Brain network for small-scale features in active touch

Q4 Neuroscience
Saeed Babadi , Roger Gassert , Vincent Hayward , Marco Piccirelli , Spyros Kollias , Theodore E. Milner
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引用次数: 0

Abstract

An important tactile function is the active detection of small-scale features, such as edges or asperities, which depends on fine hand motor control. Using a resting-state fMRI paradigm, we sought to identify the functional connectivity of the brain network engaged in mapping tactile inputs to and from regions engaged in motor preparation and planning during active touch. Human participants actively located small-scale tactile features that were rendered by a computer-controlled tactile display. To induce rapid perceptual learning, the contrast between the target and the surround was reduced whenever a criterion level of success was achieved, thereby raising the task difficulty. Multiple cortical and subcortical neural connections within a parietal-cerebellar-frontal network were identified by correlating behavioral performance with changes in functional connectivity. These cortical areas reflected perceptual, cognitive, and attention-based processes required to detect and use small-scale tactile features for hand dexterity.

主动触摸中小尺度特征的脑网络
一个重要的触觉功能是主动检测小尺度特征,如边缘或凹凸不平,这取决于精细的手部运动控制。使用静息状态fMRI范式,我们试图确定参与映射触觉输入的大脑网络的功能连通性,并在主动触摸期间从参与运动准备和计划的区域映射触觉输入。人类参与者主动定位由计算机控制的触觉显示器呈现的小尺度触觉特征。为了诱导快速感知学习,每当成功达到一个标准水平时,目标和周围环境之间的对比就会减少,从而提高任务难度。在顶叶-小脑-额叶网络中,通过将行为表现与功能连接的变化相关联,确定了多个皮层和皮层下神经连接。这些皮质区域反映了感知、认知和基于注意力的过程,这些过程是检测和使用手部灵巧的小尺度触觉特征所必需的。
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
Neuroimage. Reports
Neuroimage. Reports Neuroscience (General)
CiteScore
1.90
自引率
0.00%
发文量
0
审稿时长
87 days
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