Scenario 29

Question 1

What is the mean age of PD onset?

Answer 1

65

Question 2

What are the risk factors for PD?

Answer 2

Family history, sex, age, family history, pesticide exposure

Question 3

How many people does PD affect worldwide?

Answer 3

4 millions

Question 4

What are the motor symptoms of PD?

Answer 4

Shaking, stiffness, slowness and hypokinesia

Question 5

Non motor symptoms of PD?

Answer 5

Fatigue, sleep deprivation, anxiety, depression, psychosis, dementia, constipation, pain

Question 6

What is the role of dopamine in the brain?

Answer 6

Regulates cortical excitation of striatal neurons, stabilises the firing rate and excitability of striatal neurons and regulates their plasticity

Question 7

Where does Parkinsons start in the brian?

Answer 7

Medulla and olfactory region- olfactory dysfunction in 70-100% of patients

Question 8

What could differential diagnoses for PD like symptoms be?

Answer 8

Multiple system atrophy, progressive supranuclear palsy, drug induced, vascular, structural- toxins, infections, metabolic

Question 9

Where is acetylcholine released?

Answer 9

From lower motor neurones- GI tract, preganglionic autonomic nerves, post ganglionica parasympathetic, retina
Nucleus basilis in brain to thalamus and cortex (not cerebellum)

Question 10

How is acetylcholine synthesised?

Answer 10

Choline and acetyl CoA (synthesised in cell body and transported to terminals)

Question 11

How is acetylcholine stored?

Answer 11

Vesicle in presynaptic terminal

Question 12

How is ACh released?

Answer 12

Calcium dependent vesicular release at the end terminal

Question 13

What ACh receptors are there?

Answer 13

Ligand gates ion channels (nicotinic) and GPCRs (muscarinic)- 2 subgroups M1,M3,M5 (Gq) and M2,M4 (Go)

Question 14

How is Ach reuptaken?

Answer 14

Choline transporter (after its degraded)

Question 15

How is Ach degraded?

Answer 15

To choline and acetic acid by acetylcholinesterase (in synaptic cleft)

Question 16

What drugs interfere with Ach storage?

Answer 16

Vasamicol

Question 17

What drugs interfere with Ach release?

Answer 17

Botox

Question 18

What drugs interfere with Ach nicotinic receptors?

Answer 18

Full agonists- Ach, suxamethonium, nicotine
Partial agonists- Verenacline
Reversible agonists- Pancronium and vercuronium
Irreversible agonists- alpfa-bungrotoxin

Question 19

What drugs interfere with Ach muscarinic receptors?

Answer 19

Ach, muscarine, oxotremotine M

Atropine, ipratropium

Question 20

What drugs interfere with Ach reuptake?

Answer 20

hemicholinim

Question 21

What drugs interfere with Ach degradation?

Answer 21

galantamine, rivastigmine

Question 22

What recreational drugs interfere with Ach?

Answer 22

Nicotine, scopolamine, herbane

Question 23

What diseases are related to Ach?

Answer 23

Dementia, Myaesthenia gravis, PD, motion sickness, analgesia

Question 24

Where is dopamine found?

Answer 24

Located in CNS-forebrain, striatum (PD), pineal gland via hypothalamus, hippocampus amygdala (not back of cortex or cerebellum)

Question 25

How is dopamine synthesised?

Answer 25

Tyrosine from diet–>DOPA–>Dopamine

Question 26

How is dopamine released

Answer 26

Calcium dependent vesicular release and end terminal adn along axon

Question 27

What dopamine recptors are there?

Answer 27

All GPCRs
D1 like- D1,5 couples to Gs (activates adenylate cyclase)
D2 like- D2,3,5 coupled to Gi (inhibits adenylate cyclase)
No ligand gating so no fast firing

Question 28

How is dopamine reuptaken?

Answer 28

Diffuses round end terminal and taken up by DAT requiring Cl and 2Na

Question 29

How is Dopamine degraded?

Answer 29

Via MAO/COMT/aldehyde dehydrogenase to homovalinic acid which can be measured in the blood/CSF/urine

Question 30

What drug is involved with dopamine synthesis?

Answer 30

levo DOPA

Question 31

What drug is involved with dopamine storage?

Answer 31

reserpine, methamphetamine

Question 32

What drug is involved with dopamine release

Answer 32

amantadine

Question 33

What drug is involved with dopamine receptors?

Answer 33

Full agonists- DA, apomorphin, bromocriptine

Agonists- Haloperidol, chlopromazine

Question 34

What drug is involved with dopamine reuptake?

Answer 34

Cocaine, bupropion, methylpenidate

Question 35

What drug is involved with dopamine degradation?

Answer 35

MAO inhibitors- phelzine, selegiline

COMT inhibitors- entacapone, tolcapone

Question 36

What recreational drug is involved with dopamine?

Answer 36

Cocaine, amphetamines, bromocriptine

Question 37

What diseases are linked to dopamine?

Answer 37

Durg dependence (reward mechanism), PD, schizophrenia, nausea, hormonal disturbances

Question 38

What are the motor cortex related problems in PD?

Answer 38

Paralysis with spasticity (upper motor sign)

Question 39

What are the IC related problems in PD?

Answer 39

Upper motor sign and sensory defecits

Question 40

What are the basal ganglia and cerebellum related problems in PD?

Answer 40

Involuntary movements, slowness

Question 41

What is the basal ganglia made up of?

Answer 41

Striatum and globus pallidus

Question 42

What is the striatum made up of?

Answer 42

Caudate nucleus and putamen

Question 43

What is the lentform nucleus made up of ?

Answer 43

Globus palidus and putamen

Question 44

What are the internal pathways?

Answer 44

Afferents to the cortex from the senses and pain to the thalamus with relay neurons to the thalamus
Efferents from the cortex (dont stop at thalamus)- motor corticospinal and corticobulbar and prefrontal corticopontine pathway
Reciprocal connections- between thalamus and cortex modulated by basal ganglia (inhibit thalamus) and cerebellum (excites thalamus)

Question 45

What is the role of the IC?

Answer 45

Funnels axon connections (channel for info in and out of the cortex)

Question 46

What is most posterior part of the IC?

Answer 46

Optic and auditory radiations (most posterior)- sensory corticopontine

Question 47

What is the function of the posterior limb?

Answer 47

Motor and sensory

ARM–>TRUNK–>LEG (more ant to post)

Question 48

What is the function of the genu?

Answer 48

Motor and sensory to the face

Question 49

What is the function of the anterior limb?

Answer 49

Corticopontine (cognitive)

Question 50

What is the blood supply to the anterior and posterior limbs of IC and basal ganglia?

Answer 50

Middle cerebral artery

Question 51

What is the blood supply to the anterior limb and more medial parts and the genu?

Answer 51

Anterior cerebral artery

Question 52

What happens if the post limb aand genu are damaged?

Answer 52

paralysis, loss of sensation, vision and hearing

Question 53

What happens in the ant limb is damaged?

Answer 53

Cognitive defects

Question 54

What is the role of the basal ganglia?

Answer 54

Modulates the reciprocal connections with the thalamus (from cortex) sending inhibitory actions (lifting and pushing brakes)

Question 55

What NT modulates overall output of basal ganglia?

Answer 55

Dopamine- more DA causes less inhibitory basal ganglia output
Less dopamine- more inhibition (PD)

Question 56

What are some disorders limked to the basal ganglia (more or less inhibition of the thalamus)

Answer 56

Hyper/hypo kinetic movement disorders, PD, HD, cognitive disorders

Question 57

What is the role of the cerebellum?

Answer 57

Axons from motor and prefrontal areas to the cerebellum that reinforces responses from the cortex to the thalamus. Excitatory and rather than changing the amplitude of movements affects timing

Question 58

What are some disorders linked to damage of the cerebellum?

Answer 58

Hypertonia, astasia (cant stand or walk), ataxia (errors in coordination), action- intention tremor

Question 59

What is the link between cerebellum and cog function?

Answer 59

Corticopontine input from prefrontal areas, prenatal damage leads to cognitive disability, autistric spectrum

Question 60

What is the cerebrocerebellum?

Answer 60

Lateral parts- motor planning and cognition, output to thalamus

Question 61

What is the spinocerebellum?

Answer 61

Middle section responsible for posture and output to midbrain (red nucleus) and thalamus (ventrolateral)

Question 62

What is the vestibulocerebellum?

Answer 62

flocculonodular lobe- balance and output to vestibular nuclei

Question 63

Where is damage to each part seen?

Answer 63

Same side of the body
Cerebrocerebellum(opp motor cortex) and spinocerebellum (opp red nucleus) cross over and back vestibulo is locally ipsilateral

Question 64

What is the mean time until death in HD?

Answer 64

17 Years

Question 65

What is the cause of HD?

Answer 65

Degeneration in the striatum due to the loss of GABAergic neurons

Question 66

What are the genetics of HD?

Answer 66

Autosomal dominant (50% chance)
Normally 10-30 CAG in HD >40 CAG

Question 67

What is the result of increased CAG?

Answer 67

Gain of toxic function- inclusion bodies build up in vulnerable neurons eventually in the nucleus interacting with transcription factors and modulate gene expression- cell death follows

Question 68

What is the mechanism in MND?

Answer 68

Excessive loss of motor neurons in spinal cord, brain stem and/or motor cortex
Severe muscle atrophy- compensatory muscle fibre sprouting not enough

Question 69

When is the normal age of onset and how long to live?

Answer 69

50-60 and 5 years

Question 70

What causes MND?

Answer 70

10% familial SOD1 C90RF72 and 15% sporadic

SOD1 and TDP-43 can form toxic aggregates and nuclear inclusions

Question 71

What other non neuronal inputs exacerbate the disease?

Answer 71

Microglia activating and releasing toxic factors, astrocytes activated and release toxic factors and lose ability to recycle glutamate resulting in excitotoxicity, loss of trophic support from target, reactive response in target

Question 72

How does excitotoxicity kill neurons?

Answer 72

Only ionotropic glutamate receptors not metabotropic
Glutamate accumulates at synapses (excessive release, defective uptake, reversal of transporters) and Ca accumulates at synapse damaging mitochondria, proteases, endonucleases, stress activated kinases, phospholipases and NO synthase

Question 73

How do we mitigate against the disease or limit damage?

Answer 73

Replacement- Ldopa/ cholinesterase inhibiors in AD
Inhibit excitotoxicity- glutamate receptor agonists, Na channel agonists, V gates calcium agonists
Accumulation of toxic proteins- beta and gamma secretase inhibitors
Trophic support- NGF, GDF, VEGF
Anti-inflamm- Cox inhibitors

Question 74

What are the stages of PD?

Answer 74

Starts at the medulla, raphe and locus coruleus affects (sleep), dorsal motor nucleus of the vagus (GI problems), olfactory bundle, then nigra (motor symptoms- phase 3)

Question 75

What % of PD suffer NMS?

Answer 75

99

Question 76

What % of PD is familial?

Question 77

What are possible causes of the other 95%

Answer 77

environmental toxins (MPTP), agrochemical persistent accumulation

Question 78

What part of the brain degenerates in PD?

Answer 78

Dopaminergic nigrostriatal tract- loss of pigmented bodies in substantia nigra pars compacta

Question 79

By how much is dopamine innervation of the striatum reduced in PD

Answer 79

60-80%

Question 80

What are Lewy bodies?

Answer 80

Pathological hallmark of PD found in many remaining dopaminerfic neurons in SNc in PD
Consequence of cells ready to die? Contain ubiquitin

Question 81

What factors contribute to SNc degradation in PD?

Answer 81

Oxidative stress, excitotoxicity

Question 82

What are the two main components of oxidative stress?

Answer 82

Free radical production increasing and antioxidant defences decrease

Question 83

How does free radical production increase?

Answer 83

Normally autooxidatin of DA to form neuromelanin and DA is metabolised by mono-amine oxidase producing H2O2
In PD high Fe levels (possibly frm microglial cells) in SNc drive the Fenton reaction causing OH- to be produced. Free radical damage to proteins, lipids and DNA bases

Question 84

Why does antioxidant defence decrease?

Answer 84

SNc has 30% reduced glutathione levels in PD

Question 85

What is the mechanism of weak excitotoxicity?

Answer 85

Impairement of mitochondrial complex I leads to reduced ATP and therefor depolarisation of the membrane (lack of NA/K ATPase activity) and a small amount of glutamate can now activate the receptor

Question 86

What is the mechanism of strong excitotoxicity?

Answer 86

Increased Ca entry through NMDA activation. Neurons in ventral tier have low calbindin levels (cant mop up excess Ca) Elevated glutamine levels found in SNc due to increased firing of STN

Question 87

What takes place in the direct circuit?

Answer 87

Motor cortex fires and glutamate activates the striatum where it causes increased GABA release and increased inhibition of the GPi/SNrso the thalamic relay neuron is disninhibited causing movement

Question 88

What takes place in the indirect circuit?

Answer 88

Motor cortex firs releasing gluabate whihc stimulates GABA switching off inputs to the STN therefore disinhibiting glutamate release to the GPi/SNr causing GABA inhibition of thalamic relay neuron inhibiting movement

Question 89

Why do we need dopamine>

Answer 89

Both of these pathways are contradictory so need DA

Question 90

What is the role of DA on the direct pathway?

Answer 90

Activated D1 DA receptors (Gs) increase firing of the pathway and produce more movement

Question 91

What is the role of DA on the indirect pathway?

Answer 91

Activated D2 DA receptors (Gi) suppress cAMP and decrease neuronal firing so the pathway is inhibited, less GABA release and less inhibition of movement

Question 92

What happens in PD?

Answer 92

Direct underactive, indirect overactive due to decreased DA

Question 93

What is the effect of PD on thalamocortical feedback?

Answer 93

Reduced- motor defecits

Question 94

What are some examples of anticholinergic/ muscarinic receptor antagonist drugs and how do they work?

Answer 94

Benshexo, benzatropine and loss of DA disinhibits the striatal cholinergic interneurons increasing striatal Ach levels activating muscarinic receptors further increasing the overactivity of the indirect pathway- tremor

Question 95

What are some s/e of anticholinergic drugs?

Answer 95

confusion, modd changes, constipation, blurry vision, dry mouth (useful if dribbling present)

Question 96

How does LDOPA work

Answer 96

DA precursor that crosses BBB using AA transporters convered to DA using Dopa decarboxylase.

Question 97

Why is L-DOPA administered with DDC inbitors?

Answer 97

90% converted by DCC in intestinal wall so administered with peripherally acting DCC inhibitor (e.g. carbidopa) to avoid nausea
5% metabolised by COMT so can be administered with inhibitor entacarpone

Question 98

What are the benefits of L-DOPA?

Answer 98

Imporves rigidity, bradykinesia, facial expression, speech and handwriting

Question 99

What are acute s/e of L-DOPA?

Answer 99

Nausea, postural hypotension, hallucinations insomnia nightmares

Question 100

What are chronic s/e of LDOPA?

Answer 100

Motor fluctuations- less DA neurons as disease progresses so less storage and less controlled release, dykinesia- increased thalamocortical feedback (use NMDA receptor blocker amantadine)

Question 101

What are some examples of DA receptor agonists and how do they work?

Answer 101

Bromocriptine and activate D2 receptors normalising the indirect pathway (less inhibition of movement) not affected by neurodegeneration and same s/e as LDOPA but longer half life so less chronic effects

Question 102

What is an example of a MAO-B inhibitor and how do they work?

Answer 102

Selegilline and blocking DA metabolism

Dont cause cheese reaction

Question 103

What surgical approaches are there to treat PD?

Answer 103

Neuroablative surgery- lesion made in basal ganglia motor loop to restore normal thalamocortical feedback but risk of visual impairment, intracerebral haemmorhade and mild speech and cognitive impairment
Deep brain stimulation- normalise firing in motor loop by increasing RMP in the STN- reversible