Reversible cerebral vasoconstriction syndrome (RCVS) has been well described in adults, but pediatric cases are yet under recognized. We describe two children with RCVS and review similar already published pediatric cases. The first patient was a 10-year-old girl who presented with severe headaches and seizures 3 days after blood transfusion. Brain magnetic resonance imaging (MRI) showed changes compatible with posterior reversible encephalopathy syndrome and subarachnoid hemorrhage. Magnetic resonance angiogram showed diffuse vasoconstriction of multiple cerebral arteries. The second patient was a 9-year-old boy who presented with severe thunderclap headaches. Brain MRI showed isolated intraventricular hemorrhage. Computed tomography/MR angiogram and digital subtraction angiogram were normal. A week later, he developed focal neurological deficits. Repeated MR angiogram showed diffuse vasospasm of multiple intracranial arteries. Both children recovered completely. A clinico-radiological review of previously reported childhood RCVS is provided.
ObjectiveLiterature on the genotypic spectrum of Infantile Epileptic Spasms Syndrome (IESS) in children is scarce from developing countries. This multicentre collaboration evaluated the genotypic and phenotypic landscape of genetic IESS in Indian children.MethodsBetween January 2021 and June 2022, this cross‐sectional, study was conducted at six centers in India. Children with genetically confirmed IESS, without definite structural‐genetic and structural‐metabolic etiology, were recruited and underwent detailed in‐person assessment for phenotypic characterisation. The multicentric data on the genotypic and phenotypic characteristics of genetic IESS were collated and analysed.ResultsOf 124 probands (60% boys, history of consanguinity in 15%) with genetic IESS, 105 had single gene disorders (104 nuclear and one mitochondrial), including one with concurrent triple repeat disorder (fragile X syndrome), and 19 had chromosomal disorders. Of 105 single gene disorders, 51 individual genes (92 variants including 25 novel) were identified. Nearly 85% of children with monogenic nuclear disorders had autosomal inheritance (dominant‐55.2%, recessive‐14.2%), while the rest had X‐linked inheritance. Underlying chromosomal disorders included trisomy 21 (n=14), Xq28 duplication (n=2), and others (n=3). Trisomy 21 (n=14), ALDH7A1(n=10), SCN2A (n=7), CDKL5 (n=6), ALG13 (n=5), KCNQ2 (n=4), STXBP1 (n=4), SCN1A (n=4), NTRK2 (n=4), and WWOX (n=4) were the dominant single gene causes of genetic IESS. The median age at the onset of epileptic spasms (ES) and establishment of genetic diagnosis was 5 and 12 months, respectively. Pre‐existing developmental delay (94.3%), early age at onset of ES (<6mo; 86.2%), central hypotonia (81.4%), facial dysmorphism (70.1%), microcephaly (77.4%), movement disorders (45.9%) and autistic features (42.7%) were remarkable clinical findings. Seizures other than epileptic spasms were observed in 83 children (66.9%). Pre‐existing epilepsy syndrome was identified in 21 (16.9%). Nearly 60% had an initial response to hormonal therapy.SignificanceOur study highlights a heterogenous genetic landscape and phenotypic pleiotropy in children with genetic IESS.
Pediatric movement disorders are commonly encountered clinical entities in the pediatric outpatient department. These disorders are a heterogenous group of disorders and may represent an underlying genetic disorder, a metabolic disorder or a hypoxic-ischemic insult during the perinatal period. Hyperkinetic movement disorders are more common as compared to hypokinetic disorders. This is unlike the situation in adult movement disorders where hypokinetic disorders are more often seen. A child's nervous system is more prone to hypoxic-ischemic insults due to its higher metabolic demands and the presence of an immature blood-brain barrier. The commonest movement disorders seen are tics, dystonia and chorea. Myoclonus is commonly associated with epilepsy syndromes. The aetiology of paediatric movement disorders depends on their course, their static or progressive nature, and whether an isolated symptom or an association with other neurological symptoms is present. The clue to the diagnosis is the proper recognition of the movement prevalent in the disorder.
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