用于开发癫痫疾病治疗药物的癫痫诱发模型

Doodipala Samba Reddy, Abhinav Vadassery, Sreevidhya Ramakrishnan, Tanveer Singh, Bryan Clossen, Xin Wu
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引用次数: 0

摘要

激惹模型是研究癫痫和癫痫发生的病理生物学的广泛使用的动物模型。这些模型表现出独特的特征,即阈下刺激最初会诱发短暂的局灶性癫痫发作。随着时间的推移,这些癫痫发作的严重程度和持续时间逐渐增加,最终导致完全癫痫状态,其特征是全身强直阵挛发作的持续发展。诱发包括通过植入深度电极进行病灶刺激或反复使用戊四唑等化学惊厥剂。临床前和临床结果的对比分析证实,完全点燃的动物对测试新型抗癫痫药物具有很高的预测效力。因此,点燃模型仍然是抗惊厥药物开发项目的重要组成部分。本文全面介绍了用于新疗法开发和优化的各种电性和化学性点燃致痫模型的工作方案、治疗药物测试、结果参数、故障排除和数据分析。在点燃实验中使用药理药剂或转基因小鼠是非常有价值的,可以深入了解特定靶点对癫痫发作各个方面的影响,包括阈值、起始、扩散、终止和过度兴奋网络的生成。这些点燃致痫范例有助于确定癫痫的机制和疾病调节干预措施。© 2024 作者简介当前协议》由 Wiley Periodicals LLC 出版。基本方案 1:海马点燃 基本方案 2:杏仁核点燃 基本方案 3:快速海马点燃 基本方案 4:化学点燃。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Kindling Models of Epileptogenesis for Developing Disease-Modifying Drugs for Epilepsy

Kindling Models of Epileptogenesis for Developing Disease-Modifying Drugs for Epilepsy

Kindling models are widely used animal models to study the pathobiology of epilepsy and epileptogenesis. These models exhibit distinctive features whereby sub-threshold stimuli instigate the initial induction of brief focal seizures. Over time, the severity and duration of these seizures progressively increase, leading to a fully epileptic state, which is marked by consistent development of generalized tonic-clonic seizures. Kindling involves focal stimulation via implanted depth electrodes or repeated administration of chemoconvulsants such as pentylenetetrazol. Comparative analysis of preclinical and clinical findings has confirmed a high predictive validity of fully kindled animals for testing novel antiseizure medications. Thus, kindling models remain an essential component of anticonvulsant drug development programs. This article provides a comprehensive guide to working protocols, testing of therapeutic drugs, outcome parameters, troubleshooting, and data analysis for various electrical and chemical kindling epileptogenesis models for new therapeutic development and optimization. The use of pharmacological agents or genetically modified mice in kindling experiments is valuable, offering insights into the impact of a specific target on various aspects of seizures, including thresholds, initiation, spread, termination, and the generation of a hyperexcitable network. These kindling epileptogenesis paradigms are helpful in identifying mechanisms and disease-modifying interventions for epilepsy. © 2024 The Author(s). Current Protocols published by Wiley Periodicals LLC.

Basic Protocol 1: Hippocampal kindling

Basic Protocol 2: Amygdala kindling

Basic Protocol 3: Rapid hippocampal kindling

Basic Protocol 4: Chemical kindling

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