[Clinical and genetic analysis of childhood-onset myoclonus dystonia syndrome caused by SGCE variants].

To explore the clinical characteristics and genotyping results of childhood-onset myoclonus dystonia syndrome caused by SGCE variants. The clinical data of 9 children with SGCE-related myoclonus dystonia syndrome admitted at either the Department of Neurology, Beijing Children's Hospital, Capital Medical University or the Department of Pediatrics, Peking University First Hospital from May 2018 to October 2019 were collected and the patients were followed up. The definite diagnosis was made on the basis of whole exome sequencing and multiple ligation-dependent probe amplification. The clinical features and gene test results were analyzed retrospectively. Data of 9 patients (4 boys and 5 girls) diagnosed as myoclonus dystonia syndrome caused by SGCE variants were collected. The onset age ranged from 1 year to 3 years and 2 months. The first symptom was myoclonus in 4 cases, while dystonia in the remaining 5 cases. In the course of the disease, 9 cases had myoclonus and 8 had dystonia. Myoclonic jerks were characterized by involuntary jerks in both upper limbs in 8 patients. Six patients had involuntary jerks of lower limbs, resulting in gait instability or even falling. The myoclonus was exacerbated during the fine motor activities, emotional stress or fatigue. Dystonia was characterized by abnormal gait, including 5 cases with right leg dystonia, and 3 cases with the left leg dystonia. Three probands had a positive family history. Intellectual development was normal in all cases. There was no obvious abnormality in video-electroencephalogram (EEG) during both ictal and interictal periods. Electromyography (EMG) and brain magnetic resonance imaging (MRI) of 9 patients were normal. Nine patients carried SGCE gene variants, including 3 frame shift variants, 2 nonsense variants, 2 missense variants, 1 fragment deletion variant and 1 splice site variant. Seven variants were inherited paternally, and 2 variants were de novo. Madopar was used in 8 patients, and nitrazepam in 4 patients, leading to the decrease in the myoclonus jerks and improvement of gait in 6 and 2 patients, respectively. SGCE gene variants can cause myoclonus dystonia syndrome. The onset of the disease may occur at infancy or preschool age, with either myoclonic jerks or dystonia as the initial symptom. Non-epileptic myoclonus is the prominent symptom, with upper limb mainly involved. Most of the patients have the accompanying symptoms of dystonia, and some of them may have spontaneous symptom relief. SGCE gene is imprinted maternally, and the inherited variants of SGCE are paternal in origin.