Stroke and excitotoxicity

Question 1

What is ischaemia

Answer 1

1. Ischaemia is a restriction in blood supply to tissues, causing a shortage of oxygen that is needed for cellular metabolism

Question 2

What happens in an ischaemic (or thrombotic) stroke

Answer 2

1. Blocked vessels
2. incidence 85%
3. Lower mortality
4. thrombotic -internal- large or small vessels
5. embolic - external - air, fat introduced into blood vessels

Question 3

What happens in a Haemorrhagic stroke

Answer 3

1. Ruptured vessels
2. Incidence 15%
3. Higher mortality
4. Intracerebral- blood vessels in brain
5. Subarachnoid- around outside

Question 4

What happens to damage after stroke

Answer 4

1. Spread of damage after stroke

2. Damage spreads outwards from core

Question 5

What is the primary cause of cell death in stroke

Answer 5

1. excitotoxicity
2. Excessive release of glutamate
3. Neurones “excited to death”
4. Ca2+ overload
5. Also, Alzheimer’s, Parkinson’s, Huntington’s, amyotrophic lateral sclerosis (aka motor neurone disease/ Lou Gehrig disease)

Question 6

Describe Excitotoxic mechanisms - stage 1

Answer 6

1. Glutamatergic synapse
2. During ischaemia there is lack of O2 and glucose
3. Not enough ATP - cell can’t respire
4. Na/K ATPase pump stops working
5. Lose imbalance of ionic concentrations- become balanced
6. Causes resting membrane to change
7. Activation of lots of ion channels
8. Voltage gated calcium channel
9. Release neurotransmitter and glutamate
10. Calcium influx build up in post synaptic neuron

Question 7

Describe Excitotoxic mechanisms – stage 2

Answer 7

1. Glutamate released excessively as membrane is depolarised
2. Activate AMPAr and NMDAr receptors
3. AMPAr are sodium permeable and depolarise in post synaptic cell
4. Can activate and open VGSC
5. Relieves voltage dependent magnesium blocked of NMDAr
6. Allows them to signal through there – they are calcium permeable
7. Activate VGCC
8. More calcium through cell
9. Na-Ca exchanger
10. Pumps sodium out and calcium in
11. Process continues

Question 8

What does Ca2+ do

Answer 8

1. Ca2+ is important signalling molecule and activates
2. Proteases, Lipases, Caspases
3. Activate for cancer therapy as induce cell death
4. But cause neuronal cell death
5. Free radicals
6. All lead to membrane and cytoskeletal damage

Question 9

What is Peri-infarct depolarisation

Answer 9

1. Neurones in core never repolarise -death by necrosis
2. Neurones in penumbra repolarise
3. repolarisation uses energy (ATP) - energy depletion - depolarisation
4. Repeated cycle lasting 6-8 hours
5. More excitotoxic death

Question 10

What are some treatments for stroke

Answer 10

1. Tissue plasminogen activator (tPA) only licensed treatment
2. Neuroprotective agents?- often impossible to deal with side effects
3. Neuroregeneration? Eg. stem cells

Question 11

What does tPA do

Answer 11

1. restores blood flow - disperses thrombus
2. within 3 hours
3. only for ischaemic (thrombotic) stroke

Question 12

What are some Neuroprotective agents that may be used

Answer 12

1. AMPA/NMDA receptor blockers
2. glutamate release blockers
3. Na+/Ca2+ blockers
4. free radical scavengers
5. protease inhibitors
6. caspase inhibitors

Question 13

How can you Reduce risk of future strokes

Answer 13

1. Antihypertensives (eg. ACE inhibitors) – ischaemic and haemorrhagic
2. Statins - cholesterol reduction – ischaemic [possible contraindication in haemorrhagic though evidence is scant]
3. Antiplatelet drugs (eg. aspirin, clopidogrel) – ischaemic only
4. Anticoagulants (eg. warfarin) – ischaemic only
5. Stockings?- compression – higher compression further down, help to push blood back up to heart
   - Prevents deep vein thrombosis
   - Limited evidence that it works with strokes
6. Obesity, Lack of exercise, Smoking, Alcohol

Question 14

What are TIAs

Answer 14

1. Transient ischaemic attacks (TIAs) -short-lived neurological signs (aka ‘ministroke’). Initial symptoms identical to stroke
2. > 25% of people who have had a stroke have previously had a TIA
3. Put on preventative measures to prevent risk of stroke

Question 15

What are other examples of excitotoxicity

Answer 15

1. Other disease states (eg. Alzheimer’s, Parkinson’s, motor neurone disease)
2. Food-induced excitotoxicity
3. Amnesic shellfish poisoning
4. Neurolathyrism
5. Guam disease

Question 16

What happens in Amnesic shellfish poisoning

Answer 16

1. Glutamate receptor agonist- domoic acid produce by algae eaten by shellfish
2. Causes confusion + disorientation, memory loss, seizures
3. Eventually death

Question 17

What is Neurolathyrism

Answer 17

1. Glutamate receptor agonist
2. Causes motorneuron degeneration leading to paralysis
3. From Grass Pea (Lathyrus Sativus) – famine food

Question 18

What is Guam disease

Answer 18

1. Glutamate receptor agonist
2. Symptoms of Motor neurone disease, Alzheimer’s and Parkinson’s
3. From cycad seeds to humans via bats