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We investigated the genetic background of early-onset epileptic encephalopathy (EE) using targeted next generation sequencing analysis. Thirty sporadic or familial cases associated with early-onset EE were included. An early-onset EE gene panel including sixteen genes (ARX, CDKL5, CNTNAP2, FOLR1, FOXG1, LAMC3, MBD5, MECP2, NTNG1, PCDH19, PNKP, SCN1A, SCN1B, SCN2A, STXBP1, KCNQ2) was constituted. Nine definite and three potential causal mutations in 30 cases (40 %) were identified. All mutations presented heterozygously except one. Five mutations had been previously detected (SCN1A c.842C > T (p.P281L), SCN1A c.4907G > C (p.A1636P), PCDH19 c.1091dupC (p.Y366LfsX10), CNTNAP2 c.416A > G (p.N139S), MBD5 c.3595G > A(p.Y1199R) while other seven were novel (SCN1A c.4907G > C (p.A1636P), SCN2A c.4633A > G (p.M1545 V), CDKL5 c.197_198delCT (p.L67QfsX23), FOXG1 c.*6C > T, KCNQ2 c.560c > A (p.S187Y), KCNQ2 c.835G > A (p.G279S), STXBP1 c.1105G > T (p.E369X)). Eight of 12 mutations were de novo. While the overall mutation detection rate was found 40 %, this ratio was 55.5 % (10 out of 18) and 16.6 % (2 out of 12) in patients born to nonconsanguineous parents and consanguineous parents, respectively. In conclusion, a selected gene panel approach including mainly de novo and channel-encoding genes will result in the detection of variants in isolated patients and support the channelopathy theory underlying epilepsy, while consanguineous families will remain less diagnosed. Targeted next generation sequencing approach is an efficient diagnostic tool in the detection of the genetic basis of early-onset EE.

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The expanding phenotypic spectrum of ARFGEF2 gene mutation: Cardiomyopathy and movement disorder

Yılmaz

Gökben

Serdaroğlu

et al. 2016

Brain and Development

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A treatable cause of myelopathy and vision loss mimicking neuromyelitis optica spectrum disorder: late-onset biotinidase deficiency

et al. 2017

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Biotinidase deficiency is characterized by severe neurological manifestations as hypotonia, lethargy, ataxia, hearing loss, seizures and developmental retardation in its classical form. Late-onset biotinidase deficiency presents distinctly from the classical form such as limb weakness and vision problems. A 14-year-old boy presented with progressive vision loss and upper limb weakness. The patient was initiated steroid therapy with a preliminary diagnosis of neuromyelitis optica spectrum disorder due to the craniospinal imaging findings demonstrating optic nerve, brainstem and longitudinally extensive spinal cord involvement. Although the patient exhibited partial clinical improvement after pulse steroid therapy, craniocervical imaging performed one month after the initiation of steroid therapy did not show any regression. The CSF IgG index was <0.8 (normal: <0.8), oligoclonal band and aquaporin-4 antibodies were negative. Metabolic investigations revealed a low biotinidase enzyme activity 8% (0.58 nmoL/min/mL; normal range: 4.4 to 12). Genetic testing showed c.98-104delinsTCC and p.V457 M mutations in biotinidase (BTD) gene. At the third month of biotin replacement therapy, control craniospinal MRI demonstrated a complete regression of the lesions. The muscle strength of the case returned to normal. His visual acuity was 7/10 in the left eye and 9/10 in the right. The late-onset form of the biotinidase deficiency should be kept in mind in all patients with myelopathy with or without vision loss, particularly in those with inadequate response to steroid therapy. The family screening is important to identify asymptomatic individuals and timely treatment.

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The utility of next-generation sequencing technologies in diagnosis of Mendelian mitochondrial diseases and reflections on clinical spectrum

Köse

Işık

Aykut

et al. 2021

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Objectives Diagnostic process of mitochondrial disorders (MD) is challenging because of the clinical variability and genetic heterogeneity of these conditions. Next-Generation Sequencing (NGS) technology offers a high-throughput platform for nuclear MD. Methods We included 59 of 72 patients that undergone WES and targeted exome sequencing panel suspected to have potential PMDs. Patients who were included in the analysis considering the possible PMD were reviewed retrospectively and scored according to the Mitochondrial Disease Criteria Scale. Results Sixty-one percent of the patients were diagnosed with whole-exome sequencing (WES) (36/59) and 15% with targeted exome sequencing (TES) (9/59). Patients with MD-related gene defects were included in the mito group, patients without MD-related gene defects were included in the nonmito group, and patients in whom no etiological cause could be identified were included in the unknown etiology group. In 11 out of 36 patients diagnosed with WES, a TES panel was applied prior to WES. In 47 probands in 39 genes (SURF1, SDHAF1, MTO1, FBXL4, SLC25A12, GLRX5, C19oRF12, NDUFAF6, DARS2, BOLA3, SLC19A3, SCO1, HIBCH, PDHA1, PDHAX, PC, ETFA, TRMU, TUFM, NDUFS6, WWOX, UBCD TREX1, ATL1, VAC14, GFAP, PLA2G6, TPRKB, ATP8A2, PEX13, IGHMBP2, LAMB2, LPIN1, GFPT1, CLN5, DOLK) (20 mito group, 19 nonmito group) 59 variants (31 mito group, 18 nonmito group) were detected. Seven novel variants in the mito group (SLC25A12, GLRX5, DARS2, SCO1, PC, ETFA, NDUFS6), nine novel variants in the nonmito group (IVD, GCDH, COG4, VAC14, GFAP, PLA2G6, ATP8A2, PEX13, LPIN1) were detected. Conclusions We explored the feasibility of identifying pathogenic alleles using WES and TES in MD. Our results show that WES is the primary method of choice in the diagnosis of MD until at least all genes responsible for PMD are found and are highly effective in facilitating the diagnosis process.

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