触觉探索能减弱和改变躯体感觉皮层的振荡。
Haptic exploration attenuates and alters somatosensory cortical oscillations.
机构信息
Department of Physical Therapy, Munroe Meyer Institute for Genetics and Rehabilitation.
Center for Magnetoencephalography, University of Nebraska Medical Center, Omaha, NE, USA.
出版信息
J Physiol. 2018 Oct;596(20):5051-5061. doi: 10.1113/JP276263. Epub 2018 Sep 21.
KEY POINTS
Several behavioural studies have shown the sensory perceptions are reduced during movement; yet the neurophysiological reason for this is not clear. Participants underwent stimulation of the median nerve when either sitting quietly (i.e. passive stimulation condition) or performing haptic exploration of a ball with the left hand. Magnetoencephalographic brain imaging and advanced beamforming methods were used to identify the differences in somatosensory cortical responses. We show that the neural populations active during the passive stimulation condition were strongly gated during the haptic exploration task. These results imply that the reduced haptic perceptions might be governed by gating of certain somatosensory neural populations.
ABSTRACT
Several behavioural studies have shown that children have reduced sensory perceptions during movement; however, the neurophysiological nexus for these altered perceptions remains unknown. We used magnetoencephalographic brain imaging and advanced beamforming methods to address this knowledge gap. In our experiment, a cohort of children (aged 10-18 years) underwent stimulation of the median nerve when either sitting quietly (i.e. passive stimulation condition) or performing haptic exploration of a ball with the left hand. Our results revealed two novel observations. First, there was a relationship between the child's age and the strength of the beta (18-26 Hz) response seen within the somatosensory cortices during the passive stimulation condition. This suggests that there may be an age-dependent change in the processing of peripheral feedback by the somatosensory cortices. Second, all of the cortical regions that were active during the passive stimulation condition were almost completely gated during the haptic task. Instead, the haptic task involved neural oscillations within Brodmann area 2, which is known to convey less spatially precise tactile information but is involved in the processing of more complex somatosensations across the respective digits. These results imply that the reduced somatosensory perceptions seen during movements in healthy children may be related to the gating of certain neural generators, as well as activation of haptic-specific neural generators within the somatosensory cortices. The utilization of such haptic-specific circuits during development may lead to the enhanced somatosensory processing during haptic exploration seen in healthy adults.
关键点
几项行为研究表明,在运动过程中感觉感知会降低;然而,这种现象的神经生理学原因尚不清楚。参与者在静息状态(即被动刺激条件)或用左手进行触觉探测球体时,接受正中神经刺激。使用脑磁图和先进的波束形成方法来识别体感皮层反应的差异。我们表明,在被动刺激条件下活跃的神经群体在触觉探测任务中被强烈门控。这些结果表明,触觉感知的降低可能是由某些体感神经群体的门控控制的。
摘要
几项行为研究表明,儿童在运动过程中感觉感知会降低;然而,这些改变的感知的神经生理学联系仍然未知。我们使用脑磁图和先进的波束形成方法来解决这一知识空白。在我们的实验中,一组年龄在 10 到 18 岁的儿童在静息状态(即被动刺激条件)或用左手进行触觉探测球体时接受正中神经刺激。我们的结果揭示了两个新的观察结果。首先,在被动刺激条件下,体感皮层中观察到的β(18-26 Hz)反应的强度与儿童的年龄之间存在关系。这表明,体感皮层对外周反馈的处理可能存在年龄依赖性的变化。其次,在被动刺激条件下活跃的所有皮层区域在触觉任务中几乎完全被门控。相反,触觉任务涉及到体感皮层内的布罗德曼区 2 的神经振荡,布罗德曼区 2 已知传递的触觉信息不那么精确,但涉及到相应手指的更复杂的体感感知的处理。这些结果表明,在健康儿童的运动过程中观察到的感觉感知的降低可能与特定神经发生器的门控以及体感皮层内特定触觉神经发生器的激活有关。在发育过程中利用这种特定触觉的回路可能会导致健康成年人在触觉探索中增强的体感处理。
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