Balslev Daniela, Miall R Chris, Cole Jonathan
School of Psychology, University of Birmingham, UK.
J Vis. 2007 Sep 28;7(5):12.1-7. doi: 10.1167/7.5.12.
During visually guided movements both vision and proprioception inform the brain about the position of the hand, so interaction between these two modalities is presumed. Current theories suggest that this interaction occurs by sensory information from both sources being fused into a more reliable, multimodal, percept of hand location. In the literature on perception, however, there is evidence that different sensory modalities interact in the allocation of attention, so that a stimulus in one modality facilitates the processing of a stimulus in a different modality. We investigated whether proprioception facilitates the processing of visual information during motor control. Subjects used a computer mouse to move a cursor to a screen target. In 28% of the trials, pseudorandomly, the cursor was rotated or the target jumped. Reaction time for the trajectory correction in response to this perturbation was compared under conditions with normal and reduced proprioception after 1-Hz rTMS over the hand-contralateral somatosensory cortex. Proprioceptive deafferentation slowed down the reaction time for initiating a motor correction in response to a visual perturbation in hand position, but not to a target jump. Correlation analyses suggested that reaction time was influenced by the size of the visual error rather than the visuo-proprioceptive conflict or the variance in cursor position. We suggest that during movements intact proprioception is necessary for the rapid processing of visual feedback.
在视觉引导的运动过程中,视觉和本体感觉都会向大脑传递手部的位置信息,因此推测这两种感觉模式之间存在相互作用。当前理论认为,这种相互作用是通过将来自两种来源的感觉信息融合成一个关于手部位置的更可靠的多模式感知来实现的。然而,在感知文献中,有证据表明不同的感觉模式在注意力分配中相互作用,因此一种模式中的刺激会促进另一种模式中刺激的处理。我们研究了在运动控制过程中本体感觉是否会促进视觉信息的处理。受试者使用电脑鼠标将光标移动到屏幕上的目标。在28%的试验中,光标会伪随机地旋转或目标会跳跃。在对与手部对侧体感皮层进行1赫兹重复经颅磁刺激(rTMS)后,在本体感觉正常和降低的条件下,比较了对这种扰动进行轨迹校正的反应时间。本体感觉传入神经阻滞减慢了对手部位置视觉扰动做出运动校正的反应时间,但对目标跳跃没有影响。相关性分析表明,反应时间受视觉误差大小的影响,而不是视觉-本体感觉冲突或光标位置的方差。我们认为,在运动过程中,完整的本体感觉对于视觉反馈的快速处理是必要的。