ABSTRACT
Objective:To summarize the clinical features and gene mutation characteristics of a child with mitochondrial enoyl-CoA hydratase short chain 1 deficiency (ECHS1D) caused by enoyl-CoA hydratase short chain 1 ( ECHS1) gene mutation. Methods:The clinical characteristics and genetic test results of a child with ECHS1D who visited the Department of Neurology of Xuzhou Children′s Hospital in January 2021 were retrospectively analyzed, and the clinical features of the disease were also reviewed by searching relevant domestic and foreign literature.Results:The child was a 6 months and 4 days old male, with acute onset, the main clinical manifestation being limb movement disorder after admission. The child had slow motor development, his head was still upright and cannot turn over, the child also cannot sit alone, follow up and make a laugh, and the muscle tension of limbs was increased. The child′s blood lactate was increased to 6.2 mmol/L, which suggested metabolic acidosis, and magnetic resonance imaging (MRI) of the head showed abnormal signals in the basal ganglia on both sides, abnormal enhancement of the meninges of the left cerebral hemisphere. Whole exome sequencing revealed that the child had compound heterozygous mutations in ECHS1 gene, c.563C>T (p.A188V) and c.5C>T (p.A2V), respectively. The child′s father carried c.563C>T mutation, the mother carried c.5C>T mutation, all of which were missense mutations. Conclusions:ECHS1 gene mainly has missense mutations, most of which are compound heterozygous mutations, and a few are homozygous mutations. The ECHS1D caused by ECHS1 gene mutation often affects infants and young children. MRI suggests abnormal signals in the basal ganglia; for cases with the above clinical manifestations and abnormal signals in the basal ganglia on MRI, genetic testing should be considered to confirm the diagnosis.
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Objective To detect kinematics and surface electromyography (sEMG) of upper limbs in normal children and motor-delayed children for clinical assessment. Methods From December, 2015 to June, 2016, twelve healthy children and thirteen children with motor de-velopmental delay less than two years old were analyzed kinematics with Motion Analysis system and sEMG. Results The angle of motion of right shoulder was more in the motor-delayed children than in the normal children (t=2.576, P<0.05). The difference of root mean square values of bilateral triceps brachii was more in the motor-delayed children than in the normal ones (t=2.448, P<0.05). Conclusion Detecting kinematics and sEMG may supply information for early personalized treatment strategy.
ABSTRACT
No abstract available.