Division of Pediatric Neurology, Seattle Children's Hospital/University of Washington, 4800 Sand Point Way NE, Seattle, WA 98105, United States.
Seizure. 2012 Jan;21(1):17-20. doi: 10.1016/j.seizure.2011.08.010. Epub 2011 Sep 8.
To review our cohort of patients with Dravet syndrome and determine if patients with SCN1A mutations can also express mitochondrial disease due to electron transport chain dysfunction.
A retrospective chart review was used to describe clinical manifestations and retrieve biochemical testing, neuroimaging, gene sequencing, and electroencephalographic results of patients expressing both mitochondrial disease and Dravet syndrome.
Two children were found to have pathological mutations in the SCN1A gene and defects in mitochondrial electron transport chain complex activity. Both developed early febrile and medically intractable afebrile seizures with resulting neurocognitive decline. In the first patient, a muscle biopsy demonstrated complex IV dysfunction and in the second patient, complex III dysfunction. Patient 1 had more difficult to control seizures, and had features consistent with severe autism. Patient 2, who had earlier control and less severe seizures, did not have features of autism. Patient 1 had SCN1A missense mutation, c. 3734 G>A and patient 2 had a mutation, c. 3733 C>T, which produces a truncation mutation.
Our two patients underscore the need to rule out possible co-morbid mitochondrial disease and Dravet syndrome. The treatment of seizures for each is different, with valproic acid being first line treatment in Dravet syndrome and contraindicated in many mitochondrial diseases, due to possible induction of liver failure and death. Failure to pursue complete diagnostic evaluation might influence medication choice, possible seizure control, and developmental outcomes.
回顾我们的德拉维特综合征患者队列,并确定 SCN1A 基因突变的患者是否也因电子传递链功能障碍而表现出线粒体疾病。
采用回顾性图表审查,描述具有线粒体疾病和德拉维特综合征的患者的临床表现,并检索生化检测、神经影像学、基因测序和脑电图结果。
发现两名儿童的 SCN1A 基因存在病理性突变,且线粒体电子传递链复合物活性存在缺陷。两者均表现为早发性热性和医学上难治性无热惊厥,导致神经认知能力下降。在第一例患者中,肌肉活检显示复合物 IV 功能障碍,而在第二例患者中,复合物 III 功能障碍。患者 1 的癫痫发作更难控制,且具有严重自闭症的特征。患者 2 的癫痫发作更早得到控制且不严重,没有自闭症的特征。患者 1 存在 SCN1A 错义突变,c.3734 G>A,患者 2 存在突变 c.3733 C>T,导致截断突变。
我们的两名患者强调需要排除可能的共患线粒体疾病和德拉维特综合征。两种疾病的癫痫治疗不同,丙戊酸是德拉维特综合征的一线治疗药物,但由于可能诱发肝衰竭和死亡,在许多线粒体疾病中禁用。未能进行全面的诊断评估可能会影响药物选择、可能的癫痫控制和发育结果。
