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短时间训练期间听觉知觉学习的大脑活动:fMRI 和 EEG 的同步记录。

Brain activity underlying auditory perceptual learning during short period training: simultaneous fMRI and EEG recording.

机构信息

Universidade Federal de São João del-Rei, Ouro Branco, Brazil.

出版信息

BMC Neurosci. 2013 Jan 14;14:8. doi: 10.1186/1471-2202-14-8.

DOI:10.1186/1471-2202-14-8
PMID:23316957
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3557158/
Abstract

BACKGROUND

There is an accumulating body of evidence indicating that neuronal functional specificity to basic sensory stimulation is mutable and subject to experience. Although fMRI experiments have investigated changes in brain activity after relative to before perceptual learning, brain activity during perceptual learning has not been explored. This work investigated brain activity related to auditory frequency discrimination learning using a variational Bayesian approach for source localization, during simultaneous EEG and fMRI recording. We investigated whether the practice effects are determined solely by activity in stimulus-driven mechanisms or whether high-level attentional mechanisms, which are linked to the perceptual task, control the learning process.

RESULTS

The results of fMRI analyses revealed significant attention and learning related activity in left and right superior temporal gyrus STG as well as the left inferior frontal gyrus IFG. Current source localization of simultaneously recorded EEG data was estimated using a variational Bayesian method. Analysis of current localized to the left inferior frontal gyrus and the right superior temporal gyrus revealed gamma band activity correlated with behavioral performance.

CONCLUSIONS

Rapid improvement in task performance is accompanied by plastic changes in the sensory cortex as well as superior areas gated by selective attention. Together the fMRI and EEG results suggest that gamma band activity in the right STG and left IFG plays an important role during perceptual learning.

摘要

背景

越来越多的证据表明,神经元对基本感觉刺激的功能特异性是可改变的,并受经验的影响。尽管 fMRI 实验已经研究了感知学习前后大脑活动的变化,但尚未探索感知学习期间的大脑活动。本研究使用变分贝叶斯方法进行源定位,同时进行 EEG 和 fMRI 记录,研究了与听觉频率辨别学习相关的大脑活动。我们探讨了练习效应是否仅由刺激驱动机制的活动决定,或者与感知任务相关的高级注意机制是否控制学习过程。

结果

fMRI 分析的结果显示,左、右颞上回 STG 以及左额下回 IFG 存在显著的注意和学习相关活动。使用变分贝叶斯方法对同时记录的 EEG 数据进行了电流源定位。对左侧额下回和右侧颞上回的电流本地化分析显示,与行为表现相关的伽马波段活动。

结论

任务表现的快速提高伴随着感觉皮层以及选择性注意控制的高级区域的可塑性变化。fMRI 和 EEG 的结果表明,右 STG 和左 IFG 的伽马波段活动在感知学习中起着重要作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0674/3557158/72e388017d62/1471-2202-14-8-9.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0674/3557158/89e28e4e5ba1/1471-2202-14-8-8.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0674/3557158/72e388017d62/1471-2202-14-8-9.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0674/3557158/0b81b4e72b04/1471-2202-14-8-1.jpg
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