Pedunculopontine Nucleus--Rapid Eye Movement Sleep--Electroencephalogram--Desynchronization (PRED) Axis in the Evolution of Epilepsy: A Novel Concept.

Journal of epilepsy research Pub Date : 2021-06-30 eCollection Date: 2021-06-01 DOI:10.14581/jer.21001

Harinder Jaseja

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Abstract

Epilepsy is one of the commonest and oldest neurological diseases in the history of mankind, the exact pathophysiology of the evolution of which still remains elusive. The intimate and intriguing relation between epilepsy and sleep has been known for a long time. Rapid eye movement sleep (REMS) is well documented to exert potent antiepileptic action in human epilepsies and the underlying mechanism of which is largely based on its property to induce widespread electroencephalogram (EEG)-desynchronization. The pedunculopontine nucleus (PPN) owing to its property to enhance REMS has recently been under study for its potential role in intractable epilepsy (IE) and has been proposed as a novel deep brain stimulation target in IE. This brief paper unfolds the existing role of PPN, REMS, and EEG-desynchronization (PRED) in the evolution of epilepsy in an axial manner, the realization and comprehension of which is likely to open new avenues for further understanding of epileptogenesis, improved treatment of epilepsy and reducing the risk of IE.

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脑桥脚核-快速眼动睡眠-脑电图-去同步(PRED)轴在癫痫的进化:一个新概念。

癫痫是人类历史上最常见和最古老的神经系统疾病之一，其进化的确切病理生理学仍然难以捉摸。癫痫和睡眠之间密切而有趣的关系早已为人所知。快速眼动睡眠(REMS)在人类癫痫中具有有效的抗癫痫作用，其潜在机制主要是基于其诱导广泛脑电图(EEG)非同步的特性。由于桥脚核(PPN)具有增强REMS的特性，其在难治性癫痫(IE)中的潜在作用已被研究，并被提出作为难治性癫痫(IE)的一种新的深部脑刺激靶点。本文从轴向的角度阐述了PPN、REMS和脑电图失同步(PRED)在癫痫发展中的作用，对其认识和理解可能为进一步了解癫痫发生、改善癫痫治疗和降低IE风险开辟新的途径。

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Journal of epilepsy research

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