Early insights into eyeblink conditioning using optically pumped magnetometer-based MEG.

IF 2.7 3区医学 Q3 NEUROSCIENCES

Frontiers in Human Neuroscience Pub Date : 2025-09-24 eCollection Date: 2025-01-01 DOI:10.3389/fnhum.2025.1638751

Chin-Hsuan Sophie Lin, Tim M Tierney, Stephanie Mellor, George C O'Neill, Sven Bestmann, Gareth R Barnes, R Chris Miall

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Abstract

Introduction: There is a profound lack of electrophysiological data from the cerebellum in humans, as compared to animals, because it is difficult to record cerebellar activity non-invasively using magnetoencephalography (MEG) or electroencephalography (EEG). Recent developments in wearable MEG sensors hold potential to overcome this limitation, as they allow the placement of sensors closer to the cerebellum.

Methods: We leveraged the development of wearable optically pumped magnetometers to record on-scalp MEG (OP-MEG) during an established cerebellar learning paradigm-eyeblink conditioning. In four healthy human adults, we first validated that OP-MEG can reliably detect cerebellar responses by examining responses to an air puff stimulus.

Results: Significant responses were observed in sensors positioned over the cerebellar region in all four adults in response to the air puff. We then indirectly tested the hypothesis that these responses reflect the population-level spiking activity of Purkinje cells. The air-puff-evoked responses diminished during the acquisition of conditioned responses, corresponding with previously observed changes in Purkinje cell activity in animals. Additionally, in three out of four participants, we observed a cerebellar evoked response just prior to the peak of the conditioned blink, resembling learning-associated shifts in Purkinje cell response latencies.

Discussion: This study demonstrates that OP-MEG is a viable method for recording cerebellar activity in humans. By bridging invasive animal recordings with non-invasive human neuroimaging, these findings provide further evidence of the cerebellum's role in human learning.

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使用基于光泵磁力计的MEG对眨眼调节的早期见解。

与动物相比，人类小脑电生理数据严重缺乏，因为很难使用脑磁图（MEG）或脑电图（EEG）非侵入性地记录小脑活动。最近可穿戴式脑磁图传感器的发展有可能克服这一限制，因为它们允许将传感器放置在更靠近小脑的地方。方法：利用可穿戴式光泵磁强计的开发，在小脑学习范式-眨眼条件反射过程中记录头皮上脑电信号（OP-MEG）。在四名健康成人中，我们首先验证了OP-MEG可以通过检查对吹气刺激的反应来可靠地检测小脑反应。结果：在所有四名成年人对充气的反应中，位于小脑区域的传感器观察到显著的反应。然后，我们间接测试了这些反应反映浦肯野细胞群体水平尖峰活动的假设。在条件反应的获得过程中，气胀引起的反应减弱，与先前观察到的动物浦肯野细胞活性的变化相对应。此外，在四分之三的参与者中，我们观察到小脑诱发反应正好在条件性眨眼的高峰之前，类似于浦肯野细胞反应潜伏期的学习相关变化。讨论：本研究表明，OP-MEG是一种记录人类小脑活动的可行方法。通过将有创动物记录与无创人类神经成像相结合，这些发现为小脑在人类学习中的作用提供了进一步的证据。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Frontiers in Human Neuroscience 医学-神经科学

CiteScore

4.70

自引率

6.90%

发文量

830

审稿时长

2-4 weeks

期刊介绍： Frontiers in Human Neuroscience is a first-tier electronic journal devoted to understanding the brain mechanisms supporting cognitive and social behavior in humans, and how these mechanisms might be altered in disease states. The last 25 years have seen an explosive growth in both the methods and the theoretical constructs available to study the human brain. Advances in electrophysiological, neuroimaging, neuropsychological, psychophysical, neuropharmacological and computational approaches have provided key insights into the mechanisms of a broad range of human behaviors in both health and disease. Work in human neuroscience ranges from the cognitive domain, including areas such as memory, attention, language and perception to the social domain, with this last subject addressing topics, such as interpersonal interactions, social discourse and emotional regulation. How these processes unfold during development, mature in adulthood and often decline in aging, and how they are altered in a host of developmental, neurological and psychiatric disorders, has become increasingly amenable to human neuroscience research approaches. Work in human neuroscience has influenced many areas of inquiry ranging from social and cognitive psychology to economics, law and public policy. Accordingly, our journal will provide a forum for human research spanning all areas of human cognitive, social, developmental and translational neuroscience using any research approach.