利用实时 fMRI 神经反馈调节 M1-小脑连接。

Using Real-Time fMRI Neurofeedback to Modulate M1-Cerebellum Connectivity.

机构信息

Faculty of Applied Medical Sciences, Jazan University, Jazan, Saudi Arabia.

College of Medical, Veterinary and Life Sciences (MVLS), University of Glasgow, Glassgow, UK.

出版信息

Comput Intell Neurosci. 2022 Aug 30;2022:8744982. doi: 10.1155/2022/8744982. eCollection 2022.

DOI:10.1155/2022/8744982

PMID:36082347

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9448559/

Abstract

OBJECTIVE

The potential of neurofeedback to alter the M1-cerebellum connectivity was explored using motor imagery-based rt-fMRI. These regions were chosen due to their importance in motor performance and motor rehabilitation.

METHODS

Four right-handed individuals were recruited to examine the potential to change the M1-cerebellum neurofeedback link. The University of Glasgow Cognitive Neuroimaging Centre used a 3T MRI scanner from January 2019 to January 2020 to conduct this prospective study. Everyone participated in each fMRI session, which included six NF training runs. Participants were instructed to imagine complicated hand motions during the NF training to raise a thermometer bar's height. To contrast the correlation coefficients between the initial and last NF runs, a -test was performed post hoc.

RESULTS

The neurofeedback connection between M1 and the cerebellum was strengthened in each participant. Motor imagery strategy was a significant task in training M1-cerebellum connectivity as participants used it successfully to enhance the activation level between these regions during M1-cerebellum modulation using real-time fMRI. The -test and linear regression, on the other hand, showed this increase to be insignificant.

CONCLUSION

A novel technique to manipulate M1-cerebellum connectivity was discovered using real-time fMRI NF. This study showed that each participant's neurofeedback connectivity between M1 and cerebellum was enhanced. This increase, on the other hand, was insignificant statistically. The results showed that the connectivity between both areas increased positively. Through the integration of fMRI and neurofeedback, M1-cerebellum connectivity can be positively affected.

摘要

目的

使用基于运动想象的实时 fMRI 探索神经反馈改变 M1-小脑连接的潜力。选择这些区域是因为它们在运动表现和运动康复中很重要。

方法

招募了 4 名右利手个体来检验改变 M1-小脑神经反馈联系的潜力。格拉斯哥大学认知神经影像学中心于 2019 年 1 月至 2020 年 1 月使用 3T MRI 扫描仪进行了这项前瞻性研究。每个人都参加了每个 fMRI 会话，其中包括 6 次 NF 训练运行。在 NF 训练期间，参与者被指示想象复杂的手部运动以提高温度计棒的高度。为了对比初始和最后一次 NF 运行之间的相关系数，进行了事后 t 检验。

结果

每个参与者的 M1 和小脑之间的神经反馈连接都得到了增强。运动想象策略是训练 M1-小脑连接的重要任务，因为参与者成功地使用它来增强这些区域之间的激活水平，使用实时 fMRI 进行 M1-小脑调节。另一方面，t 检验和线性回归表明这种增加并不显著。

结论

使用实时 fMRI NF 发现了一种操纵 M1-小脑连接的新方法。这项研究表明，每个参与者的 M1 和小脑之间的神经反馈连接都得到了增强。另一方面，这种增加在统计学上并不显著。结果表明，两个区域之间的连接呈正相关。通过将 fMRI 和神经反馈相结合，可以对 M1-小脑连接产生积极影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5847/9448559/3e224fbcf2f0/CIN2022-8744982.001.jpg

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利用实时 fMRI 神经反馈调节 M1-小脑连接。

Using Real-Time fMRI Neurofeedback to Modulate M1-Cerebellum Connectivity.

机构信息

出版信息

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METHODS

RESULTS

CONCLUSION

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方法

结果

结论

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