Treatable Neurodegenerative Disorder: Cerebral Folate Transport Deficiency--Two Children from Southern India.

IF 0.5 Q3 Medicine
Vykuntaraju K Gowda, Balamurugan Natarajan, Varunvenkat M Srinivasan, Sanjay K Shivappa
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引用次数: 0

Abstract

Cerebral folate transport deficiency results from impaired folate transport across the blood:choroid plexus:cerebrospinal fluid (CSF) barrier. This leads to low CSF 5-methyltetrahydrofolate (5MTHF), the active folate metabolite. We are reporting two children with this treatable cerebral folate transport deficiency. Case 1: Seventeen-year-old boy presented with delayed milestones followed by regression, seizures, and intention tremors. On examination child had pyramidal and cerebellar signs. Magnetic resonance imaging (MRI) of brain revealed diffuse cerebral and cerebellar atrophy. Targeted next generation sequencing revealed homozygous missense pathogenic variant in FOLR1 gene in exon 4 c.382C>T p.R128W, confirming the diagnosis of cerebral folate deficiency. Case 2: Six-year-old male child presented with delayed milestones, myoclonic jerks and cognitive regression from 3 years of age. Child had microcephaly with ataxia. Computed tomography (CT) of brain revealed multifocal calcifications. MRI brain revealed cerebellar atrophy with hyperintense T2 signal changes in the subcortical white matter of frontal and temporal lobes. Genetic testing revealed homozygous variant (c.493+2_493+6delTGAGG) in intron 4 of the FOLR1 gene which is a novel pathogenic variant. Both children started on folinic acid and there was a significant improvement in development, behavior, ataxia, and decrease in seizure frequency. In conclusion, cerebral folate transport deficiency should be suspected in every child with global developmental delay, epilepsy, ataxia and neuroimaging showing cerebellar atrophy and calcification. Response to folinic acid supplementation is partial if diagnosed late and treatment initiation is delayed.

Abstract Image

可治疗的神经退行性疾病:脑叶酸运输缺乏症——来自印度南部的两个孩子。
脑叶酸运输缺乏是由于叶酸在血液:脉络膜丛:脑脊液(CSF)屏障中的运输受损所致。这导致脑脊液中活性叶酸代谢物5-甲基四氢叶酸(5MTHF)降低。我们报告了两名患有这种可治疗的脑叶酸运输缺乏症的儿童。病例1:17岁男孩表现出延迟的里程碑,随后是倒退,癫痫发作和意图震颤。检查发现患儿有锥体和小脑征象。脑核磁共振显示弥漫性脑及小脑萎缩。靶向下一代测序结果显示外显子4 c.382C>T p.R128W的FOLR1基因纯合子错义致病变异,证实脑叶酸缺乏症的诊断。病例2:6岁男童自3岁起出现发育里程碑延迟、肌阵挛性抽搐及认知衰退。儿童小头畸形伴共济失调。颅脑CT示多灶性钙化。脑MRI示小脑萎缩,额叶和颞叶皮质下白质T2信号增高。基因检测发现FOLR1基因4内含子纯合变异(c.493+2_493+6delTGAGG)是一种新的致病变异。两个孩子都开始服用叶酸,在发育、行为、共济失调和癫痫发作频率方面都有显著改善。综上所述,在每一个有全面发育迟缓、癫痫、共济失调和神经影像学显示小脑萎缩和钙化的儿童中,都应怀疑脑叶酸运输缺乏。如果诊断晚,治疗开始延迟,对补充叶酸的反应是部分的。
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来源期刊
CiteScore
1.10
自引率
0.00%
发文量
49
期刊介绍: Journal of Pediatric Neurosciences-JPN (ISSN 1817-1745) is official publication of the Indian Society for Pediatric Neurosurgery. The journal is published semiannually. Bibliographic listings: The journal is indexed with Caspur, DOAJ, EBSCO Publishing’s Electronic Databases, Excerpta Medica / EMBASE, Expanded Academic ASAP, Genamics JournalSeek, Google Scholar, Health & Wellness Research Center, Health Reference Center Academic, Hinari, Index Copernicus, OpenJGate, Scimago Journal Ranking, SCOLOAR, SCOPUS, SIIC databases, Ulrich’s International Periodical Directory
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