A study on bio-based Motion Command Signal for stability in quiet standing posture

The delay of the sensory-motor feedback loop is a destabilizing factor within the neural control mechanism of quiet standing. The purposes of this study were 1) to experimentally identify the neuromusculoskeletal torque-generation process during standing posture and 2) to investigate the effect of the delay induced by this system on the control mechanism of balance during quiet standing. Ten healthy adults participated in this study. The ankle torque, ankle angle, and electromyograms from the right lower leg muscles were measured. A ground-fixed support device was used to support the subject at his/her knees, without changing the natural ankle angle during quiet standing. Each subject was asked to mimic the ankle torque fluctuation by exerting voluntary ankle extension while keeping the supported standing posture. Using the rectified soleus electromyogram as the input and the ankle torque as the output, a critically damped, second-order system (twitch contraction time of 0.152 ± 0.027 s) successfully described the dynamics of the torque-generation process. According to the performed Bode analysis, the phase delay induced by this torque-generation process in the frequency region of spontaneous body sway during quiet standing was considerably large, corresponding to an effective time delay of about 200 to 380 ms. We compared the stability of the balance control system with and without the torque-generation process and demonstrated that a much smaller number of gain combinations can stabilize the model with the torque-generation process than without it. We concluded that the phase delay induced by the torque-generation process is a more destabilizing factor in the control mechanism of quiet standing than previously assumed, which restricts the control strategies that can stabilize the entire system.

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The Effect of Holding an Object on Postural Stability and Suprapostural Task Performance

Journal of Applied Biomechanics ◽

10.1123/jab.2019-0040 ◽

2019 ◽

Vol 35 (6) ◽

pp. 418-425

Author(s):

Joshua J. Liddy ◽

Amanda J. Arnold ◽

HyeYoung Cho ◽

Nathaniel L. Romine ◽

Jeffrey M. Haddad

Keyword(s):

Task Performance ◽

Postural Stability ◽

Postural Sway ◽

Quiet Standing ◽

Dominant Hand ◽

Standing Posture ◽

Manual Task ◽

Highly Sensitive ◽

Suprapostural Task ◽

Error Count

Holding an object has been found to reduce postural sway during quiet standing. However, people normally stand to accomplish suprapostural goals, such as fitting a key into a lock. Postural control should therefore be assessed by examining postural outcomes in the context of suprapostural task performance. This study assessed whether holding an object increased standing postural stability and improved the performance of a concurrent precision manual task. A total of 15 young adults performed a precision manual task with their dominant hand while holding or not holding an object in their nondominant hand. Postural stability was assessed using measures of postural sway and time to boundary. Suprapostural task performance was assessed as an error count. Holding did not influence postural sway or suprapostural task performance. Discrepancies among previous studies coupled with the present findings suggest that the effects of holding an object on standing posture are highly sensitive to the experimental context. The authors provide several explanations for their findings and discuss the limitations of previous suggestions that holding an object may have clinical relevance for balance-compromised populations.

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Voluntarily controlled but not merely observed visual feedback affects postural sway

PeerJ ◽

10.7717/peerj.4643 ◽

2018 ◽

Vol 6 ◽

pp. e4643 ◽

Cited By ~ 1

Author(s):

Shu Imaizumi ◽

Tomohisa Asai ◽

Kentaro Hiromitsu ◽

Hiroshi Imamizu

Keyword(s):

Visual Feedback ◽

Postural Sway ◽

High Gain ◽

Voluntary Control ◽

Quiet Standing ◽

Control Group ◽

Sense Of Control ◽

Feedback Control System ◽

Standing Posture ◽

Intentional Control

Online stabilization of human standing posture utilizes multisensory afferences (e.g., vision). Whereas visual feedback of spontaneous postural sway can stabilize postural control especially when observers concentrate on their body and intend to minimize postural sway, the effect of intentional control of visual feedback on postural sway itself remains unclear. This study assessed quiet standing posture in healthy adults voluntarily controlling or merely observing visual feedback. The visual feedback (moving square) had either low or high gain and was either horizontally flipped or not. Participants in the voluntary-control group were instructed to minimize their postural sway while voluntarily controlling visual feedback, whereas those in the observation group were instructed to minimize their postural sway while merely observing visual feedback. As a result, magnified and flipped visual feedback increased postural sway only in the voluntary-control group. Furthermore, regardless of the instructions and feedback manipulations, the experienced sense of control over visual feedback positively correlated with the magnitude of postural sway. We suggest that voluntarily controlled, but not merely observed, visual feedback is incorporated into the feedback control system for posture and begins to affect postural sway.

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Perceived Standing Position after Reduction of Foot-Pressure Sensation by Cooling the Sole

Perceptual and Motor Skills ◽

10.2466/pms.2003.96.2.381 ◽

2003 ◽

Vol 96 (2) ◽

pp. 381-399 ◽

Cited By ~ 12

Author(s):

Katsuo Fujiwara ◽

Hiroshi Toyama ◽

Hitoshi Asai ◽

Kenji Kunita ◽

Akiyoshi Miyaguchi ◽

...

Keyword(s):

Normal Condition ◽

Sensory Information ◽

Standing Position ◽

Quiet Standing ◽

Standing Posture ◽

Foot Pressure ◽

Reference Position ◽

Center Of Foot Pressure ◽

Sole Of The Foot ◽

Pressure Sensation

We investigated the influence of the reduction of foot-pressure sensation by cooling the sole of the foot, at 1°C for 30 or 40 minutes, on the perception of standing position varied in the anteroposterior direction. The subjects were 16 healthy undergraduates. Firstly, for 4 of the subjects, cooling the sole of the foot decreased sensory information from the mechanoreceptors in the sole, by resting for an increase in the threshold for two-point discrepancy discrimination on the sole of the foot and for the disappearance of postural change with vibration to the sole. Next, the perception of standing position was measured by reproduction of a given standing reference position involving forward or backward leaning under both normal and cooled conditions of the feet. Standing position was varied in relation to the location of the center of foot pressure, defined as distance from the heel in percentage of the length of the foot. The reference positions, representing various locations of the center of foot pressure, were set at 10% increments from 20% to 80% of the length of the foot. With eyes closed, the subject first experienced the reference position and then attempted to reproduce it. The mean location of the center of foot pressure in the quiet standing posture was 45.7%. At the 40%, 50%, and 60% reference positions, those closest to quiet standing, absolute errors of reproduction were significantly larger than at other reference positions in both the normal and the cooled conditions. They were significantly larger in the cooled than in the normal condition. The 50% and 60% reference positions were reproduced significantly further forward in the cooled than in the normal condition. These results may be explained as due to an absence of marked changes in sensory information from both muscular activity and foot pressure when moving to reference positions close to the quiet standing posture.

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Postural Control and Sleep Quality in Cognitive Dual Tasking in Healthy Young Adults

J ◽

10.3390/j4030021 ◽

2021 ◽

Vol 4 (3) ◽

pp. 257-265

Author(s):

Marina Saraiva ◽

Joel Marouvo ◽

Orlando Fernandes ◽

Maria António Castro ◽

João Paulo Vilas-Boas

Keyword(s):

Young Adults ◽

Sleep Quality ◽

Postural Control ◽

Center Of Pressure ◽

Cognitive Task ◽

Quiet Standing ◽

Poor Sleep ◽

Standing Posture ◽

Poor Sleep Quality ◽

Dual Tasking

Although sleep quality disorders can have a negative effect on postural control, studies about this subject are scarce. The aim of this study is to assess the differences in standing posture performance during dual tasking between healthy young adults with a good and poor sleep quality. Thirty-five healthy participants (23.09 ± 3.97 years) performed a postural task (standing posture single task ((ST)) and a dual task (DT): quiet standing while performing a concurrent cognitive task, while the total excursion of the center of pressure (TOTEX CoP), the displacement anterior–posterior (CoP-AP) and medial–lateral (CoP-ML), the mean total velocity displacement of CoP (MVELO CoP) and ellipse sway area (CEA) were measured with a force plate. After assessing the sleep quality with the Pittsburgh Sleep Quality Index, they were divided into two groups (good ((n = 21)) and poor ((n = 14)) sleep quality) to establish comparisons. This study revealed no significant differences in TOTEX CoP, CoP-ML, CoP-AP, MVELO CoP, and CEA among both sleep quality groups. In conclusion, differences in the sleep quality (good or poor sleep quality) among young adults appear not to be a relevant factor in the CoP variation, but the DT versus ST can compromise postural control performance independently of the sleep quality.

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