Purpose
In moyamoya vasculopathy, prolonged arterial transit time may increase the arterial spin labeling (ASL) signal heterogeneity, which can be quantitatively expressed by the spatial coefficient ...of variation of ASL-CBF (ASL-sCoV). The aim was to compare the accuracy of ASL-sCoV and ASL-CBF with dynamic susceptibility contrast (DSC)-CBF and time-to-peak (DSC-TTP) in the evaluation of perfusion changes and clinical outcome after encephalo-duro-arterio-myo-synangiosis (EDAMS) in pediatric moyamoya patients.
Methods
A total of 37 children with moyamoya vasculopathy (mean age 6.31 years (1.12–15.42)) underwent ASL and DSC perfusion imaging at 3T before and up to 24 months after EDAMS. Mean DSC-CBF, mean DSC-TTP, mean ASL-CBF, and ASL-sCoV were calculated in middle cerebral artery territories. Generalized linear model analyses were used to evaluate temporal variations of postoperative perfusion changes and to compare these variations between patients developing valid pial collateralization and those without angiographic improvement. Relationship between perfusion parameters and clinical outcome after surgery was tested using multivariate regression analysis.
Results
Significant reduction was observed after EDAMS for ASL-sCoV (
P
= .002; eta-squared (η
2
) = 0.247) and DSC-TTP (
P
< .001; η
2
= 0.415), whereas only a trend of increase was observed for DSC-CBF and ASL-CBF, with larger discrepancy before and 6 months after surgery. At last follow-up, children developing pial collateralization showed lower absolute ASL-sCoV (
P
= .002 Cohen’s d = 0.84) and DSC-TTP (
P
= .027; Cohen’s d = 0.64) and higher DSC-CBF (
P
= .002; Cohen’s d = − 0.55) compared with those without vascular improvement. Low preoperative and early post-surgical ASL-sCoV predicted better long-term neurological outcome (
P
< .001; ß = − 0.631).
Conclusions
ASL-sCoV may contribute to predict surgical outcomes in pediatric moyamoya patients undergoing EDAMS.
This article was published online with incorrect alignment in Table 4. Column and rows are out of order. The correct Table 4 is presented here. The original article has been corrected.
Anti-N-methyl-d-aspartate receptor encephalitis is a central nervous system inflammatory autoimmune disease affecting adults and children. The use of first- and second-line immunotherapies is ...supported. Recent reports suggest the efficacy of bortezomib in severe anti-N-methyl-d-aspartate encephalitis in adult patients not responsive to second-line treatment; there are no data about pediatric patients.
We describe an eight-year-old child with anti-N-methyl-d-aspartate encephalitis not responsive to first- and second-line treatments who experienced marked clinical improvement after bortezomib administration.
Bortezomib is a selective and reversible inhibitor of the 26S proteasome, which is used to treat oncologic and rare autoimmune disorders in pediatric patients. As observed in adult patients, bortezomib administration induced anti-N-methyl-d-aspartate antibody titer decline and clinical improvement with an acceptable risk profile.
This is the first report of the use of bortezomib in children with anti-N-methyl-d-aspartate encephalitis; it could be a useful therapeutic option in children with refractory anti-N-methyl-d-aspartate encephalitis.
Pathogenic variants in the dynamin 1 like gene are related to abnormal mitochondrial dynamics and distributions and are associated to variable clinical phenotypes. A few patients harboring the ...p.Arg403Cys missense variant appears to be different from the classical, more severe phenotypes, showing sudden onset of drug resistant seizures after a previously normal or slightly delayed development.
We report on a boy with abrupt onset of focal status and coma at the age of 13, initially treated as autoimmune encephalitis, with final diagnosis of de novo missense p.Arg403Cys variant in the DNM1L gene.
We compare his clinical, electrophysiological, biochemical, neuroradiological and histopathological picture to the rare cases reported to date and provide diagnostic clues that can help clinicians in differentiate p.Arg403Cys-related phenotype from that of immune-mediated encephalopathies.
The clinical picture related to p.Arg403Cys mutations should be considered alongside acquired pathologies in the differential diagnosis of young patients with focal refractory epilepsy and encephalopathy, also occurring during late childhood or adolescence. Prompt genetic testing allows to avoid unnecessary treatments and procedures and to better define the prognosis and management strategies.
Heterozygous POLR2A variants have been recently reported in patients with a neurodevelopmental syndrome characterized by profound infantile-onset hypotonia. POLR2A encodes the highly conserved RBP1 ...protein, an essential subunit of the DNA-dependent RNA polymerase II.
We investigated a 12-year-old girl presenting with an early-onset encephalopathy characterized by psychomotor delay, facial dysmorphism, refractory epilepsy with variable seizure types, behavioural abnormalities, and sleep disorder. Brain MRI showed a slowly progressive cerebellar atrophy. Trio-exome sequencing (Trio-ES) revealed the de novo germline variant NM_000937.5:c.1370T>C; p.(Ile457Thr) in POLR2A. This variant was previously reported in a subject with profound generalized hypotonia and muscular atrophy by Haijes et al. Our patient displayed instead a severe epileptic phenotype with refractory hypotonic seizures with impaired consciousness, myoclonic jerks, and drop attacks.
This case expands the clinical spectrum of POLR2A-related syndrome, highlighting its phenotypic variability and supporting the relevance of epilepsy as a core feature of this emerging condition.
Abstract
Background
Childhood epilepsies are a heterogeneous group of conditions differing in diagnostic criteria, management, and outcome. Late-infantile neuronal ceroid lipofuscinosis type 2 (CLN2) ...is a neurodegenerative condition caused by biallelic
TPP1
variants. This disorder presents with subtle and relatively non-specific symptoms, mimicking those observed in more common paediatric epilepsies and followed by rapid psychomotor deterioration and drug-resistant epilepsy. A prompt diagnosis is essential to adopt appropriate treatment and disease management strategies.
Methods
This is a prospective, multicentre study on the efficiency of targeted re-sequencing in the early identification of the genetic causes of childhood epilepsy, with particular regard to CLN2. After phenotypic characterization, a 283-gene Next Generation Sequencing panel was performed in 21 Italian children with neurodevelopmental abnormalities, aged between 24 and 60 months, experiencing first unprovoked seizure after 2 years of age.
Results
The average age at enrolment was 39.9 months, with a mean age at seizure onset of 30.9 months and a mean time interval between seizure onset and targeted resequencing of 9 months. Genetic confirmation was achieved in 4 out of 21 patients, with a diagnostic yield of 19%. In one case, the homozygous splice acceptor variant c.509-1G > C in
TPP1
was identified, leading to a CLN2 diagnosis. Three pathogenic variants in
MECP2
were also detected in three patients, including the frameshift variant c.1157_1186delinsA (p.Leu386Hisfs*9) in a girl with negative single gene sequencing. Variants of unknown significance (VUS) were found in 11 out of 21 (52.4%) individuals, whereas no clinically significant variants were observed in the remaining 6 subjects.
Conclusions
Our findings support the efficacy of target re-sequencing in the identification of the genetic causes of childhood epilepsy and suggest that this technique might prove successful in the early detection of CLN2 as well as other neurodevelopmental conditions.
Interstitial 6p25.1p24.3 microdeletions are rare events and a clear karyotype/phenotype correlation has not yet been determined. In this study, we present the clinical and molecular description of a ...child with a
de novo
6p25.1p24.3 microdeletion, characterized by array-CGH, associated with mild intellectual disability, facial dysmorphisms, hypopigmentation of the skin of the abdomen, heart defects, mild pontine hypoplasia and hypotonia. This deleted region contains 14 OMIM genes (
NRN1
,
F13A1
,
RREB1
,
SSR1
,
RIOK1
,
DSP
,
BMP6
,
TXNDC5
,
BLOC1S5
,
EEF1E1
,
SLC35B3
and
HULC)
. To the best of our knowledge until now only six cases have been reported presenting an interstitial microdeletion, but a unique case carries a deleted region containing the same genes of our patient. We compared clinical features and genetic data with that of the previously reported patient. We also analysed the gene content of the deleted region to investigate the possible role of specific genes in the clinical phenotype of our patient.
Schimke Immuno-Osseous Dysplasia (SIOD) is an autosomal recessive multisystem disorder caused by pathogenic variants in the gene SMARCAL1. The clinical picture is characterized by spondyloepiphyseal ...dysplasia resulting in growth failure, nephropathy and T-cell deficiency. Neurologic manifestations include microcephaly, cognitive impairment, migraine-like headaches and cerebrovascular manifestations such as cerebral atherosclerotic vascular disease and reversible cerebral vasoconstriction. The role of SMARCAL1 deficiency in non-vascular neurological complications is still under debate. Epilepsy has been reported in a few patients, even in the absence of brain abnormalities. Data regarding electroencephalographic (EEG) patterns in SIOD are scarce
We describe the clinical, neuroradiological and EEG findings in two unrelated patients with SIOD showing a peculiar pseudo-periodic EEG pattern apparently not related to the cerebrovascular complications, since it was recognized both before and after cerebrovascular events
Our observations support the hypothesis that SMARCAL1plays an important role in neurodevelopment and brain function and expand the spectrum of neurological abnormalities related to SIOD.
Heterogeneous clinical and neuropsychological features, such as intellectual disability, developmental and language delay, hypotonia, and, to a lesser extent, microcephaly that is present in about ...the half of the reported patients, characterize the 3q29 microduplication syndrome with usually a milder phenotype compared with the corresponding 3q29 microdeletion syndrome. The duplications described so far range from 2.3 Mb to 1.6 Mb, spanning from TFRC to BDH1 genes. Here we report on two patients with overlapping interstitial duplications of the 3q29 region differing in size. Patient 1 harboured a common-seized 3q29 microduplication spanning ∼1.6 Mb, while patient 2 carried a very small 3q29 microduplication of 448.8 Kb encompassing only two genes, DLG1 and BDH1. Both patients presented clinical characteristics similar to those reported in the literature in 3q29 microduplication syndrome. Interestingly, heterotopic gray matter nodules were found along the right lateral ventricle on brain MRI in patient 1, thus expanding the neuroradiological phenotype in 3q29 microduplication syndrome, while patient 2 allowed us to define with more precision the smallest region of overlap (SRO). Gene content analysis of the duplicated region suggests that gain-of-dosage of DLG1 and BDH1 may be a good candidate for the main clinical features of this syndrome.