Feasibility of robotic‐assisted locomotor training in children with central gait impairment

Meyer-Heim, Andreas; Borggraefe, Ingo; Ammann-Reiffer, Corinne; Berweck, S.; Sennhauser, Felix H.; Colombo, G.; Knecht, Beat; Heinen, Florian

doi:10.1111/j.1469-8749.2007.00900.x

Cited by 123 publications

(69 citation statements)

References 28 publications

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“…Robot-assisted gait training with the driven gait orthosis Lokomat was shown to be an effective way of restoring walking ability in patients with neurological gait disorders due to stroke [6], [7], incomplete spinal cord injury [8]- [11], multiple sclerosis [12], and in children with cerebral palsy [13], [14]. The main advantage of mechanized gait training in comparison to manually assisted gait training or conventional physical therapy is that the therapist is relieved from the high physical strain when guiding the legs and stabilizing the body of the patient.…”

Section: Discussionmentioning

confidence: 99%

“…To increase the spatial precision of the movement, the mechanical impedance of the linear drives is high. The feasibility and effectiveness of training programs with the DGO Lokomat were shown in subjects having suffered stroke [6], [7], incomplete spinal cord injury [8]- [11], multiple sclerosis [12], and in children with cerebral palsy [13], [14]. A clear advantage of training with the DGO Lokomat-as well as with other gait training devices-is that the therapist is relieved from the physical strain of manually guiding the patients' legs or stabilizing the patient's torso [6].…”

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confidence: 99%

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A Method of Estimating the Degree of Active Participation During Stepping in a Driven Gait Orthosis Based on Actuator Force Profile Matching

Banz

Bolliger

Müller

et al. 2009

IEEE Trans. Neural Syst. Rehabil. Eng.

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A method of estimating the degree of active participation during stepping in a driven gait orthosis based on actuator force profile matching Banz, R; Bolliger, M; Muller, S; Santelli, C; Riener, R Banz, R;Bolliger, M;Muller, S; Santelli, C; Riener, R (2009) A method of estimating the degree of active participation during stepping in a driven gait orthosis based on actuator force profile matching AbstractVisual biofeedback with information about the patients' degree of activity is a valuable adjunct to robot-assisted gait training as means of increasing the motivation and participation of the patients during highly repetitive training sessions. In the driven gait orthosis (DGO) Lokomat, an estimation of the patient's activity level was based on man-machine interaction forces as measured at the hip and knee actuators of the exoskeletal device. In an early approach, theoretical assumptions about the expected man-machine interaction forces, due to the varying behavior of the patients, were formulated for the calculation of quantitative biofeedback. In contrast to this theory-based approach, we have developed a novel method where the biofeedback calculations were based on measured reference man-machine interaction force profiles of healthy subjects when walking with different degrees of activity. To account for intrasubject and intersubject variability, reference force profiles were processed in a model to generate multiple force profiles describing each activity state. To estimate the activity of a subject walking in the DGO, the man-machine interaction force profile was measured, matched to each of the generated force profiles, and the best fitting profile of the different activity states was identified by the smallest Euclidian distance, respectively. By calculating the difference between these Euclidian distances, a quantitative estimate of the patient's degree of activity was obtained. The novel method was evaluated and compared to the conventional approach in a study with 18 healthy subjects. This comparison showed that the novel method was more reliable in detecting different activity states and is, therefore, a promising approach for future biofeedback systems. Abstract-Visual biofeedback with information about the patients' degree of activity is a valuable adjunct to robot-assisted gait training as means of increasing the motivation and participation of the patients during highly repetitive training sessions. In the driven gait orthosis (DGO) Lokomat, an estimation of the patient's activity level was based on man-machine interaction forces as measured at the hip and knee actuators of the exoskeletal device. In an early approach, theoretical assumptions about the expected man-machine interaction forces, due to the varying behavior of the patients, were formulated for the calculation of quantitative biofeedback. In contrast to this theory-based approach, we have developed a novel method where the biofeedback calculations were based on measured reference man-machine interaction force profiles of healthy subject...

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

A Method of Estimating the Degree of Active Participation During Stepping in a Driven Gait Orthosis Based on Actuator Force Profile Matching

Banz

Bolliger

Müller

et al. 2009

IEEE Trans. Neural Syst. Rehabil. Eng.

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“…Finalement, diverses implications de cette recherche, en ce qui a trait aux conceptions de la réinsertion sociale et à l'organisation des services de réhabilita-tion, sont soulignées. AUTOMNE 2009/ PRINTEMPS 2010 recherches sur la création et l'évaluation de stratégies de réadaptation qui tentent de résoudre ces problèmes -à travers des moyens aussi variés que la physiothérapie et l'ergothérapie (Loney, 2008), les programmes d'intégration sociale (Geurtsen et al, 2008), les méthodes de stimulation cognitive (Powell, 2008) et les systèmes de réadaptation locomotrice par robotique (Meyer-Heim et al, 2007) -repré-sentent le deuxième courant de recherche dans ce secteur.…”

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Gelech

Desjardins

2010

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Le présent article examine la reconstruction du monde vécu de quatre personnes ayant survécu à un traumatisme craniocérébral du point de vue de la théorie des rites de transition développée par Victor Turner (1969, 1982, 1986). Les transcriptions des récits de vie et des entrevues semi-structurées réalisées avec ces quatre personnes ont été analysées d’un point de vue thématique, syntaxique et conceptuel. Ces analyses démontrent que ces personnes ont eu recours après leur accident à trois stratégies principales afin de reconstruire leur monde vécu et leur propre personne : le réalignement, la transcendance et l’intégration dans des marges. Les auteurs présentent l’interaction entre ces stratégies, les bénéfices de la pluralité tactique, l’utilisation variée de ces stratégies au fil des contextes et du temps. Finalement, diverses implications de cette recherche, en ce qui a trait aux conceptions de la réinsertion sociale et à l’organisation des services de réhabilitation, sont soulignées.

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“…On each orthosis, two motors (one at the hip joint and one at the knee joint) guide the patient's legs on a physiological walking pattern. A pediatric version of the Lokomat has been recently developed and provides automated treadmill training for children aged four and up [14].…”

Section: Introductionmentioning

confidence: 99%

Virtual environments increase participation of children with cerebral palsy in robot-aided treadmill training

Koenig

Brütsch

Zimmerli

et al. 2008

2008 Virtual Rehabilitation

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Virtual environments increase participation of children with cerebral palsy in robot-aided treadmill training Virtual environments increase participation of children with cerebral palsy in robot-aided treadmill training Abstract Virtual environments can make repetitive motor rehabilitation exercises more motivating and thereby more effective. We hypothesize that participation-dependent multimodal stimuli increase the patientpsilas activity as expressed through force exertion during robot-aided treadmill training. In a single case study with one patient (12 years old), we were able to show that active participation increased in the presence of visual stimuli and decreased in their absence. For a feasibility study, we included four children with cerebral palsy in order to assess the user acceptance of four different virtual environment scenarios including a soccer scenario, a traffic situation, obstacle crossing and wading through deep snow. Using questionnaires, we found that only the soccer scenario provided sufficient interactive elements to engage the patients.Abstract-Virtual environments can make repetitive motor rehabilitation exercises more motivating and thereby more effective. We hypothesize that participation-dependent multimodal stimuli increase the patient's activity as expressed through force exertion during robot-aided treadmill training. In a single case study with one patient (12 years old), we were able to show that active participation increased in the presence of visual stimuli and decreased in their absence. For a feasibility study, we included four children with cerebral palsy in order to assess the user acceptance of four different virtual environment scenarios including a soccer scenario, a traffic situation, obstacle crossing and wading through deep snow. Using questionnaires, we found that only the soccer scenario provided sufficient interactive elements to engage the patients.

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Feasibility of robotic‐assisted locomotor training in children with central gait impairment

Cited by 123 publications

References 28 publications

A Method of Estimating the Degree of Active Participation During Stepping in a Driven Gait Orthosis Based on Actuator Force Profile Matching

A Method of Estimating the Degree of Active Participation During Stepping in a Driven Gait Orthosis Based on Actuator Force Profile Matching

Se déplacer entre les marges et le centre

Virtual environments increase participation of children with cerebral palsy in robot-aided treadmill training

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