论文信息 - Vestibular, visual, and somatosensory contributions to human control of upright stance

Vestibular, visual, and somatosensory contributions to human control of upright stance

We investigated the changes of human posture control of upright stance which occur when vestibular cues (VEST) are absent and visual and somatosensory orientation cues (VIS, SOM) are removed. Postural responses to sinusoidal tilts of a motion platform in the sagittal plane (+/-2 degrees, f=0.05, 0.1, 0.2 and 0.4 Hz) were studied in normal subjects (Ns) and patients with bilateral vestibular loss (Ps). We found that absence of VEST (Ps, visual reference) and removal of VIS (Ns, no visual reference) had little effect on stabilization of upright body posture in space. In the absence of both VEST and VIS (Ps, no visual reference) somatosensory graviception still provided some information on body orientation in space at 0.05 and 0.1 Hz. However, at the higher frequencies Ps qualitatively changed their behavior; they then tended to actively align their bodies with respect to the motion platform. The findings confirm predictions of a novel postural control model.

[1] V. S. Gurfinkel,et al. Kinesthetic reference for human orthograde posture , 1995, Neuroscience.

[2] H Mittelstaedt,et al. Evidence of somatic graviception from new and classical investigations. , 1995, Acta oto-laryngologica. Supplementum.

[3] T Mergner,et al. Visual contributions to human self-motion perception during horizontal body rotation. , 2000, Archives italiennes de biologie.

[4] S. Lund,et al. Effects of different head positions on postural sway in man induced by a reproducible vestibular error signal. , 1983, Acta physiologica Scandinavica.

[5] David A. Winter,et al. Biomechanics and Motor Control of Human Movement , 1990 .

[6] C. Umilta,et al. Facilitation and interference components in the Simon effect. , 1999, Archives italiennes de biologie.

[7] Anne Kavounoudias,et al. Specific whole-body shifts induced by frequency-modulated vibrations of human plantar soles , 1999, Neuroscience Letters.

[8] Thomas Rosemeier,et al. Interaction of vestibular, somatosensory and visual signals for postural control and motion perception under terrestrial and microgravity conditions—a conceptual model , 1998, Brain Research Reviews.