Université de Bourgogne, Campus Universitaire, UFR STAPS, Dijon, France.
Cortex. 2013 Sep;49(8):2249-59. doi: 10.1016/j.cortex.2012.11.008. Epub 2012 Nov 27.
The prediction of our actions and their interaction with the external environment is critical for sensorimotor adaptation. For instance, during prism exposure, which deviates laterally our visual field, we progressively correct movement errors by combining sensory feedback with forward model sensory predictions. However, very often we project our actions to the external environment without physically interacting with it (e.g., mental actions). An intriguing question is whether adaptation will occur if we imagine, instead of executing, an arm movement while wearing prisms. Here, we investigated prism adaptation during mental actions. In the first experiment, participants (n = 54) performed arm pointing movements before and after exposure to the optical device. They were equally divided into six groups according to prism exposure: Prisms-Active, Prisms-Imagery, Prisms-Stationary, Prisms-Stationary-Attention, No Conflict-Prisms-Imagery, No Prisms-Imagery. Adaptation, measured by the difference in pointing errors between pre-test and post-test, occurred only in Prisms-Active and Prisms-Imagery conditions. The second experiment confirmed the results of the first experiment and further showed that sensorimotor adaptation was mainly due to proprioceptive realignment in both Prisms-Active (n = 10) and Prisms-Imagery (n = 10) groups. In both experiments adaptation was greater following actual than imagined pointing movements. The present results are the first demonstration of prism adaptation by mental practice under prism exposure and they are discussed in terms of internal forward models and sensorimotor plasticity.
我们的动作预测及其与外部环境的相互作用对于感觉运动适应至关重要。例如,在棱镜暴露期间,我们的视野会向侧面偏斜,我们通过将感觉反馈与前向模型感觉预测相结合,逐步纠正运动错误。然而,我们经常在没有与外部环境实际交互的情况下(例如,在心理动作中)预测我们的动作。一个有趣的问题是,如果我们在佩戴棱镜时想象而不是执行手臂运动,是否会发生适应。在这里,我们研究了心理动作期间的棱镜适应。在第一个实验中,参与者(n=54)在暴露于光学设备之前和之后进行手臂指向运动。他们根据棱镜暴露情况平均分为六组:主动棱镜、想象棱镜、固定棱镜、固定棱镜-注意、无冲突棱镜-想象、无棱镜-想象。适应是通过前测和后测之间的指向误差差异来衡量的,仅在主动棱镜和想象棱镜条件下发生。第二个实验证实了第一个实验的结果,并进一步表明,感觉运动适应主要归因于主动棱镜(n=10)和想象棱镜(n=10)组中的本体感觉重新调整。在两个实验中,实际指向运动后的适应程度大于想象指向运动后的适应程度。本研究结果首次证明了在棱镜暴露下通过心理练习进行的棱镜适应,并且从内部前向模型和感觉运动可塑性的角度进行了讨论。
