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Resting-state networks link invasive and noninvasive brain stimulation across diverse psychiatric and neurological diseases.静息态网络在多种精神疾病和神经疾病中连接了侵入性和非侵入性脑刺激。
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The effect of theta-burst TMS on cognitive control networks measured with resting state fMRI.静息态 fMRI 测量θ爆发 TMS 对认知控制网络的影响。
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Reversible information flow across the medial temporal lobe: the hippocampus links cortical modules during memory retrieval.内侧颞叶的信息可逆转流动:在记忆检索过程中,海马体连接皮质模块。
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多日靶向非侵入性刺激后记忆及海马体-皮质功能连接的持久增强。

Long-lasting enhancements of memory and hippocampal-cortical functional connectivity following multiple-day targeted noninvasive stimulation.

作者信息

Wang Jane X, Voss Joel L

机构信息

Department of Medical Social Sciences, Ken and Ruth Davee Department of Neurology, and Interdepartmental Neuroscience Program, Northwestern University Feinberg School of Medicine, Chicago, Illinois.

出版信息

Hippocampus. 2015 Aug;25(8):877-83. doi: 10.1002/hipo.22416. Epub 2015 Feb 11.

DOI:10.1002/hipo.22416
PMID:25639205
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4499483/
Abstract

Noninvasive stimulation can alter the function of brain networks, although the duration of neuroplastic changes are uncertain and likely vary for different networks and stimulation parameters. We have previously shown that multiple-day repetitive transcranial magnetic stimulation can influence targeted hippocampal-cortical networks, producing increased functional MRI connectivity of these networks and concomitant improvements in memory that outlast stimulation by ∼24 h. Here, we present new analyses showing that multiple-day targeted stimulation of hippocampal-cortical networks produces even longer-lasting enhancement. The ability to learn novel, arbitrary face-word pairings improved over five consecutive daily stimulation sessions, and this improvement remained robust at follow-up testing performed an average of 15 days later. Furthermore, stimulation increased functional MRI connectivity of the targeted portion of the hippocampus with distributed regions of the posterior hippocampal-cortical network, and these changes in connectivity remained robust at follow-up testing. Neuroplastic changes of hippocampal-cortical networks caused by multiple-day noninvasive stimulation therefore persist for extended periods. These findings have implications for the design of multiple-day stimulation experiments and for the development of stimulation-based interventions for memory disorders.

摘要

无创刺激可以改变脑网络的功能,尽管神经可塑性变化的持续时间尚不确定,并且可能因不同的网络和刺激参数而有所不同。我们之前已经表明,多天重复经颅磁刺激可以影响目标海马-皮质网络,使这些网络的功能磁共振成像连接性增加,并伴随记忆改善,这种改善在刺激结束后可持续约24小时。在这里,我们展示了新的分析结果,表明对海马-皮质网络进行多天的靶向刺激会产生更持久的增强效果。在连续五天的每日刺激过程中,学习新颖、任意的面孔-单词配对的能力得到了提高,并且在平均15天后进行的后续测试中,这种改善仍然很明显。此外,刺激增加了海马目标部分与海马后皮质网络分布区域之间的功能磁共振成像连接性,并且这些连接性变化在后续测试中仍然很明显。因此,多天无创刺激引起的海马-皮质网络的神经可塑性变化会持续很长时间。这些发现对多天刺激实验的设计以及基于刺激的记忆障碍干预措施的开发具有启示意义。