Li Ruixuan, Peterson Nicolette, Walter Hannah J, Rath Ruth, Curry Christopher, Stoffregen Thomas A
School of Kinesiology, University of Minnesota, USA.
School of Kinesiology, University of Minnesota, USA.
Gait Posture. 2018 Sep;65:251-255. doi: 10.1016/j.gaitpost.2018.08.005. Epub 2018 Aug 8.
Several studies have shown that the kinematics of standing body sway can be influenced by the provision of real time feedback about postural activity through visual displays.
We asked whether real time visual feedback about the position of the body's center of pressure (COP) might affect body sway and the occurrence of visually induced motion sickness.
Standing participants (women) were exposed to complex visual oscillation in a moving room, a device that nearly filled the field of view. During exposure to complex visual oscillations, we provided real time feedback about displacements of the body's center of pressure through a visual display presented on a tablet computer.
The incidence of motion sickness was greater than in a closely related study that did not provide real time feedback. We monitored the kinematics of the body's center of pressure before and during exposure to visual motion stimuli. Body sway differed between participants who reported motion sickness and those who did not. These differences existed before any participants experienced subjective symptoms of motion sickness.
Real time visual feedback about COP displacement did not reduce visually induced motion sickness, and may have increased it. We identified postural precursors of motion sickness that may have been exacerbated by the COP display. The results indicate that visual feedback about postural activity can destabilize postural control, leading to negative side effects. We suggest possible alternative types of visual displays that might help to stabilize posture, and reduce motion sickness.
多项研究表明,通过视觉显示提供关于姿势活动的实时反馈,可影响站立时身体摆动的运动学特征。
我们探讨了关于身体压力中心(COP)位置的实时视觉反馈是否会影响身体摆动以及视觉诱发晕动病的发生。
站立的参与者(女性)置身于一个移动室内的复杂视觉振荡环境中,该装置几乎填满了视野。在暴露于复杂视觉振荡期间,我们通过平板电脑上呈现的视觉显示提供关于身体压力中心位移的实时反馈。
晕动病的发生率高于一项未提供实时反馈的密切相关研究。我们在暴露于视觉运动刺激之前和期间监测了身体压力中心的运动学特征。报告有晕动病的参与者与未报告的参与者之间身体摆动存在差异。这些差异在任何参与者出现晕动病主观症状之前就已存在。
关于COP位移的实时视觉反馈并未减少视觉诱发的晕动病,反而可能增加了晕动病的发生。我们识别出了可能因COP显示而加剧的晕动病姿势先兆。结果表明,关于姿势活动的视觉反馈会破坏姿势控制的稳定性,导致负面副作用。我们提出了可能有助于稳定姿势并减少晕动病的其他类型视觉显示。
