Purpose-Much has transpired since the last scientific statement on pediatric stroke was published 10 years ago. Although stroke has long been recognized as an adult health problem causing substantial morbidity and mortality, it is also an important cause of acquired brain injury in young patients, occurring most commonly in the neonate and throughout childhood. This scientific statement represents a synthesis of data and a consensus of the leading experts in childhood cardiovascular disease and stroke. Methods-Members of the writing group were appointed by the American Heart Association Stroke Council's Scientific Statement Oversight Committee and the American Heart Association's Manuscript Oversight Committee and were chosen to reflect the expertise of the subject matter. The writers used systematic literature reviews, references to published clinical and epidemiology studies, morbidity and mortality reports, clinical and public health guidelines, authoritative statements, personal files, and expert opinion to summarize existing evidence and to indicate gaps in current knowledge. This scientific statement is based on expert consensus considerations for clinical practice. Results-Annualized pediatric stroke incidence rates, including both neonatal and later childhood stroke and both ischemic and hemorrhagic stroke, range from 3 to 25 per 100 000 children in developed countries. Newborns have the highest risk ratio: 1 in 4000 live births. Stroke is a clinical syndrome. Delays in diagnosis are common in both perinatal and childhood stroke but for different reasons. To develop new strategies for prevention and treatment, disease processes and risk factors that lead to pediatric stroke are discussed here to aid the clinician in rapid diagnosis and treatment. The many important differences that affect the pathophysiology and treatment of childhood stroke are discussed in each section. Conclusions-Here we provide updates on perinatal and childhood stroke with a focus on the subtypes, including arterial ischemic, venous thrombotic, and hemorrhagic stroke, and updates in regard to areas of childhood stroke that have not received close attention such as sickle cell disease. Each section is highlighted with considerations for clinical practice, attendant controversies, and knowledge gaps. This statement provides the practicing provider with much-needed updated information in this field. (Stroke. 2019;50:e00-e00.
Background-The aim of this study was to estimate the impact of thrombophilia on risk of first childhood stroke through a meta-analysis of published observational studies. Methods and Results-A systematic search of electronic databases (Medline via PubMed, EMBASE, OVID, Web ofScience, The Cochrane Library) for studies published from 1970 to 2009 was conducted. Data on year of publication, study design, country of origin, number of patients/control subjects, ethnicity, stroke type (arterial ischemic stroke [AIS], cerebral venous sinus thrombosis [CSVT]) were abstracted. Publication bias indicator and heterogeneity across studies were evaluated, and summary odds ratios (ORs) and 95% confidence intervals (CIs) were calculated with fixed-effects or random-effects models. Twenty-two of 185 references met inclusion criteria. Thus, 1764 patients (arterial ischemic stroke [AIS], 1526; cerebral sinus venous thrombosis [CSVT], 238) and 2799 control subjects (neonate to 18 years of age) were enrolled. No significant heterogeneity was discerned across studies, and no publication bias was detected. A statistically significant association with first stroke was demonstrated for each thrombophilia trait evaluated, with no difference found between AIS and CSVT. Summary ORs (fixed-effects model) were as follows: antithrombin deficiency, 7.06 (95% CI, 2.44 to 22.42); protein C deficiency, 8.76 (95% CI, 4.53 to 16.96); protein S deficiency, 3.20 (95% CI, 1.22 to 8.40), factor V G1691A, 3.26 (95% CI, 2.59 to 4.10); factor II G20210A, 2.43 (95% CI, 1.67 to 3.51); MTHFR C677T (AIS), 1.58 (95% CI, 1.20 to 2.08); antiphospholipid antibodies (AIS) [CSVT]) is estimated to be between 2.6 and 6.4 per 100 000 per year, reflecting a trend toward a higher frequency in more current literature. 1-3 Underlying conditions in children with symptomatic cerebrovascular accidents include congenital heart malformations, hemolytic anemias, and collagen vascular diseases, as well as some rare inborn metabolic disorders. 4 In addition, risk factors include trauma and infectious diseases. Apart from acquired thrombophilic risk factors such as the presence of antiphospholipid antibodies, 5,6 inherited thrombophilia, particularly antithrombin, protein C, and protein S deficiency, variants of coagulation factor V (G1691A) and factor II (G20210A), and elevated lipoprotein(a), have been found in small case series and case-control studies to be associated with AIS or CSVT in infants and children. Furthermore, an association of the thermolabile MTHFR C677T genotype with stroke is controversial in both adults and children. 5353 In fact, the increased likelihood of having a blood clot in the vasculature is related to elevated homocysteine levels, and mutations in the MTHFR gene only exploit their effect by contributing to the elevated homocysteine plasma level. Because adequate folate levels essentially cancel out the impaired regulation of homocysteine induced by MTHFR mutations, not all people will develop high homocysteine levels. [53][54][55][56] , Editori...
Background Cerebral arteriopathies, including an idiopathic focal cerebral arteriopathy of childhood (FCA), are common in children with arterial ischemic stroke (AIS) and strongly predictive of recurrence. To better understand these lesions, we measured predictors of arteriopathy within a large international series of children with AIS. Methods and Results Between 1/2003 and 7/2007, 30 centers within the International Pediatric Stroke Study (IPSS) enrolled 667 children (29 days-19 years of age) with AIS and abstracted clinical and radiographic data. Cerebral arteriopathy and its subtypes were defined using published definitions; FCA was defined as cerebral arterial stenosis not attributed to specific diagnoses such as moyamoya, arterial dissection, vasculitis, or post-varicella angiopathy. We used multivariate logistic regression techniques to determine predictors of arteriopathy and FCA among those subjects who received vascular imaging. The authors had full access to and take full responsibility for the integrity of the data. All authors have read and agree to the manuscript as written. Of 667 subjects, 525 had known vascular imaging results, and 53% of those (n=277) had an arteriopathy. The most common arteriopathies were FCA (n=69, 25%), moyamoya (n=61, 22%), and arterial dissection (n=56; 20%). Predictors of arteriopathy include early school age (5-9 years), recent upper respiratory infections (URI), and sickle cell disease, while prior cardiac disease and sepsis reduced the risk of arteriopathy. The only predictor of FCA was recent URI. Conclusions Arteriopathy is prevalent among children with AIS, particularly those presenting in early school age, and those with a history of sickle cell disease. Recent URI predicted cerebral arteriopathy, and FCA in particular, suggesting a possible role for infection in the pathogenesis of these lesions.
Background and Purpose The implementation of uniform nomenclature and classification in adult arterial ischemic stroke (AIS) has been critical for defining outcomes and recurrence risks according to etiology and in developing risk-stratified treatments. In contrast, current classification and nomenclature in childhood AIS are often overlapping or contradictory. Our purpose was to develop a comprehensive consensus-based classification system for childhood AIS. Methods Utilizing a modified-Delphi method, members of the International Pediatric Stroke Study (IPSS) developed the Childhood AIS Standardized Classification and Diagnostic Evaluation (CASCADE) criteria. Two groups of pediatric stroke specialists from the IPSS classified seven test cases using two methods each: 1) classification typical of the individual clinician’s current clinical practice, 2) classification based on the CASCADE criteria. Group 1 underwent in-person training in the utilization of the CASCADE criteria. Group 2 classified the same cases via an online survey including definitions but without training. Inter-rater reliability (IRR) was assessed via multi-rater unweighted kappa statistic. Results In Group 1 (with training), IRR was improved using CASCADE criteria (κ=0.78, 95% CI=[0.49, 0.94]) compared to typical clinical practice (κ=0.40, 95%CI=[0.11, 0.60]). In Group 2 (without training), IRR was lower than among trained raters, (κ=0.61, 95%CI=[0.29,0.77]); but higher than current practice (κ=0.23, 95%CI=[0.03,0.36]). Conclusions A new, consensus-based classification system for childhood AIS, the CASCADE criteria, can be used to classify cases with good IRR. These preliminary findings suggest that the CASCADE criteria may be particularity useful in the setting of prospective multicenter studies in childhood-onset AIS, where standardized training of investigators is feasible.
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