describe the nigrostriatal pathway

Answer 51

Direct pathway striatal neurons have D1 dopamine receptors, which depolarize the cell in response to dopamine
Indirect pathway striatal neurons have D2 dopamine receptors, which hyperpolarize the cell in response to dopamine
Dual effect of exciting the direct pathway and inhibiting the indirect pathway
Excitation of the nigrostriatal pathway has the net effect of exciting cortex by two routes, by exciting the direct pathway and inhibiting the indirect pathway (thereby disinhibiting the net inhibitory effect of the indirect pathway on cortex)

Question 52

What is hyperkinesia (Huntingtons chorea)?

Answer 52

Violent involuntary movement of limbs chorea (dance like movements)
An inherited autosomal dominant disorder associated with a trinucleotide expansion in the gene coding f or the protein Huntingtin on chromosome 4
Effects Cerebral cortex (particularly frontal lobes) and basal ganglia (particularly caudate nucleus)
Presents typically in midlife with a progressive dementia and abnormal movements
Tips balance towards direct pathway

Question 53

What are symptoms of Parkinson’s disease?

Answer 53

Bradykinesia
Resting tremor (pill rolling)
Rigidity
Festinating gait
Lack of facial expression
Micrographia 
No weakness
Normal reflexes

Question 54

What are symptoms of Huntingtons disease?

Answer 54

Choreiform 
Clumsy
Unsteady gait
Difficulty with speech and swallowing
Cognitive changes

Question 55

What are symptoms of hemiballismus?

Answer 55

Unilateral large flinging involuntary movements of proximal limbs
Caused by neurodegeneration of subthalamic nuclei
Treated as for Chorea
Intravenous diazepam and oral haloperidol

Question 56

What are dystonias?

Answer 56

Lasting, twisting muscle spasms or altered posture
Often focal eg writers cramp
Primary (genetic) and secondary (acquired)

Question 57

What is athetosis?

Answer 57

Snake like writhing movements

Question 58

What are symptoms of Wilson’s disease?

Answer 58

Choreoathetotic - involuntary movements in a combination of chorea (irregular migrating contractions) and athetosis (twisting and writhing)
Dementia and liver cirrhosis

Question 59

Which subcortical nuclei is affected in Huntingtons? And which neurotransmitter?

Answer 59

Striatum

GABA

Question 60

Which subcortical nuclei is affected in Hemiballismus?

Answer 60

Subthalamic nuclei

Question 61

What is Parkinsonism?

Answer 61

Group of disorders exhibiting similar signs and symptoms
Divided into three main groups:
Pure Parkinsonism: Idiopathic – Parkinson’s disease, Iatrogenic - drug induced, Post-encephalitic
Parkinsonism plus: Multiple systems atrophy (3-types: A, -P, -C), Progressive supranuclear palsy
Pseudoparkinsonism: Wilson’s disease, Benign Essential Tremor, Trauma and vascular-related

Question 62

What are the 4 cardinal features of Parkinson’s?

Answer 62

TRAP
Tremor 
Rigidity
Akinesia/Bradykinesia 
Postural instability

Question 63

What are additional features of Parkinson’s?

Answer 63

Micrographia - small writing
Mask-like face
Sleep disturbances
Aprosodia - monotonous voice

Question 64

What causes Parkinson’s disease?

Answer 64

Loss of ~80-90% of dopamine neurons in the substantia nigra

Lewy body formation and presence of abnormal levels of parkin and synuclein proteins

Question 65

What are the 4 dopamine pathways?

Answer 65

Nigrostriatal
Mesolimbic - changes in memory, mood and emotion
Mesocortical - higher functions
Tubero-hypophyseal - between pituitary and hypothalamus, prolactin involvement

Question 66

Describe the use of dopamine agonists and name 3 examples

Answer 66

Synthetic agonists replace dopamine loss acting on dopamine receptors (primarily D2)
Useful in younger patients and initial treatment of PD
Fewer motor complications long-term, but less improvement overall More psychiatric side-effects
May be combined with Levodopa at later stages
Includes: Pramipexole Ropinirole Rotigotine

Question 67

Why must Levodopa be used in conjunction with other drugs?

Answer 67

Metabolised quickly to dopamine. Use metabolism inhibitors to prevent breakdown until in the brain

Question 68

Which drugs are used in combination therapy with Levodopa?

Answer 68

Dopa-decarboxylase inhibitors: Benserazide, Carbidopa
Often combined with Levodopa: Co-beneldopa, Co-careldopa
Catechol-O-methyltransferase (COMT) Inhibitors: entacapone, Tolcapone
Monoamine oxidase inhibitors (MAOI-B):Selegiline, Rasagiline

Question 69

What are side effects associated with dopamine based treatments?

Answer 69

Peripheral effects commonly cause nausea and vomiting 
Anorexia 
Drowsiness 
Hypomania 
Psychosis 
Sudden onset sleep 
Hypotension 
Tachycardia 
Arrythmias 
Later stages ‘on-off’ effects likely (>2 years treatment, 50-90% cases)

Question 70

What drugs can be used to fill in gaps when on off effects occur in Parkinson’s disease?

Answer 70

Apomorphine
Domperidone: always administered prophylactically before apomorphine use
Combination therapies and use of controlled release drugs may reduce onset of on-off effects (both co-beneldopa and co-careldopa available)

Question 71

Describe anticholinergic use in Parkinson’s disease therapy and name 3 drugs

Answer 71

Decrease in dopamine leads to an increase in acetylcholine concentration
Anticholinergics (antimuscarinics) to redress the balance
Only have mild anti-Parkinsonism effects (tremor) and may reduce absorption of Levodopa
Useful for iatrogenic (drug-induced) Parkinsonism
Includes: Orphenadrine, Procyclidine, Trihexphenidyl

Question 72

What is the link between caffeine and basal ganglia disorders?

Answer 72

Adenosine Antagonists may interact with glutamatergic transmission
Adenosine2A antagonists decrease receptor sensitivity
Possible neuro-protectant role
Currently licences in Japan
Includes: Caffeine (A1/A2 antagonist)

Question 73

What is essential tremor?

Answer 73

A familial progressive disorder characterised by intention tremor, not present at rest
Rhythmic tremor 4-12Hz frequency
Essential tremor generally first appears in the arms, spreading to other regions of the body, particularly the head, neck, jaw and voice
Head tremor (titubation) is more common in women
Treatment: β-Blocker – Propanolol, AED – Primidone, Botox – head and voice, 1-2 units of alcohol

Question 74

What is Huntingtons disease?

Answer 74

Inherited neurodegenerative disorder – autosomal dominant

Degeneration of cholinergic cells in the striatum, particularly the caudate nucleus

Question 75

What are treatment options for Huntingtons?

Answer 75

Dopamine depleting drugs: Tetrabenazine - prevents monoamine transport to vesicles (VMAT-2), reduces the amount released at the
terminal, reducing involuntary movement
Antipsychotics: risperidone, quetiapine and haloperidol, reduce chorea and tics; help control delusions, hallucinations and violent outbursts
Benzodiazepines: clonazepam and diazepam, general relaxants
Depression and Mood disorders associated with HD are treated with SSRIs/TCAs

Question 76

What is Wilson’s disease?

Answer 76

Hepatolenticular Degeneration caused by copper accumulation

Three forms: Dystonic, Pseudoparkinsonism, Cerebellar (pseudosclerotic)

Question 77

What are treatments for Wilson’s disease?

Answer 77

Copper chelators: Penicillamine or Trientine, cause excess copper
to be excreted. Administered at maintenance doses following
clearance of initial build-up of copper
Zinc: blocks copper absorbtion in the gut, preventing further build-up. Has fewer side effects that alternative therapeutics

Question 78

What are tics?

Answer 78

Small involuntary movement
Most commonly associated with Tourettes, which presents with a combination of vocal and motor tics
Tics are also seen in Wilson’s disease and Huntington’s disease

Question 79

What are treatments for tics?

Answer 79

Patient education and CBT
Atypical antipsychotics
Typical antipsychotics

Question 80

What are treatments for dystonias?

Answer 80

Botulinum toxin injections (botox) is used to relax excessive muscle contraction, with injections given every three months
Trihexyphenidyl and procyclidine - Anticholinergics
Baclofen, GABA agonist, is an anti-spasm medication
Diazepam, BDZ GABA co-agonist, a good muscle relaxant
Physiotherapy
Deep brain stimulation
Denervation

Question 81

What is chorea?

Answer 81

Chorea describes involuntary, irregular, random and dance-like, flowing movements which flit from one part of the body to another
Primary - inherited, e.g. Huntington’s, benign hereditary chorea Secondary - acquired, e.g. Many drugs and toxins, including antipsychotics, AEDs, CO, cyanide

Question 82

What are treatments of chorea?

Answer 82

Dopaminergic antagonists – antipsychotics
Use is limited by side-effects, e.g. tardive dyskinesia and Parkinsonism
Dopamine-depleting drugs
GABAergic drugs, e.g. anti-epileptics, gabapentin and benzodiazepines
Post-surgical Chorea may to respond to steroids

Question 83

What is a motor unit?

Answer 83

A motor neuron and the extrafusal muscle fibres it innervates