Effects of age and surface instability on the control of the center of mass

Bogaart, Maud van den; Bruijn, Sjoerd M.; Spildooren, Joke; Dieën, Jaap H. van; Meyns, Pieter

doi:10.1101/2021.09.08.459390

Cited by 3 publications

(11 citation statements)

References 49 publications

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“…We found that children used the counter-rotation mechanism relatively more to accelerate the CoM compared to younger adults. This is in contrast to our previous study using balance boards that could freely move in the frontal plane, in which we did not find an effect of age on the relative use of the counter-rotation mechanism (van den Bogaart et al, 2022). The increased contribution of the counter-rotation mechanism in children cannot be explained by differences in body height between children and younger adults, as accelerating the body center of mass by the counter-rotation mechanism is less efficient at lower height (A.1.1.…”

Section: Discussioncontrasting

confidence: 99%

“…Decreased pertinence of proprioceptive information from ankle muscles and a reduction of the effectiveness of ankle moments to accelerate the CoM when standing on a balance board could be an explanation for this (Horak et al, 2001; van Dieen et al, 2015). The number of balance losses (23), with balance boards that could freely move in the sagittal plane, was much larger than in our previous study (van den Bogaart et al, 2022), with uniaxial balance boards that could freely move in the frontal plane (3). Surface instability in the sagittal plane thus seems more challenging compared to surface instability in the frontal plane.…”

Section: Discussionmentioning

confidence: 68%

“…The methods and participants of this study were identical to that of our previous study (van den Bogaart et al, 2022). In the current experimental setup, however, the direction of the movement of the balance boards was in the anteroposterior direction (i.e., in the sagittal plane).…”

Section: Methodsmentioning

confidence: 99%

“…We also expected poorer balance performance and increased use of the counter-rotation mechanism during standing on the balance boards compared to standing on a rigid surface. Additionally, we hypothesized that the CoP mechanism is dominant, based on our findings when assessing the use of the postural control mechanisms in the frontal plane (van den Bogaart et al, 2022).…”

Section: Introductionmentioning

confidence: 99%

“…The use of these postural control mechanisms has been suggested to be direction-specific (Winter et al, 1998; Winter et al, 1996). Therefore, in a previous paper, we focused on the use of the postural control mechanism in the frontal plane (van den Bogaart et al, 2022). The current manuscript focusses on the use of the postural control mechanisms in the sagittal plane in the same population.…”

Section: Introductionmentioning

confidence: 99%

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Limited effects of age on the use of the ankle and counter-rotation mechanism in the sagittal plane

Bogaart

Bruijn

Spildooren

et al. 2022

Preprint

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Two mechanisms can be used to accelerate the center of mass (CoM) to control the CoM in relation to the base of support during standing. The first is applying ankle moments to shift the center of pressure (CoP), which has been coined the 'CoP mechanism'. The second is changing the angular momentum around the CoM to change the direction of the ground reaction force, i.e., the 'counter-rotation mechanism'. At both the beginning and the end of the lifespan, problems with postural control are common. In this study, we asessed anteroposterior balance performance and the related use of these postural control mechanisms in children, younger adults, and older adults. Sixteen pre-pubertal children (6-9y), 17 younger adults (18-24y) and eight older adults (65-80y) performed bipedal upright standing trials of 16 seconds on a rigid surface and on three balance boards that could freely move in the sagittal plane, varying in height (15-19 cm) of the board above the point of contact with the floor. Full body kinematics were measured. Performance related outcome measures, i.e., the number of trials with balance loss and the Root Mean Square (RMS) of the time series of the CoM acceleration were calculated. Additionally, the RMS of the time series of the CoM acceleration due to the CoP and counter-rotation mechanism and the contributions of the CoP and the counter-rotation mechanism to the CoM acceleration (in %) in the sagittal plane were calculated. Furthermore, selected kinematic measures, i.e., the orientation of the board and the head and the Mean Power Frequency of balance board orientation and of CoM acceleration were calculated. Compared to younger adults, children and older adults showed a poorer balance performance, reflected by a greater RMS of CoM accelerations and more balance loss in older adults. Across age groups and conditions, the contribution of the CoP mechanism to the total CoM acceleration was dominant, i.e., 95%-108%. The contribution of the counter-rotation mechanism ranged between 19%-31% (with totals higher than 100% indicating opposite effects of both mechanisms). We suggest that the contribution of the counter-rotation mechanism is limited, since the counter-rotation mechanism would conflict with stabilizing the orientation of the head in space. Furthermore, children did use the counter-rotation mechanism relatively more to accelerate the CoM compared to younger adults. Possibly this reflects that they are still learning to limit the contribution of the counter-rotation mechanism to the same extent as adults.

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Section: Discussioncontrasting

confidence: 99%

Section: Discussionmentioning

confidence: 68%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Limited effects of age on the use of the ankle and counter-rotation mechanism in the sagittal plane

Bogaart

Bruijn

Spildooren

et al. 2022

Preprint

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Is lumbopelvic motor control associated with dynamic stability during gait, strength, and endurance of core musculatures?: The STROBE study

2022

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Core stability has been described as the product of motor control and muscular capacity of the lumbopelvic-hip complex. Because of the wide range of functions of the lumbopelvic-hip complex, the gold standard for evaluating core stability remains controversial. The Sahrmann core stability test (SCST), used in conjunction with the stabilizer pressure biofeedback unit (PBU), is widely applied to objectively evaluate core stability as this pertains lumbopelvic motor control. However, the association between such control and other elements of core stability including core strength, endurance, and dynamic stability during gait has not been well-studied. We investigated the relationships among the ability to control the lumbopelvic complex, core strength and endurance, and gait parameters. We compared lateral core endurance, hip strengths, and gait parameters (lateral oscillation of the center of mass (COM), the single support time, and the peak ground reaction force) between good and poor core stability groups, as determined by the SCST. In addition, logistic regression analysis was used to determine whether other core stability measures correlated with the core stability status defined by the SCST. Only lateral oscillation of the COM during walking differed significantly between the good and poor core stability groups and was a significant predictor of SCST core stability status. Lumbopelvic motor control, (as defined by the SCST), affects dynamic stability during gait, but not to the strength or endurance of the core musculatures.Abbreviations: BMI = body mass index, BW = body weight, COM = center of mass, GRF = ground reaction force, PBU = pressure biofeedback unit, SCST = Sahrmann core stability test, VAS = visual analog scale.

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Effects of core stability and feedback music on upper body mediolateral movements during cycling

Jeong

Kim

Park

2022

Preprint

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Asymmetry in involuntary trunk motion may be related to core stability. If core stability properly controls postural stability during distal segment movements, trunk motion should be symmetric. Based on the assumption that head motion partially represents trunk motion, we developed a system that measures head angle and provides feedback music on head motion. If the head angle exceeds a predefined threshold, the music is muted in the earbud on the side of the head tilt. To investigate the relationship between core stability and asymmetric trunk motion, we measured mediolateral head angles during cycling using a self-developed system and compared them between individuals with good and poor core stability, and we investigated the effects of feedback music on mediolateral head motion during cycling. The poor-core-stability group showed significantly greater amplitude of, and less symmetry in, mediolateral head motion than the good-core-stability group. Furthermore, feedback music significantly reduced the amplitude of mediolateral head motion in the good- and poor-core-stability groups and improved symmetry in mediolateral head motion in the poor-core-stability group. Our findings imply that core stability is important for maintaining symmetry in head motion during cycling. Feedback music could be useful for establishing symmetry in head motion during cycling.

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Effects of age and surface instability on the control of the center of mass

Cited by 3 publications

References 49 publications

Limited effects of age on the use of the ankle and counter-rotation mechanism in the sagittal plane

Limited effects of age on the use of the ankle and counter-rotation mechanism in the sagittal plane

Is lumbopelvic motor control associated with dynamic stability during gait, strength, and endurance of core musculatures?: The STROBE study

Effects of core stability and feedback music on upper body mediolateral movements during cycling

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