神经网络在广义癫痫和新型抗癫痫药物中的应用。

Neural Networks in Generalized Epilepsy and Novel Antiepileptic Drugs.

机构信息

Höhere Berufsfachschule für Altenpflege und Ergotherapie der Euro Akademie, Pößneck, Pößneck, Germany.

Institute of Neurosciences of Castilla y Leon (INCYL), Laboratory of Neuroanatomy of the Peptidergic Systems, University of Salamanca, Salamanca, Spain.

出版信息

Curr Pharm Des. 2019;25(4):396-400. doi: 10.2174/1381612825666190319121505.

DOI:10.2174/1381612825666190319121505

PMID:30892153

Abstract

BACKGROUND

In previous works, alterations of neurotransmitters and neuropeptides in the brain areas involved in generalized epilepsy have been reported.

OBJECTIVE

We reviewed the alterations of these neurotransmitters and neuropeptides in the following brain areas involved in generalized epilepsy: hippocampus, hypothalamus, thalamus and cerebral cortex. In these brain areas, the neural networks are also actualized. The mechanisms of action of newer antiepileptic drugs in the treatment of generalized epilepsy are also discussed.

RESULTS

Up-dating the neurotransmitter and neuropeptide alterations, we found that hippocampal GABAergic neurons presynaptically inhibit epileptogenic neurons via GABAB receptors. Epilepsy modulating neuropeptides (galanin, neuropeptide Y, dynorphin) are also involved. GABA deficiency, serotonin hyperactivity, dopamine hyperactivity and glutamate excitotoxicity can enhance ictogenesis: neurons containing these neurotransmitters form the main neural circuit. An increased excitability occurs when the alteration of these neurotransmitters is permanent.

CONCLUSION

In preclinical studies, the GABAB receptor agonist GS 39,783 exerted a good antiepileptic effect. Perampanel, an AMPA receptor antagonist, showed good clinical effects in the treatment of partial-onset seizures and primary generalized tonic-clonic seizures. In this treatment, perampanel can be combined with other antiepileptic drugs. Brivaracetam, which shows a high affinity for the synaptic vesicle 2A, exerted a good efficacy in the treatment of adult focal seizures and secondarily generalized tonic-clonic seizures.

摘要

背景

在之前的研究中，已报道在涉及全身性癫痫的脑区中，神经递质和神经肽发生改变。

目的

我们综述了以下参与全身性癫痫的脑区中这些神经递质和神经肽的改变：海马体、下丘脑、丘脑和大脑皮层。在这些脑区中，神经网络也得以实现。还讨论了新型抗癫痫药物治疗全身性癫痫的作用机制。

结果

更新神经递质和神经肽改变的相关内容后，我们发现海马体 GABA 能神经元通过 GABAB 受体对致痫神经元进行突触前抑制。癫痫调节神经肽（甘丙肽、神经肽 Y、强啡肽）也参与其中。GABA 缺乏、血清素活性亢进、多巴胺活性亢进和谷氨酸兴奋性毒性可增强癫痫发作形成：含有这些神经递质的神经元构成主要的神经网络。当这些神经递质的改变持续存在时，神经元兴奋性增加。

结论

在临床前研究中，GABAB 受体激动剂 GS 39783 表现出良好的抗癫痫作用。AMPA 受体拮抗剂吡仑帕奈在治疗部分性发作和原发性全面强直-阵挛发作方面具有良好的临床疗效。在这种治疗中，吡仑帕奈可以与其他抗癫痫药物联合使用。突触囊泡 2A 高亲和力的布瓦西坦在治疗成人局灶性发作和继发性全面强直-阵挛发作方面表现出良好的疗效。

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神经网络在广义癫痫和新型抗癫痫药物中的应用。

Neural Networks in Generalized Epilepsy and Novel Antiepileptic Drugs.

机构信息

出版信息

BACKGROUND

OBJECTIVE

RESULTS

CONCLUSION

背景

目的

结果

结论

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