Mean global field power is reduced in infantile epileptic spasms syndrome after response to vigabatrin.

IF 2.7 3区 医学 Q2 CLINICAL NEUROLOGY
Frontiers in Neurology Pub Date : 2024-10-25 eCollection Date: 2024-01-01 DOI:10.3389/fneur.2024.1476476
Arjun Nair, Joycelyne Ewusie, Rowan Pentz, Robyn Whitney, Kevin Jones
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引用次数: 0

Abstract

Purpose: Infantile epileptic spasms syndrome (IESS) is associated with abnormal neuronal networks during a critical period of synaptogenesis and brain plasticity. Hypsarrhythmia is a visual EEG biomarker used to diagnose IESS, assess response to treatment, and monitor relapse. Computational EEG biomarkers hold promise in providing unbiased, reliable, and objective criteria for clinical management. We hypothesized that computational and visual EEG biomarkers of IESS would correlate after treatment with vigabatrin and that these responses might differ between responders and non-responders.

Methods: A retrospective analysis was conducted at a single center, involving children with IESS at initial diagnosis and following first-line treatment with vigabatrin. Visual EEG biomarkers of hypsarrhythmia were compared with computational EEG biomarkers, including spike and spike fast-oscillation source coherence, spectral power, and mean global field power, using retrospective analysis of EEG recorded at initial diagnosis and after vigabatrin treatment. Responders and non-responders were compared based on the characteristics of their follow-up EEGs.

Results: In this pilot study, we observed a reduction in the EEG biomarker of hypsarrhythmia/modified hypsarrhythmia from 20/20 (100%) cases at the initial diagnosis to 9/20 (45%) cases after treatment with vigabatrin, indicating a 55% (11/20) responder rate. No significant difference in spike frequency was observed after treatment (p = 0.104). We observed no significant differences after treatment with vigabatrin in the computational EEG biomarkers that we assessed, including spike source coherence at 90% (p = 0.983), spike source coherence lag range (p > 0.999), spike gamma source coherence at 90% (p = 0.177), spike gamma source coherence lag range (p > 0.999), spectral power (0.642), or mean global field power (0.932). However, when follow-up EEGs were compared, there was a significant difference in mean global field power (p = 0.038) between vigabatrin responders and non-responders. In contrast, no such difference was observed for spike source coherence at 90% (p = 0.285), spike course coherence lag range (p = 0.819), spike gamma source coherence at 90% (p = 0.205), spike gamma source coherence lag range (p > 0.999), or spectral power (p = 0.445). Finally, our treated group did not differ significantly from healthy controls at initial diagnosis or follow-up in terms of spectral power (p = 0.420) or mean global field power (0.127).

Conclusion: In this pilot study, we show that mean global field power is a computational EEG biomarker that is significantly reduced in IESS after treatment with vigabatrin. Although computational EEG biomarkers of network connectivity using spike source coherence appear to be a promising tool, future studies should further explore their potential for assessing treatment responses in IESS.

婴儿癫痫痉挛综合征患者对维加溴铵产生反应后,平均全场功率降低。
目的:婴儿癫痫痉挛综合征(IESS)与突触生成和大脑可塑性关键时期的神经元网络异常有关。心律失常是一种可视脑电图生物标志物,用于诊断 IESS、评估治疗反应和监测复发。计算脑电图生物标记有望为临床管理提供无偏见、可靠和客观的标准。我们假设 IESS 的计算脑电图生物标志物和视觉脑电图生物标志物在使用维加巴曲林治疗后会出现相关性,并且这些反应在有反应者和无反应者之间可能有所不同:在一个中心进行了一项回顾性分析,涉及最初诊断时和接受维格巴特林一线治疗后的IESS患儿。通过对初始诊断时和维格巴特林治疗后记录的脑电图进行回顾性分析,将低速性心律失常的视觉脑电图生物标志物与计算脑电图生物标志物(包括尖峰和尖峰快速振荡源相干性、频谱功率和平均全场功率)进行比较。根据随访脑电图的特征对有反应者和无反应者进行比较:在这项试验性研究中,我们观察到低速性心律失常/改良低速性心律失常的脑电图生物标志物从最初诊断时的 20/20 例(100%)减少到使用维格巴特林治疗后的 9/20 例(45%),表明应答率为 55%(11/20)。治疗后尖峰频率无明显差异(p = 0.104)。在我们评估的计算脑电图生物标志物中,包括尖峰源相干性在 90% 时(p = 0.983)、尖峰源相干性滞后范围(p > 0.999)、尖峰伽玛源相干性在 90% 时(p = 0.177)、尖峰伽玛源相干性滞后范围(p > 0.999)、频谱功率(0.642)或平均全场功率(0.932),我们没有观察到使用维加巴特林治疗后出现明显差异。然而,在比较随访脑电图时,维格巴曲林应答者和非应答者的平均全场功率存在显著差异(p = 0.038)。相比之下,尖峰源相干性在 90% (p = 0.285)、尖峰历程相干性滞后范围 (p = 0.819)、尖峰伽玛源相干性在 90% (p = 0.205)、尖峰伽玛源相干性滞后范围 (p > 0.999) 或频谱功率 (p = 0.445) 方面均未观察到此类差异。最后,在频谱功率(p = 0.420)或平均全场功率(0.127)方面,我们的治疗组在最初诊断或随访时与健康对照组没有显著差异:在这项试验性研究中,我们发现平均全场功率是一种计算脑电图生物标志物,在使用维格巴曲林治疗后,IESS 患者的平均全场功率会明显降低。尽管使用尖峰源相干性的网络连接计算脑电图生物标志物似乎是一种很有前途的工具,但未来的研究应进一步探索其在评估 IESS 治疗反应方面的潜力。
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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来源期刊
Frontiers in Neurology
Frontiers in Neurology CLINICAL NEUROLOGYNEUROSCIENCES -NEUROSCIENCES
CiteScore
4.90
自引率
8.80%
发文量
2792
审稿时长
14 weeks
期刊介绍: The section Stroke aims to quickly and accurately publish important experimental, translational and clinical studies, and reviews that contribute to the knowledge of stroke, its causes, manifestations, diagnosis, and management.
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