经颅电刺激用于程序学习和康复。

IF 2.2 4区 心理学 Q3 BEHAVIORAL SCIENCES
Olivia Morgan Lapenta , Gabriel Gaudencio Rêgo , Paulo Sérgio Boggio
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引用次数: 0

摘要

程序性学习是指通过一个循序渐进的过程习得运动和非运动技能,并在实践中不断提高。在神经发育、神经退行性和神经精神疾病中,程序性学习的障碍已被证实。考虑到非侵入性脑部刺激可以调节大脑活动并促进神经可塑性机制,我们回顾了经颅直流电刺激(tDCS)与运动和非运动程序学习训练方法相结合的效果,以探索 tDCS 作为一种工具在健康和临床人群中增强内隐学习的潜在用途。综述涵盖了 tDCS 对以下方面的影响:i. 运动程序学习,从基本活动到复杂活动;ii. 非运动程序学习;iii. 若干临床人群的程序康复。我们的结论是,分别针对初级运动皮层和前额叶区域的治疗似乎对运动和非运动程序学习最有前景。在程序性康复方面,tDCS 的使用尚处于早期阶段,但有报道称它对内隐性运动和记忆学习有一定的效果。不过,仍建议对刺激参数和目标区域进行系统比较,以最大限度地提高 tDCS 的有效性及其对程序性康复的稳健性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Transcranial electrical stimulation for procedural learning and rehabilitation

Procedural learning is the acquisition of motor and non-motor skills through a gradual process that increases with practice. Impairments in procedural learning have been consistently demonstrated in neurodevelopmental, neurodegenerative, and neuropsychiatric disorders. Considering that noninvasive brain stimulation modulates brain activity and boosts neuroplastic mechanisms, we reviewed the effects of coupling transcranial direct current stimulation (tDCS) with training methods for motor and non-motor procedural learning to explore tDCS potential use as a tool for enhancing implicit learning in healthy and clinical populations. The review covers tDCS effects over i. motor procedural learning, from basic to complex activities; ii. non-motor procedural learning; iii. procedural rehabilitation in several clinical populations. We conclude that targeting the primary motor cortex and prefrontal areas seems the most promising for motor and non-motor procedural learning, respectively. For procedural rehabilitation, the use of tDCS is yet at an early stage but some effectiveness has been reported for implicit motor and memory learning. Still, systematic comparisons of stimulation parameters and target areas are recommended for maximising the effectiveness of tDCS and its robustness for procedural rehabilitation.

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来源期刊
CiteScore
5.10
自引率
7.40%
发文量
77
审稿时长
12.6 weeks
期刊介绍: Neurobiology of Learning and Memory publishes articles examining the neurobiological mechanisms underlying learning and memory at all levels of analysis ranging from molecular biology to synaptic and neural plasticity and behavior. We are especially interested in manuscripts that examine the neural circuits and molecular mechanisms underlying learning, memory and plasticity in both experimental animals and human subjects.
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