Stroke

Question 1

What is a stroke? What are its symptoms?

Answer 1

stroke refers to a sudden loss of oxygen delivery to a brain region due to the interruption of blood flow.

symptoms - depend on the artery involved

• paralysis = MAIN
• sudden loss or blurring of vision
• dizziness, confusion
• difficulty understanding speech, slurred speech = MAIN
• problems with balance and co-ordination
• difficulty swallowing (dysphagia)
• sudden and very severe headache
• loss of consciousness

use fast (facial drop, arm drop, slurred speech)

Question 2

What are the types of stroke? What are they caused by? What is the most common?

Answer 2

ischemic stroke
- occlusion due to thrombosis or embolism
= is the most common in the UK (85%)

haemorrhagic stroke
- rupture of a weakened blood vessel
= not very common (15%)

Question 3

What are the types of haemorrhagic stroke?

- different types

Answer 3

subarachnoid bleeding = bleeding on the SURFACE
- rupture of a blood vessel leading to bleeding in the subarachnoid space
= space between the arachnoid mater and pia mater (meninges which cover the brain)

intracerebral bleeding = bleeding WITHIN the brain
- rupture of a blood vessel leading to bleeding within the cerebrum

Question 4

What causes haemorrhagic strokes?

Answer 4

rupture of a weakened blood vessel

cerebral aneurysm
- localised dilatation resulting in the abnormal widening of a blood vessel
= rupture causes subarachnoid bleeding (SURFACE)

arteriovenous malformation
- abnormal tangle of blood vessels connecting arteries and veins
= rupture causes intracerebral bleeding (WITHIN)

Question 5

What are the pathophysiological processes that occur as a result of haemorrhagic stroke?

Answer 5

leads to haematoma formation which can lead to cell injury
- haematoma = localised bleeding outside a blood vessel

methods of causing cell injury

haematoma increases intracranial pressure
causes compression of the brain
leads to ischemia and cell injury

haematoma can cause coagulation and expansion
leads to inflammation which results in cell injury

haematoma undergoes lysis and releases haemoglobin bound iron
haemoxygenase digests the haemoglobin releasing neurotoxin iron
iron causes oedema which leads to inflammation and cell injury

Question 6

How does an ischemic stroke cause brain injury?

Answer 6

excitotoxicity
- damages neurones and glial cells
inflammation
apoptosis

Question 7

What is NMDA receptor mediated excitotoxicity?

Answer 7

occluded blood vessel causes decreased energy supply 
- depleted oxygen and glucose 
failure of the Na/K ATPase pump causes neuronal depolarisation
excessive glutamate release (excitotoxic neurotransmitter)
over-activation of the NMDA receptor 
calcium entry thorough the NMDA
overactive enzyme systems 
- proteases and lipases damage membrane 
oxidative stress/damage 
mitochondrial dysfunction 
- cytochrome c release 
apoptosis

Question 8

What are the two different effects an ischemic stroke can have?

Answer 8

occlusion due to thrombosis or embolism

can form an ischemic core
- an infarction core representing irreversibly injured brain tissue
= withe areas of diminished blood flow, cell death occurs within minutes (core)

can form an ischemic penumbra
- peripheral zone of brain tissue that may be clinically symptomatic but can be rescued if blood flow is restored
= are supported by collateral circulation

with time, the infarct core expands at the expense of the penumbra
- as the infarct core increases, the penumbra decreases

Question 9

What is golden hour for strokes?

Answer 9

the first hour after a stroke is the best time for treatment
- higher chance of survival if treated within 1 hour of onset

Question 10

What are the different treatments for a haemorrhagic stroke?

- pharmacological and non-pharmacological

Answer 10

non-pharmacological
- surgery
= craniotomy where a section of the skull is removed to allow the site of bleeding to be seen, repair of blood vessels and removal of haematoma

reversal of anticoagulopathy
- prescribed to prevent blood clots
= anticoagulants

blood pressure medication
- should be given to patients presenting with high systolic pressure between 150-220mmHg
= beta blockers, ace inhibitor, angiotensin receptor blockers

anticonvulsants

Question 11

Why is reversal of coagulopathy needed for haemorrhagic strokes? What can be used?

Answer 11

anti cogulants (warfarin, dabigatran) prevent blood clots but increase risk of haemorrhage

can use clotting factors (prothrombin complex concentrate), vitamin K, fresh frozen plasma or attack the anticoagulants and their fragments

idarucizumab
- human monoclonal antibody fragment binds to dabigatran and its metabolites

Question 12

Why are anticonvulsants used for haemorrhagic strokes?

Answer 12

is associated with a risk of post-stroke seizures
- used to control this

Carbamazepine

Question 13

How can an ischemic stroke be treated? What is the goal?

Answer 13

occlusion due to thrombosis or embolism

aim is to:

• restore perfusion = save the brain tissue of the penumbra
• increase resistance of brain cells to ischemic damage

Question 14

How you restore perfusion in ischemic stroke?

- pharmacological

Answer 14

alteplase (acute ischemic stroke treatment)
- tissue plasminogen activator (tPA)
converts plasminogen to plasmin
activated plasmin can degrade fibrin and fibrinogen to break up the blood clot

must be administered i.v. within 3 hours (and up to 4.5 hours in certain eligible patients)
- otherwise, there is a significant risk of bleeding that outweighs the thrombolytic effects of the drug

Question 15

What is tenecteplase?

Answer 15

is a genetically modified variant of alteplase that has been shown to have greater fibrin specificity and a longer half-life than alteplase

• has better reperfusion than alteplase
• better functional outcome

not approved for acute ischemic stroke
- it is approved for acute myocardial infarction

Question 16

How you restore perfusion in ischemic stroke?

- non-pharmacological

Answer 16

mechanical thrombectomy
- is a procedure used to remove obstructive blood clots from large arteries in the brain

cerebral angiography is first performed to identify the exact location of the arterial occlusion

• delivery catheter is inserted and advanced into the occluded artery
• clot-retrieval device attached to a guidewire is introduced through the delivery catheter to the site of the occlusion, to remove the clot and re-establish blood flow

Question 17

What is reperfusion injury?

Answer 17

refers to damage to brain tissue when blood supply returns after a period of ischemia

reperfusion can trigger inflammation, free radical formation and mitochondrial dysfunction, which can lead to cell death

Question 18

How can resistance to ischemic damage be increased in brain cells?
- alternative method of treatment

Answer 18

ischemic conditioning
- refers to the exposure to ischemia in short durations, offering a downstream protective effect against a prolonged ischemic event

minocyline and candesartan

• minocycline is a tetracycline antibiotic (e.g., acne), whilst candesartan is an angiotensin II receptor agonist
• have been shown to have neuroprotective and neurorestorative properties

neurorestorative cell therapy