Genetic etiologies with a large NGS panel in a monocentric cohort of 1000 patients with pediatric onset epilepsies.

IF 2.8 3区医学 Q2 CLINICAL NEUROLOGY

Epilepsia Open Pub Date : 2025-05-10 DOI:10.1002/epi4.70057

Giulia Barcia, Nicole Chemaly, Stéphanie Gobin-Limballe, Emma Losito, Mélodie Aubart, Eugénie Sarda, Zahra Assouline, Pauline Plante-Bordeneuve, Marie Hully, Remi Barrois, Christine Barnerias, Doxa Sareidaki, Delphine Coste Zeitoun, Monika Eisermann, Cécile Fourrage, Sylvain Hanein, Marlène Rio, Nathalie Boddaert, Isabelle Desguerre, Anna Kaminska, Julie Steffann, Rima Nabbout

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Abstract

Objective: Genetic testing is now included in the diagnostic assessment of childhood onset epilepsies. We evaluated the yield of a targeted next generation sequencing (TNGS) panel dedicated to pediatric epilepsies.

Methods: We tested by TNGS panel 1000 consecutive patients presenting with childhood onset epilepsies and including mainly patients with early onset epilepsies (under 2 years, 61%).

Results: Causal variants were identified in 31% of patients, spanning 78 different genes. Patients with benign familial neonatal/infantile epilepsy (BFN/IS) exhibited the highest rate of positive findings (82%). Developmental and epileptic encephalopathies (DEEs) had a global diagnostic yield of 37%, with epilepsy of infancy with migrating focal seizures (EIMFSI) and Dravet syndrome (DS) presenting the highest yield in this group (78%) and early infantile DEE (EIDEE) laying next with a yield of 43%. The lowest rates of genetic diagnosis were observed in infantile epileptic spasms syndrome (IESS, 17%), epilepsy with myoclonic-atonic seizures (EMAtS, 19%), and DEE-SWAS (14%). Patients with GEFS+ had a yield of 16%. Among patients with developmental encephalopathies and refractory seizures with onset after 2 years, TNGS yielded a 33% diagnostic rate. Atypical absences yielded 16%, focal epilepsy yielded 18%, and generalized epilepsies with refractory seizures yielded 13%. These groups exhibited a high genetic heterogeneity.

Significance: TNGS is an effective first-step genetic screening in patients with high diagnostic yields (BFN/IS, EIMFS, DS, EIDEE) and for epilepsy syndromes associated with one or a few major genes (BFN/IS, EIMFS, DS, GEFS+, DEE-SWAS). Whole exome or genome sequencing (WES/WGS) should be considered as a second step in these groups with a probably relevant Mendelian inheritance. WES/WGS could be proposed as first-tier analysis in patients with IESS, EMAtS, generalized or focal epilepsies refractory to ASMs, and developmental encephalopathies with seizure onset after 2 years. However, the lower diagnostic yield obtained in these groups may suggest a complex inheritance.

Plain language summary: This study emphasizes the importance of accurately identifying different types of epilepsy and epilepsy syndromes to improve genetic testing strategies. We suggest that a targeted gene panel can be a good first step for some genetic conditions, such as benign familial neonatal/infantile epilepsy, Dravet syndrome, and epilepsy of infancy with migrating focal seizures.

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在1000例儿童癫痫发作患者的单中心队列中使用大型NGS面板的遗传病因学。

目的：基因检测现在被纳入儿童癫痫的诊断评估。我们评估了专门用于儿童癫痫的靶向下一代测序（TNGS）小组的产量。方法：我们对1000例儿童期癫痫患者进行了TNGS面板测试，主要包括早发型癫痫患者（2岁以下，61%）。结果：在31%的患者中发现了因果变异，涉及78种不同的基因。良性家族性新生儿/婴儿癫痫（BFN/IS）的阳性检出率最高（82%）。发育性和癫痫性脑病（DEE）的全球诊断率为37%，其中婴儿期癫痫伴局灶性发作（EIMFSI）和Dravet综合征（DS）的诊断率最高（78%），其次是婴幼儿早期DEE (EIDEE)，诊断率为43%。遗传诊断率最低的是婴儿癫痫痉挛综合征（IESS, 17%）、癫痫合并肌阵挛性失张力发作（EMAtS, 19%）和DEE-SWAS（14%）。GEFS+患者的生存率为16%。在2年后发病的发展性脑病和难治性癫痫患者中，TNGS的诊断率为33%。非典型缺席占16%，局灶性癫痫占18%，全身性癫痫伴难治性发作占13%。这些群体表现出较高的遗传异质性。意义：TNGS对于诊断率高的患者（BFN/ is、EIMFS、DS、edee）和与一个或几个主要基因（BFN/ is、EIMFS、DS、GEFS+、DEE-SWAS）相关的癫痫综合征是一种有效的第一步遗传筛查。全外显子组或基因组测序（WES/WGS）应该被认为是这些可能具有相关孟德尔遗传的群体的第二步。WES/WGS可作为IESS、emat、全身性或局灶性难治性癫痫以及2年后癫痫发作的发育性脑病患者的一级分析。然而，在这些群体中获得的较低诊断率可能表明复杂的遗传。摘要：本研究强调了准确识别不同类型癫痫和癫痫综合征对改进基因检测策略的重要性。我们建议，针对一些遗传疾病，如良性家族性新生儿/婴儿癫痫、Dravet综合征和伴有迁移局灶性癫痫的婴儿癫痫，靶向基因面板可能是一个良好的第一步。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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