Alberts Bart B G T, Selen Luc P J, Verhagen Wim I M, Medendorp W Pieter
Radboud University Nijmegen Donders Institute for Brain, Cognition and Behaviour, Montessorilaan 3, 6525HR, Nijmegen, the Netherlands
Radboud University Nijmegen Donders Institute for Brain, Cognition and Behaviour, Montessorilaan 3, 6525HR, Nijmegen, the Netherlands.
Physiol Rep. 2015 May;3(5). doi: 10.14814/phy2.12385.
Patients with bilateral vestibular loss have balance problems in darkness, but maintain spatial orientation rather effectively in the light. It has been suggested that these patients compensate for vestibular cues by relying on extravestibular signals, including visual and somatosensory cues, and integrating them with internal beliefs. How this integration comes about is unknown, but recent literature suggests the healthy brain remaps the various signals into a task-dependent reference frame, thereby weighting them according to their reliability. In this paper, we examined this account in six patients with bilateral vestibular a-reflexia, and compared them to six age-matched healthy controls. Subjects had to report the orientation of their body relative to a reference orientation or the orientation of a flashed luminous line relative to the gravitational vertical, by means of a two-alternative-forced-choice response. We tested both groups psychometrically in upright position (0°) and 90° sideways roll tilt. Perception of body tilt was unbiased in both patients and controls. Response variability, which was larger for 90° tilt, did not differ between groups, indicating that body somatosensory cues have tilt-dependent uncertainty. Perception of the visual vertical was unbiased when upright, but showed systematic undercompensation at 90° tilt. Variability, which was larger for 90° tilt than upright, did not differ between patients and controls. Our results suggest that extravestibular signals substitute for vestibular input in patients' perception of spatial orientation. This is in line with the current status of rehabilitation programs in acute vestibular patients, targeting at recognizing body somatosensory signals as a reliable replacement for vestibular loss.
双侧前庭丧失的患者在黑暗中存在平衡问题,但在明亮环境中能相当有效地保持空间定向。有人提出,这些患者通过依赖前庭外信号(包括视觉和躯体感觉信号)并将它们与内在信念整合,来补偿前庭线索。这种整合是如何实现的尚不清楚,但最近的文献表明,健康的大脑会将各种信号重新映射到一个任务依赖的参考系中,从而根据其可靠性对它们进行加权。在本文中,我们对6例双侧前庭无反应的患者进行了研究,并将他们与6例年龄匹配的健康对照者进行比较。受试者必须通过二选一强制选择反应,报告其身体相对于参考定向的定向,或一条闪烁的发光线相对于重力垂直线的定向。我们在直立位(0°)和向一侧翻滚90°倾斜的情况下,对两组受试者进行了心理测量测试。患者和对照组对身体倾斜的感知均无偏差。90°倾斜时反应变异性更大,但两组之间没有差异,这表明身体躯体感觉线索具有与倾斜相关的不确定性。直立时对视觉垂直线的感知无偏差,但在90°倾斜时表现出系统性的补偿不足。90°倾斜时的变异性大于直立时,患者和对照组之间没有差异。我们的结果表明,在前庭丧失患者的空间定向感知中,前庭外信号替代了前庭输入。这与急性前庭患者康复计划的现状一致,该计划旨在将身体躯体感觉信号识别为前庭丧失的可靠替代。
