晕动症会令患者感到肌肉和内耳在移动,但实际上并没有看到它们在移动。
Motion sickness leaves sufferers feeling ill because they feel movement in your muscles and your inner ear but do not see it.
建立理想的晕动病模型对于其发病机制的研究和抗晕动药物的评价十分重要。
Therefore, establishment of an ideal motion sickness model is important for research on its mechanism and evaluation of drugs used for motion sickness.
太空晕动症会对一半或一半以上的宇航员产生影响,但持续时间一般不超过失重的最初三天左右。
Space motion sickness may affect half or more of space travelers, but usually does not last beyond the first three days or so of weightlessness. ?
人的反应和对眩晕的耐受性会发生变化,相比与计算机或电视屏幕,视觉诱发的晕动症更容易发生在虚拟现实头盔的使用过程中。
People's responses and tolerance to sickness vary, and visually induced motion sickness occurs more readily in virtual reality headsets than with computer or TV screens.
在传统的动晕症中,矛盾感来源于你的肌肉、关节以及内耳错综复杂的半规管系统都感觉到你正在运动,但你的眼睛却报告给你相反的结果。
In traditional motion sickness, the mismatch occurs because you feel movement in your muscles and joints as well as in the intricate coils of your inner ear, but you do not see it.
研究显示,女性比男性更容易出现数码动晕症,有偏头痛或脑震荡史者对此也较为敏感。
Studies show that women are more susceptible than men, as are those with a history of migraines or concussion.
研究显示,女性比男性更容易出现数码动晕症,有偏头痛或脑震荡史者对此也较为敏感。
Studies show that women are more susceptible than men, as are those with a history of migraines or concussion.
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