In vivo ephaptic coupling allows memory network formation

Cerebral Cortex (New York, NY) Pub Date : 2023-06-20 DOI:10.1101/2023.02.28.530474
D. Pinotsis, E. Miller
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引用次数: 9

Abstract

It is increasingly clear that memories are distributed across multiple brain areas. Such “engram complexes” are important features of memory formation and consolidation. Here, we test the hypothesis that engram complexes are formed in part by bioelectric fields that sculpt and guide the neural activity and tie together the areas that participate in engram complexes. Like the conductor of an orchestra, the fields influence each musician or neuron and orchestrate the output, the symphony. Our results use the theory of synergetics, machine learning and data from a spatial delayed saccade task and provide evidence for in vivo ephaptic coupling in memory representations.
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体内触觉耦合允许记忆网络的形成
越来越清楚的是,记忆分布在大脑的多个区域。这种“印痕复合体”是记忆形成和巩固的重要特征。在这里,我们测试了一个假设,即印迹复合物部分是由生物电场形成的,生物电场塑造和引导神经活动,并将参与印迹复合物的区域联系在一起。就像管弦乐队的指挥一样,磁场影响着每个音乐家或神经元,并编排出交响乐的输出。我们的研究结果使用了协同理论、机器学习和来自空间延迟扫视任务的数据,并为记忆表征中的体内触觉耦合提供了证据。
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Cerebral Cortex (New York, NY)
Cerebral Cortex (New York, NY)
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