Advanced Telecommunications Research Institute International (ATR) 2-2-2 Hikaridai Seika-cho, Soraku-gun, Kyoto 619-0288 Japan
Professor of Machine Learning,
Gatsby Computational Neuroscience Unit
University College London, UK
Professor of Computer Science, University of Helsinki
CIFAR Senior Fellow
Senior Visiting Researcher, RIKEN AIP
Title: Decoding attentional states for neurofeedback: Mindfulness vs. wandering thoughts
Abstract:
Neurofeedback requires a direct translation of neuronal brain activity to sensory input given to the user or subject. However, decoding certain states, e.g., mindfulness or wandering thoughts, from ongoing brain activity remains an unresolved problem.
In this study, we used magnetoencephalography (MEG) to acquire brain activity during mindfulness meditation and thought-inducing tasks mimicking wandering thoughts. We used a novel real-time feature extraction to decode the mindfulness, i.e., to discriminate it from the thought-inducing tasks. The key methodological novelty of our approach is usage of MEG power spectra and functional connectivity of independent components as features underlying mindfulness states. Performance was measured as the classification accuracy on a separate session but within the same subject.
We found that the spectral- and connectivity-based classification approaches allowed discriminating mindfulness and thought-inducing tasks with an accuracy around 60% compared to the 50% chance-level. Both classification approaches showed similar accuracy, although the connectivity approach slightly outperformed the spectral one in a few cases. Detailed analysis showed that the classification coefficients and the associated independent components were highly individual among subjects and a straightforward transfer of the coefficients over subjects provided near chance-level classification accuracy.
Thus, discriminating between mindfulness and wandering thoughts seems to be possible, although with limited accuracy, by machine learning, especially on the subject-level. Our hope is that the developed spectral- and connectivity-based decoding methods can be utilized in real-time neurofeedback to decode mindfulness states from ongoing neuronal activity, and hence, provide a basis for improved, individualized mindfulness training.
[Published in Neuroimage, 2019, https://www.sciencedirect.com/science/article/pii/S1053811918319736]
本セミナーは、AMED戦略的国際脳科学研究推進プログラムの研究の助成を受けています。
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