ObjectiveTo investigate the relationship between PIGA gene mutation and early-onset epileptic encephalopathy (EOEE).MethodsThe clinical materials of a EOEE children with PIGA gene mutation who admitted to Guangdong Sanjiu Brain Hosipital Epilepsy Pediatric in March 2016 were retrospectively analyzed. The databases of Wanfang, CNKI and PubMed were also reviewed to give a summary.ResultsThe child’s onset age was before 1-year-old, who has a family history of epilepsy. Electrophysiological and clinical diagnosis were EOEE, auxiliary examination of genetic metabolism, urine organic acids, blood biochemistry and other tests showed no abnormalities. Epilepsy gene detection found that PIGA gene has a new missense mutation, in line with the X-linked inheritance. The mutations leading to EOEE has been reported in foreign literature, but rarely reported in China.ConclusionThe new mutations of X-linked PIGA gene are more likely to be the causative genes of some.
ObjectiveThe study aimed to investigate the clinical characteristics of epilepsy patients with DEPDC5 mutation, and to improve the understanding of familial hereditary focal epilepsy.MethodsThree families with familial hereditary focal epilepsy were enrolled in this study from September 2014 to September 2017 at the Sanjiu Brain Hospital of Guangdong Province. Epilepsy-related gene in peripheral blood was detected by the second generation sequencing. The medical history, family history, magnetic resonance imaging, electroencephalo-groph, treatment programs and other data were collected and aralyzed.ResultsThere were 8 patients in the three families, seizures of whom originate mostly from the frontal or temporal lobe. Cognitive function and other system function was basically normal fron patients treated with antiepilepsy drugs.ConclusionsThe mutations of DEPDC5 gene are common in familial hereditary focal epilepsy, which leads to the main clinical symptom of complex partial seizure. Antiepilepsy drug therapy is effective to most patients. However, to those drug resistant patients, prognosis can improved by surgical treatment.
ObjectiveTo improve the knowledge of a rare disease named pyridoxine-dependent epilepsy.MethodsHigh-throughput sequencing and Sanger sequencing were used to validate the genes of epilepsy. Mutation gene validation was performed on two probands and their parents. Analyze clinical manifestations, electroencephalogram (EEG), imaging and prognostic features of the two probands.ResultsProbands 1, seizure onset at 4 months, progress as drug-refractory epilepsy, manifested as seizures types origin of multi-focal lesions. Head MRI and fluorodeoxyglucose-positron-based tomography (FDG-PET) were both normal. Gene detection showed that Aldehydedehydrogenase (ALDH7A1) gene has a complex heterozygous mutation contain c.1442G> and c.1046C> T.Proband 2, seizure onset at 5 months, manifested as a tonic-clonic seizure. Intermittent EEG and head MRI were both normal. Genotyping revealed ALDH7A1 gene contain a complex heterozygous mutation c.1547A> G and c.965C> T. Two cases were both seizure free by vitamin B6 therapy and gradually reduce the antiepileptic drugs.ConclusionsPyridoxine-dependent epilepsy may be late onset, some patient can be atypical and early experimental treatment can help to identify and the diagnosis should be confirmed by gene test.
ObjectiveTo improve the understanding of clinicians by reports and literature review of patients with rare diseases of Menkes disease.MethodsHigh-throughput sequencing and Sanger sequencing were used to verify the genes of epilepsy, and the mutations were verified in three probands and two parents. The patient's clinical manifestations, EEG, imaging, gene and prognostic characteristics were analyzed.ResultsAll the three patients developed onset in infancy, with hair thinning and curling, and various forms of seizures. Three patients had epileptiform discharges during the EEG interval, and all clinical seizures were recorded. Skull MR showed white matter long T1, long T2 abnormal signal, cerebral artery tortuosity, proband 3 appeared subdural effusion. Three patients had poor efficacy after taking anti-epileptic drugs. The proband one and the proband two did not show significant progress after using histidine copper, but could not alleviate the existing neurological damage.ConclusionMenkes disease occurs frequently in infants, clinical manifestations may be different, some clinical manifestations may be atypical, and currently it is an incurable disease, but the use of histidine copper in the neonatal period can improve survival and reduce nervous system injury. It should be diagnosed early. and the treatment of indications should not be guided by the patient's genotype.