Kitagawa Norimichi, Kato Masaharu, Kashino Makio
NTT Communication Science Laboratories, NTT Corporation Kanagawa, Japan.
NTT Communication Science Laboratories, NTT CorporationKanagawa, Japan; Center for Baby Science, Doshisha UniversityKyoto, Japan.
Front Integr Neurosci. 2016 Dec 16;10:42. doi: 10.3389/fnint.2016.00042. eCollection 2016.
When we actively interact with the environment, it is crucial that we perceive a precise temporal relationship between our own actions and sensory effects to guide our body movements. Thus, we hypothesized that voluntary movements improve perceptual sensitivity to the temporal disparity between auditory and movement-related somatosensory events compared to when they are delivered passively to sensory receptors. In the voluntary condition, participants voluntarily tapped a button, and a noise burst was presented at various onset asynchronies relative to the button press. The participants made either "sound-first" or "touch-first" responses. We found that the performance of temporal order judgment (TOJ) in the voluntary condition (as indexed by the just noticeable difference (JND)) was significantly better ( = 42.5 ms ± 3.8 SEM) than that when their finger was passively stimulated (passive condition: = 66.8 ms ± 6.3 SEM). We further examined whether the performance improvement with voluntary action can be attributed to the prediction of the timing of the stimulation from sensory cues (sensory-based prediction), kinesthetic cues contained in voluntary action, and/or to the prediction of stimulation timing from the efference copy of the motor command (motor-based prediction). When three noise bursts were presented before the target burst with regular intervals (predictable condition) and when the participant's finger was moved passively to press the button (involuntary condition), the TOJ performance was not improved from that in the passive condition. These results suggest that the improvement in sensitivity to temporal disparity between somatosensory and auditory events caused by the voluntary action cannot be attributed to sensory-based prediction and kinesthetic cues. Rather, the prediction from the efference copy of the motor command would be crucial for improving the temporal sensitivity.
当我们积极与环境互动时,至关重要的是我们要感知自身动作与感官效果之间精确的时间关系,以指导身体运动。因此,我们假设与被动将听觉和与运动相关的体感事件传递到感觉受体相比,自主运动会提高对这些事件时间差异的感知灵敏度。在自主条件下,参与者自主按下按钮,同时在相对于按钮按下的不同起始异步时间呈现一阵噪音。参与者做出“声音先出现”或“触觉先出现”的反应。我们发现,自主条件下的时间顺序判断(TOJ)表现(以恰可察觉差异(JND)为指标)明显优于手指受到被动刺激时(被动条件: = 66.8毫秒±6.3标准误)(自主条件下为 = 42.5毫秒±3.8标准误)。我们进一步研究了自主动作带来的表现提升是否可归因于根据感官线索对刺激时间的预测(基于感官的预测)、自主动作中包含的动觉线索,和/或根据运动指令的传出副本对刺激时间的预测(基于运动的预测)。当在目标爆发之前以规则间隔呈现三次噪音爆发时(可预测条件),以及当参与者的手指被被动移动以按下按钮时(非自主条件),TOJ表现并未比被动条件下有所改善。这些结果表明,自主动作引起的对体感和听觉事件时间差异的敏感度提升不能归因于基于感官的预测和动觉线索。相反,来自运动指令传出副本的预测对于提高时间敏感度至关重要。
