Influence of visual biofeedback and inherent stability on trunk postural control

Augmented sensory biofeedback training is often used to improve postural control. Our previous study showed that continuous auditory biofeedback was more effective than continuous visual biofeedback to improve postural sway while standing. However, it has also been reported that both discrete visual and auditory biofeedback training, presented intermittently, improves bimanual task performance more than continuous visual biofeedback training. Therefore, this study aimed to investigate the relative effectiveness of discrete visual biofeedback versus discrete auditory biofeedback to improve postural control. Twenty-two healthy young adults were randomly assigned to either a visual or auditory biofeedback group. Participants were asked to shift their center of pressure (COP) by voluntary postural sway forward and backward in line with a hidden target, which moved in a sinusoidal manner and was displayed intermittently. Participants were asked to decrease the diameter of a visual circle (visual biofeedback) or the volume of a sound (auditory biofeedback) based on the distance between the COP and the target in the training session. The feedback and the target were given only when the target reached the inflection points of the sine curves. In addition, the perceptual magnitudes of visual and auditory biofeedback were equalized using Stevens’ power law. Results showed that the mean and standard deviation of the distance between COP and the target were reduced int the test session, removing the augmented sensory biofeedback, in both biofeedback training groups. However, the temporal domain of the performance improved in the test session in the auditory biofeedback training group, but not in the visual biofeedback training group. In conclusion, discrete auditory biofeedback training was more effective for the motor learning of voluntarily postural swaying compared to discrete visual biofeedback training, especially in the temporal domain.

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Improving postural control through integration of sensory inputs and visual biofeedback

Topics in Stroke Rehabilitation ◽

10.1080/10749357.1995.11754043 ◽

1995 ◽

Vol 1 (4) ◽

pp. 32-47

Author(s):

Kenda Fuller ◽

Lisa Huber

Keyword(s):

Postural Control ◽

Sensory Inputs ◽

Visual Biofeedback

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Evaluation of a visual biofeedback on the postural control in Parkinson's disease

Neurophysiologie Clinique ◽

10.1016/j.neucli.2013.10.134 ◽

2014 ◽

Vol 44 (1) ◽

pp. 77-86 ◽

Cited By ~ 30

Author(s):

S. Caudron ◽

M. Guerraz ◽

A. Eusebio ◽

J.-P. Gros ◽

J.-P. Azulay ◽

...

Keyword(s):

Parkinson’S Disease ◽

Parkinson's Disease ◽

Postural Control ◽

Visual Biofeedback

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A NEW TRUNK SWAY ASSESSMENT PROTOCOL FOR STROKE PATIENTS USING A BIOFEEDBACK INERTIAL-BASED SENSING MODALITY

Biomedical Engineering Applications Basis and Communications ◽

10.4015/s1016237212500421 ◽

2012 ◽

Vol 24 (05) ◽

pp. 461-469 ◽

Cited By ~ 2

Author(s):

Kok-Soon Soon ◽

Ming-Yih Lee ◽

Chih-Chien Chang ◽

Chun-Hou Wang ◽

Chih-Feng Lin

Keyword(s):

Postural Control ◽

Postural Sway ◽

Center Of Mass ◽

Control Group ◽

Angular Deviation ◽

Stroke Patients ◽

Assessment Protocol ◽

Visual Biofeedback ◽

Trunk Sway ◽

Experimental Group

Brain damage pathology can generate an irrelevant motor program leading to abnormal posture. Given this observation, we tested the hypothesis that postural control deficits are present in individuals with postural disorders. A new trunk sway assessment protocol evaluation system using an inertial-based sensing technique combined with visual-biofeedback strategies was developed. The proposed system was used to assess the angular deviation of the center of mass and enhanced balance control in patients with stroke. Twelve participants with hemiplegia were randomly divided into a visual-biofeedback group (experimental) and a without visual-biofeedback group (control), and were asked to stand as still as possible for 30 s. Postural sway data were submitted to conventional quantitative analyses of sway magnitude using a center of mass measurement. Additionally, group means were compared using parametric tests. Parameters in both the anterior-posterior and medio-lateral directions within the stroke patients were compared using paired t-tests. The experimental group showed increased postural control, indicative of reduced postural sway. Decreased complexity in the medio-lateral direction was also observed in the experimental group, suggesting both a reduction in the dynamic range available for postural control, and that their postural corrections were dominated primarily by longer-term scales. Significant interactions between the diagnostic group and visual condition were also observed for both of these measures, suggesting that the control group participants were impaired in their ability to make corrections to their sway pattern when no visual biofeedback was available. Greater sway magnitude and reduced complexity suggest that individuals with hemiplegia have deficits in sensorimotor integration and a reduced range of timescales available within which to make postural corrections.

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