Role of visual and static vestibular influences on dynamic posture control.

Human neurobiology Pub Date : 1986-01-01

H C Diener, J Dichgans, B Guschlbauer, M Bacher

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Abstract

Postural stabilization in altered visual and vestibular conditions was investigated in humans subjected to fast transient disturbances and during sinusoidal movement of the standing support. Visual inputs were varied by applying stroboscopic illumination, stabilizing the visual surround in respect to head movements, inducing apparent body movement in pitch by continuously moving stripe patterns up or down and by eye closure. Static vestibular input was modified by bending the head forwards or backwards, or to the right or left shoulder (eyes closed). Neither biomechanical parameters of standing nor EMG responses of the anterior tibial and triceps surae muscles were modified by the different visual and vestibular conditions during fast transient (80 degrees/s) platform movements 4 degrees toe-up. Continuous regulation of upright stance during sinusoidal movements (1 Hz, 0.3 Hz), however, clearly depended on the different modifications of visual and vestibular inputs. Fast transient disturbances are easily compensated in a reflex-like manner independent of visual and vestibular feedback. Continuous regulation of upright posture during slow disturbances, however, clearly depends on the evaluation of afferent information from the visual, vestibular, and proprioceptive systems.

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视觉和静态前庭影响对动态姿势控制的作用。

在快速瞬态干扰和站立支撑的正弦运动过程中，研究了改变视觉和前庭条件下的姿势稳定。视觉输入通过使用频闪照明、稳定头部运动的视觉环境、通过连续上下移动条纹图案和闭眼诱导明显的身体运动来改变。静态前庭输入可以通过头向前或向后弯曲，或向右或左肩膀弯曲(闭上眼睛)来修改。站立的生物力学参数以及胫骨前肌和肱三头肌表面肌的肌电反应均未因视觉和前庭条件的不同而改变(80度/秒)。然而，在正弦运动(1hz, 0.3 Hz)中，直立姿势的持续调节显然取决于视觉和前庭输入的不同修改。快速瞬态干扰很容易以类似反射的方式补偿，独立于视觉和前庭反馈。然而，在缓慢的干扰中，直立姿势的持续调节显然依赖于对来自视觉、前庭和本体感觉系统的传入信息的评估。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Human neurobiology

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