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Rodent and human seizures demonstrate a dynamic interplay with spreading depolarizations

IF 5.1 2区医学 Q1 NEUROSCIENCES

Neurobiology of Disease Pub Date : 2025-05-08 DOI:10.1016/j.nbd.2025.106937

Jacob H. Norby , Daniel Hummel , Noah Ricks , John Rolston , Shervin Rahimpour , Rhiannon Cowan , Juha Voipio , Andrew J. Trevelyan , Elliot H. Smith , R. Ryley Parrish

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引用次数: 0

Abstract

Seizure termination has been linked to spreading depolarizations (SDs) in experimental models of epilepsy, and SDs have been suggested to protect against seizures. However, the precise mechanisms of seizure-associated SDs remain unclear. Additionally, the co-occurrence of SDs with human seizures remains debated.

In this study, we found that SDs are a prominent feature following ictal events in both human clinical recordings and in a rodent model of ictogenesis. Approximately one-third of rodent seizure-like events (SLEs) associated with SDs, while all human seizures analyzed associated with propagating infraslow shifts, indicative of SDs. In rodents, SDs clustered towards the end of ictal events, resulting in significantly shorter SLEs and delayed onset of subsequent SLEs. Interestingly, SLEs with SDs displayed significantly more low gamma activity during ictal events than SLEs that did not end in SDs. Furthermore, we found no significant correlation between [K⁺]_o levels and the likelihood of SLEs ending in SDs, questioning the role of [K⁺]_o in SD induction during seizures. Interestingly, the human data demonstrate clear SD propagation during seizures and show that SDs appear and propagate in multiple brain regions simultaneously with ictal events.

Collectively, these results indicate that SDs are a hallmark of ictal activity associated with seizure termination. Furthermore, these findings provide unique insight into the neuronal dynamics that promote SD induction by showing that increased low gamma activity during SLEs is more predictive of SD induction than [K⁺]_o levels. Taken together, these findings provide rationale for further exploration of SDs to prematurely terminate life-threatening seizures.

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啮齿动物和人类的癫痫发作表现出一种动态的相互作用与扩散的去极化

在癫痫实验模型中，癫痫发作终止与扩散性去极化（SDs）有关，SDs被认为可以预防癫痫发作。然而，癫痫相关SDs的确切机制尚不清楚。此外，SDs与人类癫痫的共同发生仍存在争议。在这项研究中，我们发现SDs是人类临床记录和啮齿动物ictogenesis模型中ictogenesis事件后的一个突出特征。大约三分之一的啮齿动物癫痫样事件（SLEs）与SDs相关，而所有人类癫痫发作都与传播性次慢移相关，表明SDs。在啮齿类动物中，SDs聚集在临界事件结束时，导致SLEs明显缩短，随后的SLEs发作延迟。有趣的是，与未以SDs结束的SLEs相比，伴有SDs的SLEs在发作事件中表现出明显更低的γ活性。此外，我们发现[K+]o水平与SLEs以SD结束的可能性之间没有显著相关性，质疑[K+]o在癫痫发作期间诱发SD的作用。有趣的是，人类数据显示，在癫痫发作期间，SD清晰地传播，并显示SD在多个脑区同时出现和传播。总的来说，这些结果表明SDs是癫痫发作终止相关的癫痫活动的标志。此外，这些发现通过表明SLEs期间低伽马活动的增加比[K+]o水平更能预测SD的诱导，为促进SD诱导的神经元动力学提供了独特的见解。综上所述，这些发现为进一步探索SDs过早终止危及生命的癫痫发作提供了依据。

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

Neurobiology of Disease

Neurobiology of Disease 医学-神经科学

CiteScore

11.20

自引率

3.30%

发文量

270

审稿时长

76 days

期刊介绍： Neurobiology of Disease is a major international journal at the interface between basic and clinical neuroscience. The journal provides a forum for the publication of top quality research papers on: molecular and cellular definitions of disease mechanisms, the neural systems and underpinning behavioral disorders, the genetics of inherited neurological and psychiatric diseases, nervous system aging, and findings relevant to the development of new therapies.

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