stroke/case 5

Question 1

What does the brain use for respiration? what type of respiration?

Answer 1

O2 and glucose

aerobic respiration: no lactate build up

Question 2

What happens with occlusion of the anterior cerebral artery?

Answer 2

• contralateral hemiparesis

- sensory loss of contralateral leg and perineum

Question 3

What parts of the brain does the middle cerebral artery supply?

Answer 3

• lateral sulcus and travels along lateral surface of frontal, temporal and parietal lobes
• subcortical areas including internal capsule and neostratium

Question 4

What happens with occlusion of the middle cerebral artery?

Answer 4

• contralateral hemiparesis
• sensory loss of contralateral upper limb
• contralateral homonymous hemianopia
• aphasia

Question 5

What happens with occlusion of the posterior cerebral artery?

Answer 5

-contralateral homonymous hemianopia with macular sparing
-visual agnosia
(-Weber’s syndrome: branches of the PCA that supply midbrain: ipsilateral CN3 palsy + contralateral weakness of upper and lower extremity)

Question 6

What parts of the brain does the posterior cerebral artery supply?

Answer 6

curves around midbrain to reach medial surface of cerebral hemisphere
–> inferior surface of temporal lobe + occipital lobe

Question 7

What happens with occlusion of the basilar artery?

Answer 7

• ‘locked-in’ syndrome

- respiratory failure: death

Question 8

What is a lacunar stroke?

Answer 8

type of ischemic stroke that occurs when blood flow to one of the small arteries deep within the brain

Question 9

What are symptoms of lacunar strokes?
What are the risk factors?
Common sites?

Answer 9

• isolated hemiparesis, hemisensory loss or hemiparesis with limb ataxia
• strong association with hypertension
• common sites: basal ganglia, thalamus and internal capsule

Question 10

What are functional consequences of damage to motor cortex?

Answer 10

movement

Question 11

What are functional consequences of damage to frontal lobe?

Answer 11

-Broca’s aphasia
-disinhibition
-perseveration
-anosmia
-inability to generate a list
(judgement, foresight, voluntary movement, smell)

Question 12

What are functional consequences of damage to temporal lobe?

Answer 12

• Wernicke’s aphasia
• superior homonymous quadrantonopia
• auditory agnosia
• prosopagnosia

Question 13

What are functional consequences of damage to brainstem?

Answer 13

swallowing, breathing, heartbeat, wakefulness centre (+other involuntary functions)

Question 14

What are functional consequences of damage to cerebellum?

Answer 14

• midline lesions: gait and truncal ataxia

- hemisphere lesions: intention tremor, past pointing, dysdiadokinesis, nystagmus

Question 15

What are functional consequences of damage to parietal lobe?

Answer 15

• sensory inattention
• apraxias
• astereognosis (tactile agnosia)
• inferior homonymous quadrantanopia
• Gerstmann’s syndrome (lesion of dominant parietal): alexia, acalculia, finger agnosia and rich/left disorientation)

Question 16

What are functional consequences of damage to occipital lobe?

Answer 16

• homonymous hemianopia (with macular sparing)
• cortical blindness
• visual agnosia

Question 17

What brain areas do the anterior cerebral artery supply?

Answer 17

superior and medial surfaces of frontal and parietal lobes

Question 18

What is the WHO definition of stroke?

Answer 18

-sudden onset of acute focal ‘occasionally global) neurological deficit probably due to a pathological process in blood vessels

Question 19

What are stroke risk factors?

Answer 19

• BP (especially in haemorrhage strokes)
• cholesterol
• blood sugar/diabetes
• atrial fibrillation
• obesity
• smoking

Question 20

What is the FAST test?

Answer 20

Face
Arms
Speech
Time

Question 21

What is the percentage of ischemic strokes compared to haemorrhage strokes

Answer 21

85%

15%

Question 22

What are causes of ischemic strokes?

Answer 22

• blood clot causing occlusion: carotid atherosclerosis (carotid bifurcation), embolism of plate rich clot further i cerebral vessel
• atrial fibrillation

Question 23

What must be looked at in terms of blood diffusion:perfusion for treatment via thrombolysis?

Answer 23

it mismatch (perfusion loss but not much diffusion loss) then brain tissue can be salvaged

Question 24

What is the neurovascular unit and what does it consist of?

Answer 24

• close interaction of brain cells with the brain endothelium and the extracellular matrix contributes to the maintenance of brain homeostasis and functions
• consists of :
• ->astrocytes, microglia, neurones
• -> endothelial cells and pericytes
• -> extracellular matrix

Question 25

What are the different post stroke complications?

Answer 25

• paralysis/motor control
• sensory disturbances
• dysphagia
• language problems
• memory impairments
• depression/anxiety
• fatigue

Question 26

What is the initial damage in stroke? When does it take place?

Answer 26

energy failure, excitatoxicity, depolarisation, necrosis, oxidative stress (causing mitochondrial damage)
-within minutes to hours

Question 27

What happens in secondary damage in stroke? When does it happen?

Answer 27

inflammation, programmed cell death

hours to days

Question 28

What is excitotoxicity?

Answer 28

over activation of NMDA receptors by glutamate allowing excess calcium into cell causing it to swell and rupture
(inhibitory cells die quite quickly)

Question 29

How would you describe progression of injury between the tissue and the MRI scan?

Answer 29

• upon presentation: no perfusion of tissue (doesn’t show in brain tissue but it shows in MRI scan)
• one day after presentation: loss of brain tissue
• 6 days after presentation: not much difference n MRI but more tissue loss

Question 30

What do you measure stroke severity with?

Answer 30

-National Institute of stroke scale

the higher the scale, the more severe the stroke

Question 31

What is the initial treatment of ischemic stroke? What are the complications

Answer 31

1. -thrombolysis: tissue plasminogen activator (alteplase) by IV bolus (10%) plus 1 hour infusion (90%) with 4.5h
   - complications: haemorrhage, anaphylaxis
2. endovascular thrombectomy: removal of clot
   BUT time dependent benefit: within 6 hours of onset

Question 32

What treatment do you give if the patient presents with haemorrhagic stroke?

Answer 32

• PCC (prothrombin complex concentrates) to reverse bleeding
• management of BP
• lower blood pressure: beta blockers and GTN
• sometimes minimally invasive surgery

Question 33

What is secondary treatment for stroke?

Answer 33

• blood pressure
• aspirin 300 mg 14days then clopidogrel 75mg
• exclude AF (if have AF: anticoagulants)
• statins
• exclude DM
• exclude carotid stenosis (if have stenosis more than 50% can get carotid endarterectomy)
• speech and language therapy (dysarthria + swallowing)
• physiotherapy
• occupational therapy
• pschomotor

Question 34

How do you diagnose stroke?

Answer 34

MRI
CT
signs (ROSIER and National Institute of Stroke scale, FAST)

Question 35

What are the different types of aphasia?

Answer 35

• Wernicke’s (receptive) aphasia
• Broca’s (expressive) aphasia
• conductive aphasia
• global aphasia

Question 36

What happens in Wernicke’s (receptive) aphasia?

Answer 36

• due to lesion of superior temporal gyrus
• comprehension is impaired
• sentences that make no sense, word substitution and neologisms but speech remains fluent

Question 37

What happens in Broca’s (expressive) aphasia?

Answer 37

• due to lesion of the inferior frontal gyrus
• speech is non-fluent, laboured, and halting
• comprehension is normal

Question 38

What happens in conductive aphasia?

Answer 38

• ususally due to stroke affecting arcuate fasciculus (connection between Wernicke’s and Broca’s area)
• speech fluent but repetition is poor
• aware of errors they are making
• comprehension is normal

Question 39

What happens in global aphasia?

Answer 39

large lesion affecting all 3 of the areas (Wernicke’s, Broca’s and arcuate fascicles)
–> severe expressive and receptive aphasia