case 7/ Parkinson's disease

Question 1

What constitutes the striatum?

Answer 1

putamen and caudate nucleus

Question 2

What constitutes the lentiform nucleus?

Answer 2

putamen and globus pallidus

Question 3

What are the different neurone in the striatum?

Answer 3

• medium spiny neurones: 96% striatal neurones, projects to other regions of the basal ganglia, are all GABAergic
• interneurones: GABAergic and cholinergic: modulate activity of there neurones

Question 4

What are the different pathways that input into the striatum?

Answer 4

-corticostriatal pathway:
glutamergic (excitatory)
input from cerebral cortex

-nigrostriatal pathway:
dopaminergic (modulates medium spiny neurones)
from substantial nigra pars compacta

Question 5

How is input to the medium spiny neurones modulated?

Answer 5

• glutamate activates spine causing excitation of neurones (driving neuronal activity)
• dopamine receptors modulates amount of signal (level and eventual output)

Question 6

What is the direct dopaminergic pathway in the basal ganglia?

Answer 6

facilitating of desired movements

• D1 receptors (G protein coupled receptor)
• activates GaS which increases adenylyl cyclase activity
• catelyses cAMP from ATP:
• phosphorilation/activation of intracellular substrates
• -> turn up motor learning/synaptic plasticity

Question 7

What is the indirect dopaminergic pathway in the basal ganglia?

Answer 7

inhibition of unwanted movements

• D2 receptors (G protein coupled receptors)
• activation of Gi/o which inhibits adenylyl cyclase activity:
• no catalysis of cAMP from ATP:
• decrease phosphorylation/activation of intracellular substrates
• -> turns down motor learning/synaptic plasticity

Question 8

What are the neuropeptides transmitters of the direct and indirect pathways?

Answer 8

• direct pathway: dynorphin

- indirect pathway: enkephalin (opioid molecule)

Question 9

what happens when there is no activity (background)

Answer 9

activation of indirect pathway:
-tonic dopamine release –> low synaptic and extra synaptic levels –> preferential D2R activation (high-affinity receptors) –> action inhibition “no-go” long term depression (lowering of synaptic strength)

Question 10

What happens when doing a learned action?

Answer 10

activation of direct pathway:

-phasic dopamine release -> preferential D1R activation –> motor initiation, long term potentiation

Question 11

What are the different functions of the basal ganglia and where are the loops placed?

Answer 11

limbic (behavioural, reward)
associative (executive: learning, memory, attention, motivation, emotion and volition: strong input from DLPFC)
sensory
motor
–> ventromedial to dorsolateral gradient (from limbic to motor)

Question 12

What is chorea?

Answer 12

rapid, multifocal irregular movements

• flitting between various muscle groups and body parts
• motor impersistence (relative overactivity of direct pathway and relative under activity of indirect pathway)

Question 13

What are examples of choreiform disorders?

Answer 13

Huntington’s disease

Levodopa-induced dyskinesia

Question 14

What is dystonia?

Answer 14

abnormal twisting, distortion movements of the neck and limbs

Question 15

What is the age of onset of Parkinson’s disease?

Answer 15

> 60 yo

young onset PD in 5% of people <40yo

Question 16

What are the genes involved in Parkinson’s disease?

Answer 16

parkin (recessive)
SNCA LRRK2 (dominant)

Question 17

What are the movement symptoms seen in PD?

Answer 17

-bradyskinesia
(increased inhibitory output to brainstem, thalamus and motor cortex + abnormal 20 Hz (beta band) oscillations in basal ganglia: increased activity at that frequency)
-resting tremor
(absent in approx 30% of people, less responsive to drugs, not just basal ganglia output: thalami-cortical-cerebellar loops and non dopaminergic pathways (5-HT))
-rigidity (cogwheel)
(increased muscle tone, more obvious during slow movements
–> peripheral: reduced inhibition from type 1b fibres and overactive type II fibres (connected to muscle spindles): muscle tense up
–> central: altered GABA an ACh interneurones: altered inhibition in indirect pathway: increased responsiveness of STN/GPi firing to peripheral stimulation)
-postural instability (late)

Question 18

What are the non-movement symptoms n PD?

Answer 18

• anosmia (PD starts in olfactory bulb)
• gut problems
• REM sleep behaviour disorder
• depression
• prominant pain

Question 19

What is the Braak staging for PD?

Answer 19

• Break stage 1 and 2: autonomic and olfactory disturbances
• Braak 3 and 4: sleep and motor disturbances
• Braak 5 and 6: emotional and cognitive disturbances

Question 20

What are the behavioural impairments in PD?

Answer 20

• cognitive disturbances (executive planning: associative loops, thinking ability)
• impulsive behaviour (dopaminergic deficit in limbic stratal areas)
• depression anxiety (related to monoamine loss in brainstem)

Question 21

What are the risk factors for impulse control behaviours in PD?

Answer 21

• dopamine agonist use> high dose levodopa
• smoking, male
• young onset Pd
• depression
• novelty seeking behaviour
• family history of gambling, alcoholism

Question 22

What is the pathophysiology of PD?

Answer 22

-abnormal deposition of Lewy bodies causing death of the cells and loss of dopamine: alpha synuclei aggregate
-(caudal postal spread through the -brain)
(alpha synuclei is a protein that is involved in normal cellular functions such as synaptic functions)

--> reduced D1 and D2 stimulation: direct  pathway underactive and indirect pathways
is overactive (relative)

+ increased levels of proenkephalin: causing parkinson symptoms

Question 23

What do you need for a diagnosis of PD?

Answer 23

1. -must have bradykinesia + one of the following
   - rigidity
   - resting tremor
   - postural instability
2. unilateral onset and persistent asymmetry
3. good levodopa response > 5 years
4. levodopa induced chorea

Question 24

What are red flags for idiopathic PD diagnosis?

Answer 24

• absent tremor, symmetrical onset
• early gait abnormality and falls
• pyramidal tract signs
• poor levodopa response
• supranuclear gaze palsy
• dysautonomia, ataxia, stridor
• apraxia, myoclonus, alien limb
• early dementia

Question 25

What are the different treatment options for PD?

Answer 25

1. dopaminergic therapies:
   - levadopa
   - dopamine receptor agonists (pramipexole, ropinirole)
   - peripheral COMT inhibitors (entacopone, opicapone)
   - monoxidase inhibitors (selegiline, rasagiline)
2. NMDAR antagonists (amantadine)
3. surgical therapies
   - GPm/STN deep brain stimulation
   - GPm lesion

Question 26

What are motor complications in the treatment of PD?

Answer 26

wearing off effect and motor fluctuations
–> L DOPA induced dyskinesia: (reduce therapeutic window: you spend time below response threshold and above dyskinesia threshold)
(occurs in 50% after 4-6 years of treatment. risk factors: young age ad disease severity, genetics)

Question 27

What are the mechanisms of motor complications? What can be done?

Answer 27

• less able to handle the dopamine stimulation
• abnormal handling of dopamine by 5-HT neurones
• abnormal handling of synapse plasticity
• dopamine receptor agonist treatment delays dyskinesia onset

what can be done:

• continuous dopaminergic stimulation
• amantapine (NMDA receptor antagonist, reduced dyskenesia by approx 40%)
• surgical therapies

Question 28

Why should you not abruptly withdraw medication?

Answer 28

lead to neuroleptic malignant syndrome

Question 29

What is the aetiology of Hungtinton’s disease?

Answer 29

• expanded CAG repeat (>40) in Huntington gene (on chromosome 4)
• anticipation: as it goes down generation, it occurs at younger age
• greater expansion in male transmission

Question 30

What is the pathophysiology of Huntington disease?

Answer 30

–> strial pathology (especially caudate):
-selective loss of D2 receptors (involuntary movements increase)
-later loss of D1 receptors (hypo kinetic movement disorder)
DIRECT PATHWAY RELATIVELY OVERACTIVE COMPARED TO INDIRECT)

• -> cortical pathology
• loss of neurones in layer 5 and 6
• -> neuropsychiatric disturbances early on in the disease
• anxiety, depression, impulsivity, apathy

Question 31

Wha is Tourette syndrome?

Answer 31

neuropsychiatric illness that is characterised by rapid, repetitive, stereotypes movements or vocalisation (tics: motor and vocal)
-onset <20 yo

Question 32

What is the pathophysiology of Tourette syndrome?

Answer 32

• loss of cholinergic and GABAergic stratal interneurones: reduced basal ganglia inhibition
• increased striatal dopamine D2 receptor binding in patients with TS compared to controls

Question 33

What is SPECT? What does it measure?

Answer 33

gamma emitting radioisotope

measures blood blow

Question 34

What is PET? What does it measure?

What are the different types of PET used in diagnosis of PD and Alzheimer’s?

Answer 34

positron emitting radioisotope
measures metabolic rate

• 18F-DOPA PET (Parkinson)
• FGD PET (radioactive glucose): shows which part of the brain is the most active (can be used in PD and Alzheimer’s disease
• 18F-Florbetapir: presence of amyloid (for Alzheimers)
• 11C-PK11195: for stroke: marker for inflammation (CRP)

Question 35

What can you miss with Nervous System imaging?

Answer 35

-raised intracranial pressure
-cerebral venous sinus thrombosis
(which both of the above can be seen through clinical assessment: papilledema in back of eye)
-stroke
-subarachnoid haemorrhage
-Guillain Barre syndrome
-myasthenia gravis
-anything to do with neuromuscular system