Gait stability in response to platform, belt, and sensory perturbations in young and older adults

Roeles, Sanne; Rowe, Peter; Bruijn, Sjoerd M.; Childs, Craig; Tarfali, Georgia; Steenbrink, Frans; Pijnappels, Mirjam

doi:10.1007/s11517-018-1855-7

Cited by 74 publications

(93 citation statements)

References 52 publications

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“…Step time, stance time and swing time were determined from gait events, and step length and step width were calculated as the AP and ML distances between the left and right foot position at heel strike (Roeles et al, 2018).…”

Section: Discussionmentioning

confidence: 99%

“…This simulates a slip, in which the striking foot slips forward, inducing backwards balance loss. The intensity and type of perturbations were based on pervious work (Roeles et al, 2018), showing treadmill decelerations and contralateral sways to be the most challenging types. The order of perturbations, as well as the perturbed leg and the time between perturbations (10-60 s), was randomized but kept the same for all participants.…”

Section: Study Design and Measurement Protocolmentioning

confidence: 99%

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Transfer and retention effects of gait training with anterior-posterior perturbations to postural responses after medio-lateral gait perturbations in older adults

Rieger

Papegaaij²,

Pijnappels

et al. 2020

Clinical Biomechanics

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Section: Discussionmentioning

confidence: 99%

Section: Study Design and Measurement Protocolmentioning

confidence: 99%

Transfer and retention effects of gait training with anterior-posterior perturbations to postural responses after medio-lateral gait perturbations in older adults

Rieger

Papegaaij²,

Pijnappels

et al. 2020

Clinical Biomechanics

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“…An over-ground gait training paradigm with continuous visual perturbations could be used to train subjects to refine the relative weighting of different sensory feedbacks, through the exposure to visual perturbation in a more ecological condition that is not affected by the limitations of treadmill walking. While mechanical perturbations could generate similar 22 or greater 36 disruptive changes in gait and balance, visual perturbations allow to still affect balance without physically applying forces to the body that may increase the risk of injury, especially for more frail elders. Moreover, visual perturbations delivered by commercially available VR headsets, like the one used in this study, could have multiple benefits.…”

Section: Discussionmentioning

confidence: 99%

Age-related differences in gait adaptations during overground walking with and without visual perturbations using a virtual reality headset

Osaba

Martelli

Prado

et al. 2020

Sci Rep

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Older adults have difficulty adapting to new visual information, posing a challenge to maintain balance during walking. Virtual reality can be used to study gait adaptability in response to discordant sensorimotor stimulations. This study aimed to investigate age-related modifications and propensity for visuomotor adaptations due to continuous visual perturbations during overground walking in a virtual reality headset. Twenty old and twelve young subjects walked on an instrumented walkway in real and virtual environments while reacting to antero-posterior and medio-lateral oscillations of the visual field. Mean and variability of spatiotemporal gait parameters were calculated during the first and fifth minutes of walking. A 3-way mixed-design ANOVA was performed to determine the main and interaction effects of group, condition and time. Both groups modified gait similarly, but older adults walked with shorter and slower strides and did not reduce stride velocity or increase stride width variability during medio-lateral perturbations. This may be related to a more conservative and anticipatory strategy as well as a reduced perception of the optic flow. Over time, participants adapted similarly to the perturbations but only younger participants reduced their stride velocity variability. Results provide novel evidence of age- and context-dependent visuomotor adaptations in response to visual perturbations during overground walking and may help to establish new methods for early identification and remediation of gait deficits.

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“…A convenience sample of 30 healthy young adults was recruited in this study (17 males, 13 females, 21.6 ± 2.2 years old, body mass: 70.1 ± 9.8 kg, body height: 1.78 ± 0.085 m, leg length: 0.92 ± 0.039 m), based on similar studies in the field of balance control during perturbed gait 21,22 . Participants were excluded if they had any prior experience with slip-like perturbation experiments or if they had any neurological, cognitive, or orthopaedic impairments that could affect the outcome of the experiment.…”

Section: Participantsmentioning

confidence: 99%

Anticipatory control of human gait following simulated slip exposure

Swart

Otter

Lamoth

2020

Sci Rep

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Rob den otter & claudine J. c. Lamoth A cautious gait (cG), marked by wider and shorter steps, is typically employed to mitigate expected perturbations proactively. However, it is not well understood if and how cG is informed by the task requirements. therefore, we assessed how cG is adjusted to these requirements. three groups of ten healthy young adults were exposed to a single uninterrupted protocol of treadmill walking that consisted of three distinct phases. Spatiotemporal step characteristics and margins of stability of the unperturbed strides were compared when participants were (i) only warned of a perturbation, (ii) exposed to fifty unilateral (right) slip-like perturbations and (iii) kept unaware of perturbation removal. Only the perturbation intensity predictability differed between groups. This was either kept consistent or pseudo-randomly or randomly varied. Participants walked with wider and shorter steps following the perturbation warning. However, this extinguished in continuing perturbation absence. next, during perturbation exposure, participants shortened the step of the perturbed but increased the step of the unperturbed leg. This did not differ between groups. Finally, participants persisted in displaying CG on perturbation removal, but this extinguished over time. collectively, we show that cG is functionally adjusted to the task requirements. These findings may have practical implications for fall-prevention training. Bipedal gait is a challenging activity, considering that the vertical projection of the centre of mass (CoM) is outside the base of support (BoS) for approximately 80% of the gait cycle 1. In fact, walking involves continuous falling motions, which are caught by a relocation of the BoS during every step. Nevertheless, walking is generally stable and adaptive, as healthy adults are able to adjust their gait continuously to accommodate environmental and task demands 2. However, walking in an environment encountering unpredictable or changing events becomes particularly challenging when the walking performance declines due to natural ageing or pathology 3. As a result, older adults often employ a cautious gait (CG) strategy to safeguard against potential balance loss 4,5. Although this form of anticipatory control has been described as a generic strategy that is characterized by wider and shorter steps 6 , it is not well understood if and how CG is informed by the requirements of the task. The present study addressed how anticipatory control of gait is adjusted to accommodate these requirements. Anticipatory control relies on sensory input and provides the means to identify and proactively accommodate environmental challenges instantaneously 2. Walking on ice is a simple illustration of this, which is typically characterized by wider and shorter steps. These cautious adjustments safeguard dynamic balance and can reduce the need for time-critical, reactive control 7. Putatively, people employ a CG by the necessity of uncertainty (i.e. where, when, and if a perturbation will occur)...

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Gait stability in response to platform, belt, and sensory perturbations in young and older adults

Cited by 74 publications

References 52 publications

Transfer and retention effects of gait training with anterior-posterior perturbations to postural responses after medio-lateral gait perturbations in older adults

Transfer and retention effects of gait training with anterior-posterior perturbations to postural responses after medio-lateral gait perturbations in older adults

Age-related differences in gait adaptations during overground walking with and without visual perturbations using a virtual reality headset

Anticipatory control of human gait following simulated slip exposure

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