Neuropediatrics
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Mutations in B3GALNT2, encoding a glycosyltransferase enzyme involved in α-dystroglycan glycosylation, have been recently associated with dystroglycanopathy, a well-recognized subtype of congenital muscular dystrophy (CMD). Only a few cases have been reported with B3GALNT2-related dystroglycanopathy with variable severity ranging from mild CMD to severe muscle-eye-brain disease. Here, we describe a child with a novel homozygous nonsense mutation in B3GALNT2. ⋯ These findings could expand the phenotype of B3GALNT2-related dystroglycanopathy. In this report, we also provide a detailed review of previously reported cases with B3GALNT2-related dystroglycanopathy and compare them to our reported child. In addition, we study the genotype-phenotype correlation in these cases.
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Myelin oligodendrocyte glycoprotein (MOG) antibodies (abs) are present in one third of all children with an acute demyelinating syndrome (ADS). MOG-abs can be found in acute disseminated encephalomyelitis (ADEM), transverse myelitis, isolated optic neuritis (ON), or recurrent demyelinating diseases, such as multiphasic neuromyelitis optica spectrum disorders (NMOSD) without aquaporin-4 (AQP4) abs or multiphasic ADEM (MDEM), but rarely in children who subsequently develop multiple sclerosis (MS). ⋯ MOG-abs, initially thought to be associated with a benign disease course, are found in a substantial proportion of children with relapsing episodes associated with high and persisting MOG-ab titers. This review describes, in particular, the increasing spectrum of phenotypes associated with MOG-abs with a focus on clinical characteristics, radiological features, and therapeutic aspects.
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The Aicardi-Goutières syndrome (AGS) was first described in 1984, and over the following years was defined by the clinical and radiological features of an early onset, severe, neurologic disorder with intracranial calcification, leukoencephalopathy, and cerebral atrophy, usually associated with a cerebrospinal fluid (CSF) pleocytosis and elevated CSF interferon α activity. It is now recognized that mutations in any of the following seven genes may result in the classical AGS phenotype: TREX1 (AGS1), RNASEH2A (AGS2), RNASEH2B (AGS3), RNASEH2C (AGS4), SAMHD1 (AGS5), ADAR1 (AGS6), and IFIH1 (AGS7). All of these genes encode proteins involved in nucleotide metabolism and/or sensing. ⋯ As more patients harboring mutations in these genes have been described, in particular facilitated by the advent of whole exome sequencing, a remarkably broad spectrum of associated neurologic phenotypes has been revealed, which we summarize here. We propose that the term AGS has continued clinical utility in the designation of a characteristic phenotype, which suggests relevant diagnostic investigations and can inform outcome predictions. However, we also suggest that the use of the term "type 1 interferonopathy" is appropriate for the wider spectrum of disease consequent upon dysfunction of these genes and proteins since it implies the possibility of a common "anti-interferon" approach to therapy as such treatments become available.
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Review
Acute ataxia in children: approach to clinical presentation and role of additional investigations.
Acute ataxia is a fairly common emergency that confronts the pediatric neurologist in daily life. The differential diagnosis of acute pediatric ataxia is wide, but informed history and careful clinical examination can narrow it and help target investigations. ⋯ Aspects of treatment and prognosis are also mentioned. Diseases with potentially high morbidity and mortality, such as acute cerebellitis, opsoclonus-myoclonus syndrome, and cerebellar stroke, receive particular attention.
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Review Comparative Study
Primary versus secondary headache in children: a frequent diagnostic challenge in clinical routine.
A sensitive and specific triage of patients with primary or secondary headache is a major concern in evaluating pediatric headache patients. History and physical examination are the major tools for differentiating primary headache disorders from symptomatic headaches caused by defined pathologies. If the criteria of the International Headache Society for a primary headache disorder are met, no further investigations are necessary. ⋯ Offering neuroimaging implicates the important issues of incidental findings and of "false reassurance." These risks should be discussed with patients and parents before the investigation. In any pediatric headache patient, regular clinical reevaluations should be warranted, even if neuroimaging is normal. The value of clinical follow-up examinations for a reasonable and reliable assessment of the patients cannot be overestimated.