声音诱发的前庭刺激会影响视觉自我运动过程中对重力效应的预期。

Sound-evoked vestibular stimulation affects the anticipation of gravity effects during visual self-motion.

作者信息

Indovina Iole, Mazzarella Elisabetta, Maffei Vincenzo, Cesqui Benedetta, Passamonti Luca, Lacquaniti Francesco

机构信息

Laboratory of Neuromotor Physiology, IRCCS Santa Lucia Foundation, Via Ardeatina 306, 00179, Rome, Italy,

出版信息

Exp Brain Res. 2015 Aug;233(8):2365-71. doi: 10.1007/s00221-015-4306-9. Epub 2015 May 24.

DOI:10.1007/s00221-015-4306-9

PMID:26003125

Abstract

Humans anticipate the effects of gravity during visually simulated self-motion in the vertical direction. Here we report that an artificial vestibular stimulation consisting of short-tone bursts (STB) suppresses this anticipation. Participants pressed a button upon entering a tunnel during virtual-reality roller coaster rides in downward or forward directions. In different trials, we delivered STB, pulsed white noise (WN), or no sound (NO). In the control conditions (WN, NO), participants responded earlier during downward than forward motion irrespective of true kinematics, consistent with the a priori expectation that downward but not forward motion is accelerated by gravity. STB canceled the difference in response timing between the two directions, without affecting overall task performance. Thus, we argue that vestibular signals play a role in the anticipation of visible gravity effects during self-motion.

摘要

人类在垂直方向的视觉模拟自我运动过程中会预期重力的影响。在此我们报告，由短音爆（STB）组成的人工前庭刺激会抑制这种预期。参与者在虚拟现实过山车向下或向前行驶进入隧道时按下按钮。在不同的试验中，我们施加了STB、脉冲白噪声（WN）或不施加声音（NO）。在对照条件（WN、NO）下，无论真实运动学情况如何，参与者在向下运动时的反应都比向前运动时更早，这与重力会加速向下而非向前运动的先验预期一致。STB消除了两个方向之间反应时间的差异，而不影响整体任务表现。因此，我们认为前庭信号在自我运动过程中对可见重力效应的预期中发挥作用。

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声音诱发的前庭刺激会影响视觉自我运动过程中对重力效应的预期。

Sound-evoked vestibular stimulation affects the anticipation of gravity effects during visual self-motion.

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