Landscape of genetic infantile epileptic spasms syndrome-A multicenter cohort of 124 children from India.

OBJECTIVE: Literature on the genotypic spectrum of Infantile Epileptic Spasms Syndrome (IESS) in children is scarce in developing countries. This multicentre collaboration evaluated the genotypic and phenotypic landscape of genetic IESS in Indian children. METHODS: Between 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 characterization. The multicentric data on the genotypic and phenotypic characteristics of genetic IESS were collated and analyzed. RESULTS: Of 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 (<6 months; 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. SIGNIFICANCE: Our study highlights a heterogenous genetic landscape and phenotypic pleiotropy in children with genetic IESS.

Nutritional Recovery Batwing Dystonia in Infantile Vitamin B12 Deficiency.

The neurocutaneous syndrome of infantile B12 deficiency, more commonly called the infantile tremor syndrome, typically is characterized by developmental delay, sparse hair, hyperpigmentation, and tremors. When treated with injectable B12, the affected babies can develop a peculiar transient "batwing dystonia." This dystonia is possibly a nutritional recovery movement disorder due to basal ganglia dysfunction.

Rare Treatable Cause of Demyelinating Leukoencephalopathy That One Cannot Afford to Miss.

Biotinidase deficiency is a treatable neurometabolic disorder. It usually presents during the first year of life with seizures, ataxia, hypotonia, vision and hearing disturbance, alopecia, and skin rashes. It can have various neuroimaging findings but demyelinating leukoencephalopathy is an unusual finding in children with biotinidase deficiency that can cause diagnostic challenge as it can radiologically mimic perinatal hypoxic-ischemic encephalopathy or other leukodystrophies. It reverses with early diagnosis and treatment with biotin supplementation and the outcome is rewarding.

Profile of Indian Children with Childhood Ataxia and Central Nervous System Hypomyelination/Vanishing White Matter Disease: A Single Center Experience from Southern India.

Background Childhood ataxia with central nervous system hypomyelination (CACH) is a recently described childhood inherited white matter disease, caused by mutations in any of the five genes encoding eukaryotic translation initiation factor ( eIF2B ). Methods Retrospective review of the charts of children with CACH was performed from January 2014 to March 2020 at tertiary care center from Southern India. Diagnosis was based on magnetic resonance imaging (MRI) criteria or genetic testing. Results Total number of children with CACH enrolled were 18. Male/female ratio was 10:8. Mean age of presentation was 37.11 months (range = 6-144 months). Affected siblings were seen in five (28%) cases. All children had spasticity, ataxia, and diffuse white matter changes with similar signal as cerebrospinal fluid on all pulse sequences on MRI brain. Of the 18 children, only nine are alive. Duration of illness among deceased children was 9.6667 months (range = 2-16 months). Waxing and waning of symptoms were seen in seven cases. Genetic analysis of EIF2B gene was performed in five cases, among which three mutations were novel. Conclusion A diagnosis of childhood ataxia with central nervous system hypomyelination should be considered in patients presenting with acute onset neuroregression following infection or trauma with associated neuroimaging showing classical white matter findings.

Siblings with Glutaric Aciduria Type 1 with Atypical Phenotype with Novel Pathogenic Variant in GCDH Gene.

Glutaric aciduria type 1 (GA1) is caused by a deficiency of the enzyme glutaryl CoA dehydrogenase. It generally presents with developmental delay, dystonia, and large head. We are reporting siblings of GA1, presenting with an atypical phenotype with novel pathogenic variant. Thirteen-year-old boy presented with global developmental delay and stiffness of limbs. Examination revealed normocephaly and generalized dystonia. MRI T2WI was suggestive of symmetrical posterior putaminal atrophy. Tandem mass spectroscopy (TMS) and urinary gas chromatography-mass spectrometry (GCMS) were normal. Genetic analysis revealed a novel pathogenic homozygous missense variant in GCDH gene. An 8-year-old girl younger sibling of above child also had developmental delay and dystonia, posterior putamen atrophy in the MRI of brain, and same pathogenic variant in GCDH gene. Parents screening showed heterozygous status in both parents of same pathogenic variant. Any child who presents with global developmental delay with dystonia even with normocephaly, isolated symmetrical posterior putamen changes, with normal TMS and GCMS, a possibility of glutaric aciduria type 1 has to be considered.

Clinical Profile and Outcome of Indian Children with Aromatic L-Amino Acid Decarboxylase Deficiency: A primary CSF Neurotransmitter Disorder Mimicking as Dyskinetic Cerebral Palsy.

Aromatic L-amino acid decarboxylase (AADC) deficiency is a disorder of neurotransmitter synthesis. It presents with psychomotor delay, dystonia, oculogyric crisis, and autonomic features. There is paucity of literature on this disorder. Hence, we are reporting this series with an objective to study profile and outcome of Indian children with AADC deficiency. In this retrospective review, all case records of genetically confirmed cases of AADC deficiency at the pediatric neurology department in a tertiary care hospital, from March 2014 to March 2020, were analyzed. The data were extracted in a predesigned proforma and analyzed. Out of seven cases, five were males. Median age of onset of symptoms was 4 months but median age of diagnosis was 12 months. All of them had developmental delay, oculogyric crisis, dystonia, increased sweating, intermittent fever, feeding and sleep disturbance, irritability, failure to thrive, axial hypotonia with dyskinetic quadriparesis, and normal magnetic resonance imaging (MRI) of brain and electroencephalogram (EEG). All of them were treated with pyridoxal 5-phosphate, trihexyphenidyl and pramipexole and six cases, in addition, were given bromocriptine. One case was additionally treated with selegiline. One case showed good improvement, five showed partial improvement, and one case expired. In conclusion, AADC deficiency should be suspected in any child with dyskinetic quadriparesis, oculogyric crisis, autonomic disturbances like increased sweating, intermittent fever, and sleep disturbance with normal neuroimaging.

Familial Global Developmental Delay Secondary to ß-Mannosidosis.

ß-Mannosidosis is a rare lysosomal storage disorder that is caused by a deficiency of ß-mannosidase activity, which is due to mutations of the MANBA gene. Two Indian siblings born out of a third-degree consanguineous marriage presented during late infancy with global developmental delay. On examination, both the siblings had hypotonia; hepatosplenomegaly was present in the first sibling whereas it was absent in the second sibling. Fundus evaluation, hearing assessment, and skeletal survey were normal in both siblings. Enzyme assay showed the absence of the ß-mannosidase enzyme. Next-generation sequencing showed a homozygous variation of c.1317 + 1G>A in intron 10 of the MANBA (-) gene in the elder sibling. Sanger sequencing confirmed the same mutation in the homozygous state in both siblings and in the heterozygous state in both parents.