Motor equivalent control of the center of mass in response to support surface perturbations

Scholz, John P.; Schöner, Gregor; Hsu, Wei-Li; Jeka, John J.; Horak, Fay B.; Varga, Martin

doi:10.1007/s00221-006-0848-1

Cited by 114 publications

(114 citation statements)

References 39 publications

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“…Results of a recent reanalysis of support surface perturbations (Park et al 2004) also is consistent with this finding. Differences in the configuration of the joints between pre-and postperturbation phases were largely consistent with a motor equivalent response; i.e., different joint combinations between the phases achieved an equivalent CM position (Scholz et al 2007).…”

Section: Introductionsupporting

confidence: 53%

“…Finally, two recent studies support the hypothesis that many joints along the kinematic chain are coordinated to achieve postural stability (Krishnamoorthy et al 2005;Scholz et al 2007). Krishnamoorthy et al (2005) studied joint coordination in subjects who stood as quietly as possible on a narrow beam both with and without vision.…”

Section: Introductionmentioning

confidence: 74%

“…Stabilization of the CM may be the indirect result of the control of other variables, for example, the position of the joints relative to their baseline position. Only a few studies have employed experimental methods that test this assumption directly (Krishnamoorthy et al 2005;Scholz et al 2007). That the CM may be a controlled variable is consistent, however, with recent evidence that neurophysiological mechanisms exist that encode higher level task variables (Bosco et al 2003;Poppele et al 2002).…”

Section: Introductionmentioning

confidence: 93%

“…The reflective marker coordinates at each data sample were used to calculate joint angles at the ankle, knee, hip, lumbo-sacral junction, cervical spine (C 7 -T 1 junction), and atlanto-occipital joint in the sagittal plane. The atlanto-occipital joint was included based on previous work that revealed substantial motion of this joint independent of that of the C 7 -T 1 articulation (Park et al 2004;Scholz et al 2007). The angle between adjacent limb segments was calculated using a link-segment model.…”

Section: Data Reductionmentioning

confidence: 99%

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Control and Estimation of Posture During Quiet Stance Depends on Multijoint Coordination

Hsu

Scholz²,

Schöner³

et al. 2007

Journal of Neurophysiology

254

233

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Hsu W-L, Scholz JP, Schöner G, Jeka JJ, Kiemel T. Control and estimation of posture during quiet stance depends on multijoint coordination. J Neurophysiol 97: 3024 -3035, 2007. First published February 21, 2007 doi:10.1152/jn.01142.2006. This study tested the hypotheses that all major joints along the longitudinal axis of the body are equally active during quiet standing and that their motions are coordinated to stabilize the spatial positions of the center of mass (CM) and head. Analyses of the effect of joint configuration variance on the stability of the CM and head positions were performed using the uncontrolled manifold (UCM) approach. Subjects stood quietly with arms folded across their chests for three 5-min trials each with and without vision. The UCM analysis revealed that the six joints examined were coordinated such that their combined variance had minimal effect on the CM and head positions. Removing vision led to a structuring of the resulting increased joint variance such that little of the increase affected stability of the CM and head positions. The results reveal a control strategy involving coordinated variations of most major joints to stabilize variables important to postural control during quiet stance.

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Section: Introductionsupporting

confidence: 53%

Section: Introductionmentioning

confidence: 74%

Section: Introductionmentioning

confidence: 93%

Section: Data Reductionmentioning

confidence: 99%

See 2 more Smart Citations

Control and Estimation of Posture During Quiet Stance Depends on Multijoint Coordination

Hsu

Scholz²,

Schöner³

et al. 2007

Journal of Neurophysiology

254

233

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“…Scholz et al 6 ) used UCM analysis to reveal that although coordination of each segment angle stabilized the COM in the sagittal plane during STS, the head and hand postions were not stabilized. Scholz et al 7 ) quantitatively showed that COM is a controlled variable of the postural system, and that its control is achieved through selective, motor equivalent changes in the joint configuration in response to support surface perturbations. The UCM analysis also revealed that the central nervous system (CNS) organizes co-variation of elemental variables to stabilize the important performance variable in a task-specific manner 8) .…”

mentioning

confidence: 99%

The coordination of joint movements during sit-to-stand motion in old adults: the uncontrolled manifold analysis

Anan

Hattori²,

Tanimoto

et al. 2017

Phys Ther Res

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ABSTRACT. Objective: Sit-to-stand motion (STS) is a dynamic motion utilized in fundamental activities of daily living and requires extensive joint movement in the lower extremities and the trunk and coordination of multiple body segments. The present study aimed to investigate whether aging affects the motor coordination of joint movements required to stabilize the horizontal and vertical movement of center of mass using the uncontrolled manifold (UCM) analysis. Method: We recruited 39 older adults with no musculoskeletal and/or neuromuscular conditions that affected STS, along with 21 healthy younger adults. All subjects performed five STS trials from a chair with the seat height adjusted to the length of their lower leg at a selfselected motion speed. Kinematic data were collected using a three-dimensional motion analysis system. We performed the UCM analysis to assess the effects of joint angle variance (elemental variable) to stabilize the horizontal and vertical movement of COM (performance variable) and calculated the joint angle variance that does not affect COM (VUCM), the variance that affects COM (VORT), and the synergy index (ΔV). Results: ΔV values in the horizontal direction were higher in the older adults than in the younger adults, but ΔV values in the vertical direction were lower in the older adults than in the younger adults. Conclusion: Older adults require increasing levels of stabilization of horizontal movement of COM after buttocks-off in the STS maneuver. As a result, variance in the joint angle of the lower extremities indicated no kinematic synergy for stabilizing the vertical movement of COM. Key words: Uncontrolled manifold analysis, Sit-to-stand, Aging (Phys Ther Res 20: 44-50, 2017)T he Sit-to-stand motion (STS) is a highly common motion that is performed as frequently as gait in daily life. It requires two tasks: transitioning the center of mass (COM) from a wide base of support (BOS) provided by the buttocks, thighs, and feet to a narrow BOS provided by the feet alone, and lifting the COM from the height of sitting to that of standing. STS also represents a motion for which the muscle strength of lower extremities is particularly important 1,2 ) . STS is associated with applied motions such as transfer and walking, and its acquisition is an essential factor to improve mobility capability. STS results from interactions characteristic of task-related, individual, and environmental constraints 3) . Alexander et al. 4) reported that aging affects STS acquisition, and that older adults with difficulty performing this maneuver require prolonged STS time. We reported that older subjects who experienced dif- The coordination of joint movements during STS motion 45 ficulty with this motion performed the STS using less energy and with more consideration for stability, relative to younger healthy subjects 5) . It is important to control the redundant degrees-offreedom (DOFs), which coordinate with each body segment to accomplish tasks. STS is a whole-body movement that requires simultaneous ...

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Face‐to‐Face Communication

Lundgren

McMakin

2013

Risk Communication

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The concept of action as basic motor control unit for goal-directed movement behavior has been used primarily for private or non-communicative actions like walking, reaching, or grasping. In this paper literature is reviewed indicating that this concept can also be used in all domains of face-to-face communication like speech, co-verbal facial expression, and coverbal gesturing. Three domain-specific types of actions, i.e. speech actions, facial actions and hand-arm actions are defined in this paper and a model is proposed that elucidates the underlying biological mechanisms of action production, action perception, and action acquisition in all domains of face-to-face communication. This model can be used as theoretical framework for empirical analysis or simulation with embodied conversational agents, and thus for advanced human-computer interaction technologies.

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Motor equivalent control of the center of mass in response to support surface perturbations

Cited by 114 publications

References 39 publications

Control and Estimation of Posture During Quiet Stance Depends on Multijoint Coordination

Control and Estimation of Posture During Quiet Stance Depends on Multijoint Coordination

The coordination of joint movements during sit-to-stand motion in old adults: the uncontrolled manifold analysis

Face‐to‐Face Communication

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