Rationale: Tuberous sclerosis complex (TSC) is a relatively rare, autosomal dominant, and progressive neurocutaneous disorder involving multiple organs. Heterozygous mutations in the TSC1 gene located on chromosome 9 (9q34.13) or the TSC2 gene located on chromosome 16 (16p13.3) have been shown to be responsible for this disorder. The most common clinical manifestations are abnormalities of the skin, brain, kidney, heart, and lungs. Although all seizure types have been observed in TSC patients, the present case is the first in the literature to present with convulsive status epilepticus followed by hypoxic cerebropathy. Patient concerns: A 33-month-old girl presented with fever and seizure followed by unconsciousness for 6 hours. Physical examination showed 4 hypopigmented macules with diameters exceeding 5 mm. Initial magnetic resonance imaging of the brain revealed diffuse edema in the bilateral cerebral cortex, cortical tubers, and subependymal nodules. Video electroencephalography showed no epileptiform activity, but diffuse slow waves intermixed with small fast waves were seen for all leads. Computed tomography brain scanning revealed bilateral cortex edema and calcified subependymal nodules. Diagnosis: Combined with her clinical presentation, the patient was diagnosed with TSC after molecular analysis revealed she had inherited the TSC2 c.1832G>A (p.R611Q) mutation from her mother. Interventions: The patient received anti-infection therapy, mannitol dehydration, hyperbaric oxygen treatment, and topiramate. Outcomes: One month later, the patient was in a decorticate state, presenting with unconsciousness and bilateral arm flexion and leg extension. At 6 weeks, repeated electroencephalography was normal. Lessons: In addition to the present case report, rare studies have reported cases of TSC presenting as convulsive status epileticus followed by hypoxic cerebropathy, which may be strongly associated with a poor prognosis. Patients with the characteristic skin lesions and epilepsy should be carefully evaluated for the possible diagnosis of TSC.
Rationale: The ubiquinol-cytochrome c reductase synthesis-like (BCS1L) gene is located on chromosome 2 (2q35) and encodes an ATPase that is associated with various cellular activities and is embedded in the mitochondrial inner membrane; this ATPase is presumed to facilitate the insertion of the Rieske Fe/S protein into precursors of Complex III (CIII) during the assembly of the respiratory chain. We report the first case of a compound heterozygous mutation in the BCS1L gene in China. Patient concerns: A 7-month-old girl presented with a 3-month history of psychomotor developmental retardation and a 1-month history of epilepsy combined with parallel psychomotor developmental deterioration. The clinical manifestations in the patient included psychomotor developmental retardation, infantile spasms, pili torti, tubulopathy, hepatic pathologies and lactic acidosis. Diagnosis: Combined with her clinical presentation, the patient was diagnosed with CIII deficiency and Björnstad syndrome caused by a novel mutation in the BCS1L gene after molecular biological examination. Whole exome sequencing revealed a compound heterozygous mutation with a missense mutation (c.548G > A/p. R183H) inherited from her mother and an insertion mutation (c.1061_1062insCTA/p. G354delinsGY) inherited from her father. Interventions: Before admission, the patient had received oral topiramate for 1 month. After admission, additional intravenous arginine hydrochloride was administered for five days in the acute metabolic disorder phase, and persistent cocktail therapy was introduced, including coenzyme Q10 (20 mg/d), carnitine (1 g/d) and vitamins (vitamin B1, vitamin B2, vitamin B6, and vitamin C). Outcomes: The spasm seizures were decreased by 50% after 2 weeks of treatment. The blood ammonia, myocardial enzyme and urine glucose levels declined to normal levels. At a 1-month follow-up, the patient improved clinically with a decrease in spasm seizures of 75%, stronger sucking and more voluntary activities. However, she still had mild lactic acidosis and mild hepatic damage. Lessons: We reported the first patient with CIII deficiency and Björnstad syndrome in China and identified 1 novel mutation (C.1061_1062insCTA and P. G354delinsGY) in the BCS1L gene. This finding expands the BCS1L gene mutation profile and will be beneficial for genetic diagnosis.
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