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253 results on '"Duclos, Cyril"'

1. Effects of an Overground Walking Program With a Robotic Exoskeleton on Long-Term Manual Wheelchair Users With a Chronic Spinal Cord Injury: Protocol for a Self-Controlled Interventional Study

Author

Bass, Alec, Aubertin-Leheudre, Mylène, Vincent, Claude, Karelis, Antony D, Morin, Suzanne N, McKerral, Michelle, Duclos, Cyril, and Gagnon, Dany H

Subjects
Medicine, Computer applications to medicine. Medical informatics, R858-859.7
Abstract

BackgroundIn wheelchair users with a chronic spinal cord injury (WUSCI), prolonged nonactive sitting time and reduced physical activity—typically linked to this mode of mobility—contribute to the development or exacerbation of cardiorespiratory, musculoskeletal, and endocrine-metabolic health complications that are often linked to increased risks of chronic pain or psychological morbidity. Limited evidence suggests that engaging in a walking program with a wearable robotic exoskeleton may be a promising physical activity intervention to counter these detrimental health effects. ObjectiveThis study’s overall goals are as follows: (1) to determine the effects of a 16-week wearable robotic exoskeleton–assisted walking program on organic systems, functional capacities, and multifaceted psychosocial factors and (2) to determine self-reported satisfaction and perspectives with regard to the intervention and the device. MethodsA total of 20 WUSCI, who have had their injuries for more than 18 months, will complete an overground wearable robotic exoskeleton–assisted walking program (34 sessions; 60 min/session) supervised by a physiotherapist over a 16-week period (one to three sessions/week). Data will be collected 1 month prior to the program, at the beginning, and at the end as well as 2 months after completing the program. Assessments will characterize sociodemographic characteristics; anthropometric parameters; sensorimotor impairments; pain; lower extremity range of motion and spasticity; wheelchair abilities; cardiorespiratory fitness; upper extremity strength; bone architecture and mineral density at the femur, tibia, and radius; total and regional body composition; health-related quality of life; and psychological health. Interviews and an online questionnaire will be conducted to measure users’ satisfaction levels and perspectives at the end of the program. Differences across measurement times will be verified using appropriate parametric or nonparametric analyses of variance for repeated measures. ResultsThis study is currently underway with active recruitment in Montréal, Québec, Canada. Results are expected in the spring of 2021. ConclusionsThe results from this study will be essential to guide the development, implementation, and evaluation of future evidence-based wearable robotic exoskeleton–assisted walking programs offered in the community, and to initiate a reflection regarding the use of wearable robotic exoskeletons during initial rehabilitation following a spinal cord injury. Trial RegistrationClinicalTrials.gov NCT03989752; https://clinicaltrials.gov/ct2/show/NCT03989752 International Registered Report Identifier (IRRID)DERR1-10.2196/19251

Published
2020
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2. Detection threshold of distorted self-avatar step length during gait and the effects on the sense of embodiment.

Author

Willaert, Iris, Aissaoui, Rachid, Vallageas, Valentin, Nadeau, Sylvie, Duclos, Cyril, and Labbe, David R.

Subjects
VIRTUAL reality, GAIT in humans, USER experience, AVATARS (Virtual reality), REHABILITATION, SENSES
Abstract

In immersive VR, a self-avatar that replicates the user’s movements and is viewed from a first-person perspective can substitute the real body. If the avatar’s movements are sufficiently synchronized with the user’s actual movements, the user can experience a sense of embodiment over the avatar. Recent studies have shown that discrepancies between the movements of the avatar and those of the user can be well tolerated while maintaining high levels of embodiment. The point at which a distortion is perceived (detection threshold) and its impact on the level of embodiment has not been studied in lower limb tasks such as gait. This study aimed to identify a detection threshold of gait asymmetry by unilaterally manipulating the step length of a self-avatar, and the effect of this detection on perceived embodiment. A real-time step length distortion model was developed, and a detection threshold between actual and avatar’s gait movement was assessed on thirty healthy participants. The step length was manipulated to introduce gait asymmetry (ascending condition) or start from a large asymmetry that was gradually decreased (descending). The results showed that, on average, the avatar’s step length could be increased by up to 12% before the participants detected the distortion. Furthermore, in the descending condition, they detected increases that were above 9%. The point of detection had no effect on the sense of embodiment as participants still reported being embodied in their avatars, even when they consciously detected the step length distortion. The sense of embodiment was closely correlated with the level of distortion; as distortion increased, embodiment decreased, and vice versa. For a given distortion level, embodiment was similar whether in the ascending or descending condition. This suggests that embodiment can be achieved even when the avatar’s spatial alignment initially differs from the participants’, provided that alignment is gradually restored. These results provide valuable insights into participants’ ability to tolerate movement discrepancies in embodied avatar experiences during gait in virtual environments, with potential applications in motor training and gait rehabilitation. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Updating the Montreal walking exoskeleton satisfaction and perspectives questionnaire (MWESP-Q) following a 16-week walking program with the use of a wearable robotic exoskeleton

Author

Vincent, Claude, primary, Bass, Alec, additional, Dumont, Frédéric S, additional, Aubertin-Leheudre, Mylène, additional, Karelis, Antony D, additional, Morin, Suzanne N, additional, McKerral, Michelle, additional, Duclos, Cyril, additional, and Gagnon, Dany H, additional

Published
2024
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7. Perspectives of wheelchair users with chronic spinal cord injury following a walking program using a wearable robotic exoskeleton

Author

Vincent, Claude, primary, Dumont, Frédéric S., additional, Rogers, Manon, additional, Hu, Tiffany, additional, Bass, Alec, additional, Aubertin-Leheudre, Mylène, additional, Karelis, Antony D., additional, Morin, Suzanne N., additional, McKerral, Michelle, additional, Duclos, Cyril, additional, and Gagnon, Dany H., additional

Published
2024
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16. A mapping of neck muscle vibration effects on post-stroke spatial neglect behaviour: a scoping review to better understand the gap between fundamental research and clinical trials evidence

Author

Poncet, Frédérique, Jamal, Karim, Duclos, Cyril, Sorita, Eric, and Duclos, Noémie

Subjects
Stroke, Rehabilitation and Therapy, Medical Sciences, Physical Therapy, neglect, Medicine and Health Sciences, Physical Sciences and Mathematics, Social and Behavioral Sciences, neck vibration, Other Rehabilitation and Therapy
Abstract

Unilateral spatial neglect (USN) is a frequent deficit after stroke that is associated with long-term disability. One deficit is the deviation of the visual exploration towards the ipsilateral side. The application of left posterior neck muscle vibration (NMV) has been proven to "shift" visual exploration to the left. There is neurophysiological evidence for these effects. However, recent literature about the clinical effects of NMV in USN rehabilitation is limited, which excludes this intervention from newly published meta-analyses on the management of USN. This study aimed to synthesize the methodological elements of applying NMV and their effects on visual behavior and spatial perception in neurophysiological and clinical fields.

Published
2023
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17. Effects of Varying Overground Walking Speeds on Lower-Extremity Muscle Synergies in Healthy Individuals.

Author

Escalona, Manuel J., Bourbonnais, Daniel, Goyette, Michel, Le Flem, Damien, Duclos, Cyril, and Gagnon, Dany H.

Subjects
WALKING speed, MATRIX decomposition, NONNEGATIVE matrices, ACCELERATION (Mechanics), TRAINING needs, WALKING
Abstract

The effects of walking speeds on lower-extremity muscle synergies (MSs) were investigated among 20 adults who walked 20 m at SLOW (0.6 ± 0.2 m/s), natural (NAT; 1.4 ± 0.1 m/s), and FAST (1.9 ± 0.1 m/s) speeds. Surface electromyography of eight lower-extremity muscles was recorded before extracting MSs using a nonnegative matrix factorization algorithm. Increasing walking speed tended to merge MSs associated with weight acceptance and limb deceleration, whereas reducing walking speed does not change the number and composition of MSs. Varying gait speed, particularly decreasing speed, may represent a gait training strategy needing additional attention given its effects on MSs. [ABSTRACT FROM AUTHOR]

Published
2021
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22. Rehabilitation Supported by Technology: Protocol for an International Cocreation and User Experience Study

Author

Bernaerts, Sylvie, De Witte, Nele A J, Van der Auwera, Vicky, Bonroy, Bert, Muraru, Luiza, Bamidis, Panagiotis, Frantzidis, Christos, Kourtidou-Papadeli, Chrysoula, Azevedo, Nancy, Garatea, Jokin, Muñoz, Idoia, Almeida, Rosa, Losada, Raquel, Fung, Joyce, Kehayia, Eva, Lamontagne, Anouk, de Guise, Elaine, Duclos, Cyril, Higgins, Johanne, Nadeau, Sylvie, Beaudry, Lucie, and Konstantinidis, Evdokimos

Subjects
General Medicine
Abstract

Background Living labs in the health and well-being domain have become increasingly common over the past decade but vary in available infrastructure, implemented study designs, and outcome measures. The Horizon 2020 Project Virtual Health and Wellbeing Living Lab Infrastructure aims to harmonize living lab procedures and open living lab infrastructures to facilitate and promote research activities in the health and well-being domain in Europe and beyond. This protocol will describe the design of a joint research activity, focusing on the use of innovative technology for both rehabilitation interventions and data collection in a rehabilitation context. Objective With this joint research activity, this study primarily aims to gain insight into each living lab’s infrastructure and procedures to harmonize health and well-being living lab procedures and infrastructures in Europe and beyond, particularly in the context of rehabilitation. Secondarily, this study aims to investigate the potential of innovative technologies for rehabilitation through living lab methodologies. Methods This study has a mixed methods design comprising multiple phases. There are two main phases of data collection: cocreation (phase 1) and small-scale pilot studies (phase 2), which are preceded by a preliminary harmonization of procedures among the different international living labs. An intermediate phase further allows the implementation of minor adjustments to the intervention or protocol depending on the input that was obtained in the cocreation phase. A total of 6 small-scale pilot studies using innovative technologies for intervention or data collection will be performed across 4 countries. The target study sample comprises patients with stroke and older adults with mild cognitive impairment. The third and final phases involve Delphi procedures to reach a consensus on harmonized procedures and protocols. Results Phase 1 data collection will begin in March 2022, and phase 2 data collection will begin in June 2022. Results will include the output of the cocreation sessions, small-scale pilot studies, and advice on harmonizing procedures and protocols for health and well-being living labs focusing on rehabilitation. Conclusions The knowledge gained by the execution of this research will lead to harmonized procedures and protocols in a rehabilitation context for health and well-being living labs in Europe and beyond. In addition to the harmonized procedures and protocols in rehabilitation, we will also be able to provide new insights for improving the implementation of innovative technologies in rehabilitation. International Registered Report Identifier (IRRID) PRR1-10.2196/34537

Published
2022
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24. Rehabilitation supported by technology: Protocol for an international co-creation and user experience study (Preprint)

Author

Bernaerts, Sylvie, primary, De Witte, Nele A. J., additional, Van der Auwera, Vicky, additional, Bonroy, Bert, additional, Muraru, Luiza, additional, Bamidis, Panagiotis, additional, Frantzidis, Christos, additional, Kourtidou-Papadeli, Chrysoula, additional, Azevedo, Nancy, additional, Gareatea, Jokin, additional, Muñoz, Idoia, additional, Almeida, Rosa, additional, Losada, Raquel, additional, Fung, Joyce, additional, Kehayia, Eva, additional, Lamontagne, Anouk, additional, de Guise, Elaine, additional, Duclos, Cyril, additional, Higgins, Johanne, additional, Nadeau, Sylvie, additional, Beaudry, Lucie, additional, and Konstantinidis on behalf of the VITALISE consortium, Evdokimos, additional

Published
2021
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26. Proprioceptive stimulation added to a walking self-avatar enhances the illusory perception of walking in static participants

Author

Labbe, David R., Kouakoua, Kean, Aissaoui, Rachid, Nadeau, Sylvie, Duclos, Cyril, Labbe, David R., Kouakoua, Kean, Aissaoui, Rachid, Nadeau, Sylvie, and Duclos, Cyril

Abstract

When immersed in virtual reality, users who view their body as a co-located virtual avatar that reflects their movements, generally develop a sense of embodiment whereby they perceive the virtual body to be their own. One aspect of the sense of embodiment is the feeling of agency over the avatar, i.e., the feeling that one is producing the movements of the avatar. In contexts such as physical rehabilitation, telepresence and gaming, it may be useful to induce a strong sense of agency in users who cannot produce movements or for whom it is not practical to do so. Being able to feel agency over a walking avatar without having to produce walking movements could be especially valuable. Muscle vibrations have been shown to produce the proprioceptive perception of movements, without any movement on the part of the user. The objectives of the current study were to: 1-determine if the addition of lower-limb muscle-vibrations with gait-like patterns to a walking avatar can increase the illusory perception of walking in healthy individuals who are standing still; 2- compare the effects of the complexity of the vibration patterns and of their synchronicity on the sense of agency and on the illusory perception of walking. Thirty participants viewed a walking avatar from a first-person perspective, either without muscle vibrations or with one of four different patterns of vibrations. These five conditions were presented pairwise in a two-alternative forced choice paradigm and individually presented, after which participants answered an embodiment questionnaire. The displacement of center of pressure of the participants was measured throughout the experiment. The results show that all patterns of proprioceptive stimulation increased the sense of agency to a similar degree. However, the condition in which the proprioceptive feedback was realistic and temporally aligned with the avatar’s leg movements led to significantly larger anteroposterior sway of the center of pressure. The f

Published
2021

48. Unsupported Eyes Closed Sitting and Quiet Standing Share Postural Control Strategies in Healthy Individuals.

Author

Grangeon, Murielle, Gauthier, Cindy, Duclos, Cyril, Lemay, Jean-Francois, and Gagnon, Dany

Subjects
STANDING position, SITTING position, STABILITY (Mechanics), PRESSURE, TIME series analysis, VELOCITY
Abstract

The study aimed to (1) compare postural stability between sitting and standing in healthy individuals and (2) define center-of-pressure (COP) measures during sitting that could also explain standing stability. Fourteen healthy individuals randomly maintained (1) two short-sitting positions with eyes open or closed, with or without hand support, and (2) one standing position with eyes open with both upper limbs resting alongside the body. Thirty-six COP measures based on time and frequency series were computed. Greater COP displacement and velocity along with lower frequency measures were found for almost all directional components during standing compared with both sitting positions. The velocity, 95% confidence ellipse area, and centroidal frequency were found to be correlated between unsupported sitting and standing. Despite evidenced differences between sitting and standing, similarities in postural control were highlighted when sitting stability was the most challenging. These findings support further investigation between dynamic sitting and standing balance. [ABSTRACT FROM AUTHOR]

Published
2015
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49. Dynamic stability requirements during gait and standing exergames on the wii fit® system in the elderly

Author

Duclos Cyril, Miéville Carole, Gagnon Dany, and Leclerc Catherine

Subjects
Equilibrium, Dynamic balance, Biomechanics, Aging, Human, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Abstract Background In rehabilitation, training intensity is usually adapted to optimize the trained system to attain better performance (overload principle). However, in balance rehabilitation, the level of intensity required during training exercises to optimize improvement in balance has rarely been studied, probably due to the difficulty in quantifying the stability level during these exercises. The goal of the present study was to test whether the stabilizing/destabilizing forces model could be used to analyze how stability is challenged during several exergames, that are more and more used in balance rehabilitation, and a dynamic functional task, such as gait. Methods Seven healthy older adults were evaluated with three-dimensional motion analysis during gait at natural and fast speed, and during three balance exergames (50/50 Challenge, Ski Slalom and Soccer). Mean and extreme values for stabilizing force, destabilizing force and the ratio of the two forces (stability index) were computed from kinematic and kinetic data to determine the mean and least level of dynamic, postural and overall balance stability, respectively. Results Mean postural stability was lower (lower mean destabilizing force) during the 50/50 Challenge game than during all the other tasks, but peak postural instability moments were less challenging during this game than during any of the other tasks, as shown by the minimum destabilizing force values. Dynamic stability was progressively more challenged (higher mean and maximum stabilizing force) from the 50/50 Challenge to the Soccer and Slalom games, to the natural gait speed task and to the fast gait speed task, increasing the overall stability difficulty (mean and minimum stability index) in the same manner. Conclusions The stabilizing/destabilizing forces model can be used to rate the level of balance requirements during different tasks such as gait or exergames. The results of our study showed that postural stability did not differ much between the evaluated tasks (except for the 50/50 Challenge), compared to dynamic stability, which was significantly less challenged during the games than during the functional tasks. Games with greater centre of mass displacements and changes in the base of support are likely to stimulate balance control enough to see improvements in balance during dynamic functional tasks, and could be tested in pathological populations with the approach used here.

Published
2012
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