tDCS对癫痫中谷氨酸能通路的影响：神经保护和治疗潜力。

IF 2.9 4区医学 Q2 PHYSIOLOGY Pflugers Archiv : European journal of physiology Pub Date : 2025-03-01 Epub Date: 2024-12-07 DOI:10.1007/s00424-024-03049-1

Filiz Demirdogen, Guven Akcay

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引用次数: 0

摘要

癫痫是一种慢性神经系统疾病，其特征是由大脑异常电活动引起的反复发作。本研究旨在探讨tDCS对点燃性癫痫模型氧化应激、Ca2+、谷氨酸、GABA、AMPAR1和NMDAR1水平的影响。行为测试评估运动和认知功能，同时评估海马组织中的氧化应激、Ca2+、谷氨酸、GABA、AMPAR1和NMDAR1水平。tDCS刺激治疗对癫痫后运动和认知功能有神经保护作用。我们的研究显示，在ptz诱导的癫痫发作后，TOC、Ca2+、谷氨酸、GABA、AMPAR1和NMDAR1水平增加，总抗氧化能力（TAC）下降。然而，tDCS治疗导致癫痫组中Ca2+、总氧化能力（TOC）、谷氨酸、GABA、AMPAR1和NMDAR1水平显著降低，同时导致TAC水平升高。研究结果表明，tDCS治疗对急性和慢性点燃性癫痫模型的氧化应激、Ca2+、TOC、谷氨酸、GABA、AMPAR1、NMDAR1和TAC均有治疗作用。

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Effects of tDCS on glutamatergic pathways in epilepsy: neuroprotective and therapeutic potential.

Epilepsy is a chronic neurological disease characterized by recurrent seizures caused by abnormal electrical activity in the brain. The aim of our study was to investigate the effect of tDCS on oxidative stress, Ca²⁺, glutamate, GABA, AMPAR1, and NMDAR1 levels in kindling-induced epilepsy model. Behavioral tests evaluated motor and cognitive functions, while assessing oxidative stress, Ca²⁺, glutamate, GABA, AMPAR1, and NMDAR1 levels in hippocampal tissue. tDCS stimulation therapy demonstrates a neuroprotective effect on motor and cognitive function postepilepsy. Our study reveals an increase in TOC, Ca²⁺, glutamate, GABA, AMPAR1, and NMDAR1 levels and a decline in total antioxidant capacity (TAC) following PTZ-induced seizures. However, tDCS treatment led to a significant decrease of Ca²⁺, total oxidant capacity (TOC), glutamate, GABA, AMPAR1, and NMDAR1 levels in the epilepsy cohorts, while simultaneously causing a spike in TAC levels. The study's results showed that tDCS treatment could have a therapeutic effect on oxidative stress, Ca²⁺, TOC, glutamate, GABA, AMPAR1, NMDAR1, and TAC in both acute and chronic kindling epilepsy models.

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来源期刊

Pflugers Archiv : European journal of physiology 医学-生理学

CiteScore

8.80

自引率

2.20%

发文量

121

审稿时长

4-8 weeks

期刊介绍： Pflügers Archiv European Journal of Physiology publishes those results of original research that are seen as advancing the physiological sciences, especially those providing mechanistic insights into physiological functions at the molecular and cellular level, and clearly conveying a physiological message. Submissions are encouraged that deal with the evaluation of molecular and cellular mechanisms of disease, ideally resulting in translational research. Purely descriptive papers covering applied physiology or clinical papers will be excluded. Papers on methodological topics will be considered if they contribute to the development of novel tools for further investigation of (patho)physiological mechanisms.