Contribution of Lower Limb Joint Movement in Adapting to Re-establish Step Length Symmetry During Split-Belt Treadmill Walking

Hirata, Keisuke; Kokubun, Takanori; Miyazawa, Taku; Yokoyama, Haruki; Kubota, Keiichi; Sonoo, Moeka; Hanawa, Hiroki; Kanemura, Naohiko

doi:10.1007/s40846-018-0456-0

Cited by 8 publications

(3 citation statements)

References 34 publications

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“…Second, we saw some changes at the hip and ankle that were not observed at the knee, suggesting that attention is directed more to joints with larger kinematic redundancies. Of note, these observations were at a lower asymmetry ratio (0.8:1) relative to the 1:2 ratio often employed in split-belt gait assessments (Hirata et al, 2019;McFadyen et al, 2009), indicating that even minor asymmetries can alter lower limb motor variability in healthy young adults. Our findings could be amplified in older adults, as healthy males and females aged 73.4 ± 4.7 years adapted less and more slowly to asymmetric gait induced by a split-belt treadmill than young adults (Bruijn et al, 2012).…”

Section: Arm Swing Amplitude Did Not Influence Asymmetry-related Changes In Lower Limb Variability Patternsmentioning

confidence: 80%

Effects of arm swing amplitude and lower limb asymmetry on motor variability patterns during treadmill gait

Bailey

Hill

Graham

et al. 2021

Preprint

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Motor variability is a fundamental feature of gait. Altered arm swing and lower limb asymmetry (LLA) may be contributing factors having been shown to affect the magnitude and dynamics of variability in spatiotemporal and trunk motion. However, the effects on lower limb joints remain unclear. Full-body kinematics of 15 healthy young adults were recorded during treadmill walking using the Computer-Assisted Rehabilitation Environment system. Participants completed six trials, combining three arm swing (AS) amplitude (normal, active, held) and two LLA (symmetrical, asymmetrical) conditions. The mean standard deviation (meanSD), maximum Lyapunov exponent (λmax), detrended fluctuation analysis scaling exponent of range of motion (DFAα), and sample entropy (SaEn) were computed for tridimensional trunk, pelvis, and lower limb joint angles, and compared using repeated-measures ANOVAs. Relative to normal AS, active AS increased meanSD of all joint angles, λmax of frontal plane hip and ankle angles, and SaEn of sagittal plane ankle angles. Active AS, however, did not affect λmax or SaEn of trunk or pelvis angles. LLA increased meanSD of sagittal plane joint angles, λmax of Euclidean norm trunk angle and of lower limb joint angles, and SaEn of ankle dorsiflexion/ plantarflexion, but decreased SaEn of tridimensional trunk angles and hip rotation in the slower moving leg. Alterations in lower limb variability with active AS and LLA suggest that young adults actively exploit their lower limb redundancies to maintain gait. This appears to preserve trunk stability and regularity during active AS but not during LLA.

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Section: Arm Swing Amplitude Did Not Influence Asymmetry-related Changes In Lower Limb Variability Patternsmentioning

confidence: 80%

Effects of arm swing amplitude and lower limb asymmetry on motor variability patterns during treadmill gait

Bailey

Hill

Graham

et al. 2021

Preprint

View full text Add to dashboard Cite

show abstract

“…The analysis of motion symmetry has a wide range of applications in rehabilitation, physical therapy, biomedicine and neurology allowing us to detect natural differences between the movement of the left and right limbs during walking, running or cycling [1][2][3], to study the dependence of motion symmetry on mental and environmental conditions and to enable early diagnostics of possible neurological disorders. This multidisciplinary area combines the knowledge and use of different sensor systems, wireless communication links and computational intelligence methods to detect appropriate features and process signals recorded by selected multichannel systems.…”

Section: Introductionmentioning

confidence: 99%

Motion Symmetry Evaluation Using Accelerometers and Energy Distribution

et al. 2019

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Analysis of motion symmetry constitutes an important area with many applications in engineering, robotics, neurology and biomedicine. This paper presents the use of microelectromechanical sensors (MEMS), including accelerometers and gyrometers, to acquire data via mobile devices so as to monitor physical activities and their irregularities. Special attention is devoted to the analysis of the symmetry of the motion of the body when the same exercises are performed by the right and the left limb. The analyzed data include the motion of the legs on a home exercise bike under different levels of load. The method is based on signal analysis using the discrete wavelet transform and the evaluation of signal segment features such as the relative energy at selected decomposition levels. The subsequent classification of the evaluated features is performed by k-nearest neighbours, a Bayesian approach, a support vector machine, and neural networks. The highest average classification accuracy attained is 91.0% and the lowest mean cross-validation error is 0.091, resulting from the use of a neural network. This paper presents the advantages of the use of simple sensors, their combination and intelligent data processing for the numerical evaluation of motion features in the rehabilitation and monitoring of physical activities.

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“…During the split-belt treadmill task, leg multi-joint movement adapts to the continuous disturbance caused by the double belt, eliciting new leg movements as an adaptive change [14]. The total involvement of the cortical process is relatively larger at the beginning of adaptation to the splitbelt-induced perturbation.…”

Section: Resultsmentioning

confidence: 99%

Motor Adaptation Effect of Active Joint Movement During Cycling Generated by Ankle Assist Ergometer: A Proof-of-Concept Study in Healthy Participants

et al. 2023

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To promote multi-joint movement considering limb coordination, we introduce a portable ankle assist ergometer (AAE) to deliver passive ankle joint motion at a specific crank angle per cycle during cycling. This study aimed to verify the motor adaptation effect using the developed AAE in healthy young participants. We converted the pedals of a commercial ergometer into an ankle-assisting tool driven by a motor and brake. The AAE delivered ankle dorsiflexion assistance to young adult participants from 90 • after the top dead center until the bottom dead center of the crank angle during cycling. We obtained 1) a significant difference between the ankle dorsiflexion angular velocity at the bottom dead center before and immediately after assistance (p < 0.05) and 2) an increase in dorsiflexion muscle activation (p < 0.05). These effects persisted after the removal of the assistance. Our results suggest that the AAE activates the central pattern generator and induces motor adaptation of ankle movement by limb coordination during a motion cycle. We believe that the proposed AAE contributes to eliminating barriers to the clinical implementation of the rehabilitation tools delivering cyclic motion.

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Contribution of Lower Limb Joint Movement in Adapting to Re-establish Step Length Symmetry During Split-Belt Treadmill Walking

Cited by 8 publications

References 34 publications

Effects of arm swing amplitude and lower limb asymmetry on motor variability patterns during treadmill gait

Effects of arm swing amplitude and lower limb asymmetry on motor variability patterns during treadmill gait

Motion Symmetry Evaluation Using Accelerometers and Energy Distribution

Motor Adaptation Effect of Active Joint Movement During Cycling Generated by Ankle Assist Ergometer: A Proof-of-Concept Study in Healthy Participants

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