Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004352 (autism)
 32,579 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An 11-year-old girl with congenital myotonic dystrophy and infantile autism was reported. Her mother also suffered from typical myotonic dystrophy. Since her birth, the patient had been floppy, and showed bilateral talipes equinus at 1 year of age. Her subsequent psychomotor and speech development has been retarded. She showed autistic behavior and persistence to the sameness before 2 years old. She was admitted to Sawarabien at the age of 10 years. She could not talk anything but could understand simple, oral messages. Although she had severe degree of mental retardation, her ability for matching figures was relatively well reserved. Her autism was so manifest that it could not be explained by the degree of mental retardation. Neurological examinations revealed that she had facial diplegia, inverted V-shaped mouth, high-arched palate, talipes equinus, percussion myotonia of the tongue, generalized muscular atrophy and weakness, lordosis, areflexia, and congenital cataracta. The serum CPK was slightly elevated. EMG showed a myopathic pattern but did not show any myotonic discharge yet. The brachioradial muscle was biopsied and examined by light- and electron-microscopy. It mainly showed mild varieties of muscle fiber diameter and internal nuclei. Ultrastructurally, irregularly indented central nuclei and perinuclear degeneration of myofibrils associated with secondary lysosomes, lipid droplets and glycogen granules were revealed. Ventricular dilatation and some dysfunction of the brain were also revealed by CT scan and EEG respectively. The present case suggests that congenital myotonic dystrophy can be added into the disease group associated with infantile autism.
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PMID:[A case of congenital myotonic dystrophy with infantile autism]. 278 60

The suggested link between autism and cerebellar dysfunction formed the background for a Swedish clinical study in 2001. Thirty-two children (17 females, 15 males; mean age 12y, SD 3y 10mo; range 6 to 21y) with a clinical suspicion of non-progressive congenital ataxia were examined, and parents were interviewed about the presence of neuropsychiatric problems in the child. Twelve children had simple ataxia, eight had ataxic diplegia, and 12 had 'borderline' ataxia. All but one of the 32 children had a mild to moderate gross motor disability according to Gross Motor Function Classification System (15 were categorized as level I, 16 as level II, and one child as level IV). Neuroimaging and neuropsychological testing were achieved in most cases. There was a strong association between learning disability* and autism spectrum disorder (often combined with hyperactivity disorder) on the one hand, and both simple and borderline 'ataxia' on the other, but a weaker link between ataxic diplegia and neuropsychiatric disorders. A correlation between cerebellar macropathology on neuroimaging and neuropsychiatric disorders was not supported. Congenital ataxia might not be a clear-cut syndrome of cerebellar disease, but one of many signs of prenatal events or syndromes, leading to a complex neurodevelopmental disorder including autism and learning disability.
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PMID:Ataxia, autism, and the cerebellum: a clinical study of 32 individuals with congenital ataxia. 1573 17

We report the case of a Caucasian Spanish origin female who showed severe psychomotor developmental delay, hypotonia, strabismus, epilepsy, short stature, and poor verbal language development. Brain magnetic resonance imaging scans showed thickened corpus callosum, cortical malformations, and dilated and abnormal configuration of the lateral ventricles without hydrocephalus. Whole-exome sequence uncovered a de novo variant in the microtubule associated serine/threonine kinase 1 gene (MAST1; NM_014975.3:c.1565G>A:p.(Gly522Glu)) that encodes for the MAST1. Only 12 patients have been identified worldwide with 10 different variants in this gene: six patients with mega-corpus-callosum syndrome with cerebellar hypoplasia and cortical malformations; two patients with microcephaly and cerebellar hypoplasia; two patients with autism, one patient with diplegia, and one patient with microcephaly and dysmorphism. Our patient shows a new phenotypic subtype defined by mega-corpus-callosum syndrome with cortical malformations without cerebellar hypoplasia. In conclusion, our data expand the phenotypic spectrum associated to MAST1 gene variants.
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PMID:MAST1 variant causes mega-corpus-callosum syndrome with cortical malformations but without cerebellar hypoplasia. 3219 73