How does the cause of pediatric stroke differ from adult stroke?

While adult strokes are primarily due to atherosclerosis and hypertension leading to ischemic or hemorrhagic events, pediatric strokes often result from congenital or genetic conditions, infections, heart diseases, and arteriopathies. Additionally, trauma is a more significant factor in pediatric stroke etiology compared to adults.

How does trauma contribute to pediatric stroke?

Traumatic injuries to the head or neck can result in vascular damage, dissection, or increased intracranial pressure, which may precipitate a stroke. Although less common, trauma-related strokes require prompt medical evaluation and intervention.

What are arteriopathies, and how do they cause pediatric stroke?

Arteriopathies refer to diseases affecting the arteries supplying the brain. In children, conditions like Moyamoya disease, transient cerebral arteriopathy, or fibromuscular dysplasia can cause narrowing, inflammation, or abnormal vessel formation, leading to reduced blood flow or vessel rupture and subsequent stroke.

ISCHEMIC STROKE

Pediatric stroke

David Goldemund M.D.
Updated on 17/09/2024, published on 13/09/2024

AHA/ASA (2019) – Management of Stroke in Neonates and Children

stroke in children, while rare, can have significant significant morbidity/mortality
- greater brain plasticity in children may help mitigate the impact of stroke and increase the potential for recovery
- despite that, stroke often results in substantial motor, b behavioral, and neurocognitive impairment requiring long-term treatment [Kinney, 2018] [DaVeber, 2000]
the pathophysiology of pediatric stroke differs from that of adults (often related to arteriolopathy and atherosclerosis) due to distinct and broader etiologic factors
- understanding the etiology is crucial for early diagnosis, appropriate acute treatment, and prevention
symptoms can be subtle or mimic other pediatric conditions, delaying recognition
acute management strategies are extrapolated from adult studies due to the limited direct research in pediatric stroke; specific considerations of pediatric care are required

Epidemiology

incidence
- ischemic stroke – 1.2 to 2.4 per 100,000 children per year; higher incidence in neonates 13 per 100,000 live births
  - ischemic stroke accounts for only 55% of all strokes (compared to ~ 80% in adults)
- hemorrhagic stroke – 1.1 to 2.9 per 100,000 children per year; accounts for approximately 50% of all pediatric strokes, particularly in older children and adolescents
age distribution
- neonatal period (0-28 days) – highest risk, incidence up to 25/100.000 births [Panagopoulos,2021]
- beyond infancy – risk decreases but remains significant through childhood and adolescence
recurrence
- ischemic stroke recurrence: ~ 10-20%
- highest in patients with underlying arteriopathies, congenital heart disease, or prothrombotic disorders
morbidity
- neurological sequelae such as hemiparesis, cognitive deficits, epilepsy, and speech/language impairments are common.
- up to 60-70% of pediatric stroke survivors experience long-term neurological impairments
mortality
- the mortality rate of pediatric stroke is lower than in adults (~ 3-6%); however, stroke remains among the top 10 causes of death in children [Panagopoulos,2021]

Stroke subtypes

arterial ischemic stroke
- the most common form of pediatric stroke
- usually associated with arteriopathies, cardiac anomalies, and thrombophilia (prothrombotic disorders)
cerebral sinus venous thrombosis (CSVT)
- risk factors include dehydration, infection, and hematologic disorders
hemorrhagic stroke
- intracranial hemorrhage often results from arteriovenous malformations (AVMs), aneurysms, trauma, coagulopathies, or brain tumors
- common in older children and adolescents

Etiopathogenesis

Neonates:

congenital heart disease (CHD)
perinatal asphyxia
infections (e.g., sepsis, meningitis)
coagulation disorders (e.g., protein C or S deficiency)
maternal complications (e.g., preeclampsia, chorioamnionitis)

Children (beyond the neonatal period):

arteriopathies (e.g., moyamoya disease, dissection, FCA)
cardiac disorders (e.g., congenital heart disease, arrhythmias)
hematologic conditions (e.g., sickle cell disease, thrombophilia)
infections (e.g., varicella-zoster virus, meningitis, endocarditis)
trauma (e.g., head or neck trauma leading to arterial dissection)
autoimmune diseases (e.g., systemic lupus erythematosus)
genetic disorders (e.g., mitochondrial diseases, MELAS syndrome)

Adolescents

arteriopathy, trauma
hypercoagulable states (e.g., hormonal contraceptive use in females with thrombophilia)

Cardiogenic causes

congenital heart disease (CHD)
- atrial septal defect (ASD)
- patent foramen ovale (PFO)
- transposition of the great arteries
- coarctation of the aorta
cardiomyopathy
myocarditis
infective endocarditis – can lead to septic emboli
arrhythmias (e.g., atrial fibrillation)

Mechanisms of cardiogenic stroke

paradoxical embolism – right to left shunt (e.g., patent foramen ovale, atrial septal defect) allows venous thrombi to bypass the lungs and enter systemic circulation, leading to embolic stroke
cardioembolic stroke
- thrombus formation in dilated or dysfunctional cardiac chambers (e.g., atrial fibrillation, ventricular dysfunction, cardiomyopathy, myocarditis).
- mechanical prosthetic valves used in surgical correction increase the risk of thromboembolism
cerebral hypoperfusion:
- chronic hypoxemia and reduced cerebral perfusion may lead to ischemic stroke, particularly in cyanotic CHD (e.g., Tetralogy of Fallot).
perioperative strokes due to embolization or hypoperfusion

Vascular causes

arterial dissection – trauma or spontaneous dissection of cerebral arteries can result in ischemic stroke
cerebral arteriopathy
- Moyamoya disease
- Focal Cerebral angiopathy (FCA)
- fibromuscular dysplasia (FMD)
intracranial atherosclerosis – rare, can occur in the context of genetic syndromes
vasculitis – inflammation of blood vessels, which can cause their stenosis or occlusion

Hematological Conditions

Sickle Cell Disease (SCD) – can cause both ischemic and hemorrhagic strokes due to vaso-occlusive events.
polycythemia – elevated blood viscosity can contribute to thrombotic events
hypercoagulable states (inherited x acquired) – including Factor V Leiden mutation, protein C or S deficiency

Genetic and Metabolic Disorders

homocystinuria
mitochondrial diseases (e.g. MELAS)
genetic small vessel diseases

Cryptogenic stroke

in some cases, no definitive cause is identified (TOAST 5)

Clinical Presentation

diagnosis is often delayed:
- because symptoms may be non-specific, subtle, and easily overlooked
- due to a lack of awareness among caregivers and healthcare providers
older children present with typical focal signs and symptoms, such as sudden-onset hemiparesis, altered consciousness, speech or visual disturbances, etc.
neonatal strokes may present with seizures, lethargy, poor feeding, irritability, or asymmetry in limb movements
late diagnosis may delay or preclude recanalization therapy

Diagnostic evaluation

Diagnosing stroke

medical history (neonatal history, congenital heart defects, recent infection or trauma, etc.)
rapid general and neurologic examination (NIHSS)
parenchymal and vascular imaging (preferably DWI)
EEG – if seizures are present or to differentiate from epileptic events

→ Neuroimaging in pediatric stroke

Diagnosing stroke mechanism and etiology

family history (thrombophilia, genetic disorders, etc.)
lab tests
- complete blood count (CBC) – identify anemia, polycythemia, or infection
- electrolytes and metabolic panel
- coagulation tests
- thrombophilia screening – factor V Leiden, protein C and S levels, antithrombin III
- additional test (tailored based on clinical clues)
  - CSF analysis
  - metabolic diseases screening (homocysteine, methionine, lactate, etc.)
  - genetic testing (inherited arteriopathies or metabolic disorders)
  - blood cultures (if infective endocarditis is suspected)
  - serology (varicella, HIV, borrelia, etc.)
vascular imaging (focused on the detection of vasculopathies)
cardiac evaluation
- ECG
- TransThoracic Echocardiogram (TTE) (screening for structural heart defects or intracardiac thrombi)
- TransEsophageal Echocardiogram (TEE)

→ Etiologic classification of ischemic stroke

Differential diagnosis

the incidence of stroke mimics in children is relatively high (up to 44% according to the TIPS trial and over 70% according to other sources) [DeLaroche, 2017]
stroke mimics include:
- post-ictal Todd’s paralysis
- migraine
- functional (psychogenic) disorders (up to 20%!) [DeLaroche, 2017]
- methotrexate toxicity
- PRES (Posterior Reversible Encephalopathy Syndrome)
- demyelinating diseases
- infections
therefore, clear evidence of ischemic etiology is required to justify the indication of recanalization therapy (it is optimal to see a lesion on DWI + occlusion on MRA)

Management

management of pediatric stroke encompasses acute recanalization interventions, supportive care, rehabilitation, and secondary prevention

Acute stroke management

→ Recanalization therapy in pediatric stroke

Supportive care and rehabilitation

Stroke prevention

preventive strategies depend on the identified underlying etiology
antiplatelet agents or anticoagulants
specific medication (like hydroxyurea in SCD)
surgical intervention might be necessary for some vascular or cardiac anomalies
- the safety and efficacy of PFO closure procedures in children are less well-established compared to adults
- bypass surgery in moyamoya

PFO in children

PFO closure may be considered for older children (age ≥16 years) who have had a cryptogenic stroke
evidence in children is weak, and a personalized approach is necessary (Saharan, 2022)
for children, especially younger ones, the management typically involves careful evaluation of other stroke causes
if a PFO is suspected to be causally related to the stroke, and if the child has had recurrent strokes despite adequate medical therapy, then closure might be considered

Prognosis

prognosis varies based on the cause and timeliness of intervention, with early diagnosis often leading to better outcomes.