Circulatory system and stroke

Question 1

Circle of Willis

Answer 1

the joining area of several arteries at the bottom (inferior) side of the brain - the internal carotid arteries branch into smaller arteries that supply oxygenated blood to over 80% of the cerebrum

Question 2

Anastome

Answer 2

connections b/w different cerebral arteries on cerebral surface - helps limit extent of cortical damage in stroke BUT creates vulnerability in “border zones/watershed areas” between arteries as they are the most distant portions of blood supply

Question 3

Two kinds of Cerebrovascular accident (CVA) (a.k.a. stroke)

Answer 3

Ischemic stroke - when a blood vessel supplying the brain becomes blocked by blood clot, resulting in reduced oxygen

• Thrombotic strokes - caused when a blood clot forms in an artery leading to the brain
• Embolic strokes begin with a clot forming elsewhere in the body that breaks loose and travels to the brain.

Hemorrhagic stroke - when a blood vessel bursts, leaking blood into the brain.

Question 4

Cerebrovascular accident (CVA) (a.k.a. stroke)

Answer 4

• can cause seizures d/t scar tissue
• can cause depression in 30% more left-sided CVAs
• function usually improves but can show worsening deficits d/t cerebral edema (swelling)

Question 5

Ischemia vs. infarct

Answer 5

Ischemia - blood flow to tissue has been decreased, resulting in hypoxia

Infarction - goes one step further, means blood flow has been completely cut off resulting in necrosis/cellular death

Question 6

3 main cerebral arteries

Answer 6

Anterior cerebral artery
Middle cerebral artery
Posterior cerebral artery

Question 7

Anterior cerebral artery (ACA)

Answer 7

Supplies:
Surface - cortex on the anterior medial surface, from the frontal to the anterior parietal lobes including medial sensorimotor cortex (sensory for lower extremity)
Deep - head of caudate, anterior putamen, globus pallidus, internal capsule

Clinical syndromes (infarcts/blockages are uncommon)
1. Usually produce contralateral lower extremity cortical sensory loss and weakness of the upper motor neuron
2. Alien hand syndrome = damage to supplementary area, semiautomatic movements of contralateral arm not under control
3. Frontal lobe dysfunction - impaired judgement, indecisiveness, flat affect, pseudobulbar palsy (inability to control face movements)
4. Bilateral occlusion = apathy, confusion, and mutism

Grasp reflex

can also produce diencephalic amnesia (resulting in confabulation)

Question 8

Middle cerebral artery (MCA)

Answer 8

most common infarcts and ischemic events

Supplies:
Surface - most of the dorsolateral cortex (involving frontal, parietal, and temporal lobes)
Deep: basal ganglia, internal capsule

Clinical syndromes (infarcts/ischemic events more common than ACA and PCA because of larger territory)
1. Left hemisphere lesions - contralateral hemiparesis, hemi-sensory loss, homonymous hemianopia, aphasia, apraxia
2. Right hemisphere lesions - hemi-attention, anosagnosia, dysprosody, possible apraxia
3. MCA watershed area affected: transcortical aphasia or global aphasia

Anterior: Broca’s aphasia
Posterior: fluent aphasia
Angular gyrus syndrome - fluent aphasia, Alexia with agraphia, Gerstmann’s syndrome

Infarcts occur in three areas:
- Superior division - supplies cortex above Sylvia fissure/lateral sulcus
- Inferior division - supplies cortex of lateral temporal and occipital lobes lobes below Sylvian fissure and part of lateral cortex
- Deep territory - includes internal capsule and much of the BG

MCA = gaze preference TOWARD lesion

Question 9

Posterior cerebral artery (PCA)

Answer 9

Supplies:
Surface - inferior and medial temporal cortex, occipital cortex (including visual cortex)
Deep - thalamus

Clinical syndromes:
1. Typically causes contralateral homonymous hemianopia
2. Smaller vessels may lead to infarct of thalamus/posterior limb of internal capsule:
- contralateral sensory loss, hemiparesis, and/or homonymous hemianopia
- Thalamic aphasia (if in language dom hemisphere) - lexical-semantic deficits and intact word repetition
- Alexia without agraphia if involve left occipital cortex

Question 10

What is a watershed infarct?

Answer 10

stroke caused by a drop in circulating pressure and or volume that results in critical ischemia or infarction between territories

Constitute approximately 10% of all cerebral infarcts

Locations:
- Between ACA and MCA: in frontal cortex extending from anterior horn to the cortex
- Between MCA and PCA: in parieto-occipital region extending from posterior horn to the cortex
- Parallel parafalcine stripes in subcortical white matter at the vertex suggests profound hypoperfusion (reduced blood flow)

Question 11

Left MCA superior division infarct

Answer 11

• Broca’s aphasia
• Right face and arm weakness of the upper motor neuron type (sometimes sensory loss may be present)
• Impaired working memory and executive function deficits.

Visual field cut is usually absent.

Limb apraxia may be seen in the right arm after resolution of paresis, and/or in the left arm.

Question 12

Left MCA inferior division infarct

Answer 12

• Wernicke’s aphasia
• Right visual field deficit

There may also be right face and arm cortical-type sensory loss, limb apraxia, and parts of Gerstmann’s syndrome (agraphia, acalculia due to conceptual difficulty, right-left disorientation, finger agnosia).

Motor findings are usually absent but mild right-sided weakness may be present, especially at onset.

Question 13

Left MCA deep territory infarct

Answer 13

Right pure motor hemiparesis (weakness) of the upper motor neuron type.
…effect internal capsule

Larger infarcts may produce “cortical” deficits, such as aphasia.

Question 14

Left MCA stem (initial part of the MCA is a single vessel called the stem)

Answer 14

Combination of left MCA infarcts +
- right hemiplegia
- right hemianesthesia (loss of tactile sensation)
- right homonymous hemianopia
- global aphasia

Left gaze preference

Question 15

Right MCA superior division infarct

Answer 15

• Left face and arm weakness of the upper motor neuron type
• Impaired working memory and executive functions.
• Left hemineglect is present to a variable extent.
• May also be some left face and arm cortical-type sensory loss.

Question 16

Right MCA inferior division infarct

Answer 16

• Profound left hemineglect.
• Left visual field and somatosensory deficits are often present
• Motor neglect with decreased voluntary or spontaneous initiation of movements on the left side can also occur.
• Some mild, left-sided weakness and right gaze preference may be present especially at stroke onset.
• There may also be anosognosia and visuospatial deficits characterized by Impaired visuospatial skills and writing, reading and arithmetic problems due to neglect and spatial difficulties

Question 17

Right MCA deep territory infarct

Answer 17

• Left pure motor hemiparesis of the upper motor neuron type.
  …because of internal capsule
• Larger infarcts may produce “cortical” deficits, such as left hemineglect and visuospatial deficits as well, emphasizing the importance of larger circuits.

Question 18

Deep territory infarcts produce…

Answer 18

contralateral motor hemiparesis
…because of internal capsule

Question 19

Right MCA stem infarct

Answer 19

Combination of Right MCA infarcts+

• left hemiplegia,
• left hemianesthesia
• left homonymous hemianopia
• profound left hemineglect,
• visuospatial deficits
• anosognosia.

Right gaze preference

Question 20

Left ACA infarct

Answer 20

• Right leg weakness of the upper motor neuron type
• Right leg cortical-type sensory loss.

Grasp reflex, executive function deficits, and transcortical motor aphasia can also be seen.

Larger infarcts may cause right hemiplegia.

Question 21

Right ACA infarct

Answer 21

• Left leg weakness of the upper motor neuron type
• left leg cortical-type sensory loss.

Grasp reflex, executive function deficits, and left hemineglect can also be seen.

Larger infarcts may cause left hemiplegia.

Question 22

Left PCA infarct

Answer 22

• Right homonymous hemianopia
• alexia without agraphia if extends to splenium (tail end) of corpus callous

Larger infarcts may cause:
- transcortical sensory aphasia
- right hemisensory loss
- right hemiparesis.

Verbal memory deficits may be present if the lesion extends to the left medial temporal lobe, especially the hippocampus.

Question 23

Right PCA infarct

Answer 23

Left homonymous hemianopia.

Larger infarcts may cause:
- left hemisensory loss
- left hemiparesis.

Spatial memory deficits may be present if lesion extends to the right medial temporal lobe, especially the hippocampus.

Question 24

Aneurysm

Answer 24

bulge in blood vessel caused by weakness in blood vessel wall

usually where the blood vessel branches

Most common locations for aneurysms are the:
- origin of ACA
-origin of PCA
- bifurcation points on MCA

Question 25

Hypoperfusion

Answer 25

reduced blood flow

• leads to watershed (border zone) infarcts

Regions particularly vulnerable to ischemic-anoxic insults (reduced blood flow leading to reduced oxygenation):
Hippocampus
cerebellum
cerebral cortex

Question 26

Cerebellar hemorrhage symptoms

Answer 26

occipital headaches (throbbing pain in upper neck or back of head) nuchal rigidity
gait ataxia
dysarthria (slurred speech)
lethargy (diminished energy)

Question 27

Transient ischemic attack (TIA)

Answer 27

“Mini stroke”

Symptoms are the same for stroke just limited in time

Temporary neurological deficit (<24 hrs, usually ~10 minutes) brain ischemia (inadequate blood flow)

May be caused by:
- embolism that dissolves
- thrombus (blood clot)
- vasospasm leading to temporary narrowing of vessel

Indicative of underlying atherosclerotic cerebrovascular disease (plaque) and increased risk of sustaining stroke

Slightly more common in PCA than MCA/ACA

Question 28

Sensorimotor deficit profile in each kind of cerebral artery infarct

Answer 28

ACAs - lower extremity

MCA - face and arm (think stroke signs)

PCA - present in large infarcts

Question 29

Visual field cut (anopia) profile in each kind of cerebral artery infarct

Answer 29

ACA: none

MCA: yes
inferior division > superior

PCA: yes (definitely)

Question 30

Clinical features of watershed infarcts

Answer 30

Bilateral ACA/MCA: “man in a barrel” - weakness of arms and legs BUT with preservation of hand and feet strength

Left ACA/MCA: transcortical motor aphasia

Left MCA/PCA: transcortical sensory aphasia
- Alexia without agraphia if lesion extends to splenium of corpus callosum

Right MCA/PCA: Balint’s syndrome (optic ataxia, oculomotor apraxia, simultanagnosia)

Question 31

Perinatal stroke

Answer 31

typically refers to strokes occurring between approximately 20 weeks gestation and the first 28 days of life.

Question 32

Which stroke is more common in adults?

Thromboembolic ischemic stroke or Hemorrhagic stroke?

Answer 32

Thromboembolic ischemic stroke (88%)

Hemorrhagic stroke (12%) -
intracerebral hemorrhages - 9% subarachnoid hemorrhages - 3%
associated with higher mortality, particularly subarachnoid

Equal occurrence in childhood

Question 33

Stroke risk factors

Answer 33

• older age
• hypertension/HBP
• family history
• prior TIA
• cocaine
• smoking
• diabetes
• obesity

Question 34

Anterior vs posterior circulation system

Answer 34

Anterior circulation (anterior cerebral, middle cerebral) - 80%
- may include hemiparesis, hemianesthesia, aphasia, and visuospatial deficits, as well as visual field cuts if the visual pathway is affected. Visuospatial deficits are less commonly noticed by patients.

Posterior circulation (posterior cerebral artery) - 20%

Question 35

The two major forms of infarction in children

Answer 35

arterial ischemic stroke (AIS) - Seizures are the most common presentation

cerebral sinovenous thrombosis (CSVT).

Question 36

Neuroimaging for stroke

Answer 36

Brain CT common to detect hemorrhage, but not as sensitive to ischemic damage (particularly acutely)

Question 37

Chronic dystonia is most likely to occur following a stroke in…?

Answer 37

the basal ganglia

Question 38

long-term definitive prognostic statements are unrealistic unless the stroke occurred at least…

Answer 38

6 months and more ideally at least 1 year prior to evaluation because of the likelihood of some continued recovery

Question 39

Crowding effect

Answer 39

language skills may be lateralized to the right hemisphere after an early focal left-hemisphere lesion, leading to reduced visuospatial skills.

motor dominance does NOT reorganize

left side stroke = visuospatial deficits + right side weakness

In the majority of cases, sensory and motor functions retain their usual lateralization, although “pathological” left-handedness can occur.

Question 40

Lacunar infarct

Answer 40

Small subcortical cerebral infarct related to occlusion or stenosis (narrowing) of small penetrating branches of the MCA, PCA, or basilar artery.

Lacunes are frequently associated with chronic hypertension.

Question 41

Vasculitis

Answer 41

Inflammation of blood vessels, which can lead to narrowing of the vessel, blood clot formation, or aneurysm formation due to weakening of the vessel wall, all of which increase the probability of stroke.

Question 42

Ischemic strokes in adults are most common in what vascular distribution

Answer 42

MCA

Question 43

endovascular embolization

Answer 43

treatment for aneurysm - fills or closes blood vessels to prevent bleeding and rupturing

Question 44

What treatment has the greatest empirical support in clinical trials for depression following a stroke?

Answer 44

pharmacological treatment

Question 45

Cortical-subcortical lesions lead to better or worse cognitive outcomes in stroke?

Answer 45

Several studies have shown that combined cortical-subcortical lesions are associated with worse cognitive outcomes than cortical or subcortical lesions alone.

Question 46

What accounts for the majority of ischemic childhood stroke?

Answer 46

ICA

cerebral arteriopathy (e.g., vasculitis – blood vessel inflammation which can lead to stenosis/narrowing)

Question 47

What accounts for the majority of hemorrhagic childhood stroke?

Answer 47

HAM

Arteriovenous malformation – which is an abnormal tangle of blood vessels connecting arteries and veins, which disrupts normal blood flow and oxygen circulation and can lead to uncontrollable bleeding or hemorrhaging

Question 48

Risk factors for strokes in adults vs. children:

Answer 48

Traditional adult stroke risk factors such as hypertension, diabetes, smoking, and hypercholesterolemia are uncommon in children. Instead, pediatric stroke risk factors include arteriopathy and vascular malformations, congenital heart disease, sickle cell disease, and hematologic abnormalities among others.

Question 49

The etiology of amnesia most likely to result in confabulation is an

Answer 49

anterior communicating artery (ACoA) aneurysm.

An aneurysm of the ACoA would be an example of a pathology producing diencephalic amnesia with resultant confabulation typically involves frontal systems

Question 50

Hemorrhagic stroke or ischemic stroke has higher mortality rate?

Answer 50

Hemorrhagic

Question 51

What is the most likely cause for transient global amnesia?

Answer 51

basilar artery transient ischemic attack (TIA)

Question 52

What is a transient global amnesia?

Answer 52

episode of confusion that comes on suddenly in a person who is otherwise alert

person is unable to create new memory, so the memory of recent events disappears. You can’t remember where you are or how you got there. You may not remember anything about what’s happening right now. You may keep repeating the same questions because you don’t remember the answers you’ve just been given. You may also draw a blank when asked to remember things that happened a day, a month or even a year ago.

You do remember who you are & address, and you recognize the people you know well. Episodes of transient global amnesia always get better slowly over a few hours.

Question 53

Standard therapy for transient ischemic attack

Answer 53

Aspirin - because it interferes with platelet adhesion

Question 54

Which kind of stroke most often appears as patients awake in the morning?

Answer 54

Cerebral thrombosis

Question 55

Which kind of stroke most often develops during sex?

Answer 55

Subarachnoid hemorrhage