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Erschienen in:
Robotic Assistance for Senior People for Safe Mobility and Work Support Kapitel lesen Erstes Kapitel lesen

2014 | OriginalPaper | Buchkapitel

Lower Limbs Robotic Rehabilitation Case Study with Clinical Trials

verfasst von : M. Bouri, E. Abdi, H. Bleuler, F. Reynard, O. Deriaz

Erschienen in: New Trends in Medical and Service Robots

Verlag: Springer International Publishing

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Abstract

Robotic based lower limbs rehabilitation is addressed in this chapter. Different existing devices are presented to point out the context of mobilization of the limbs. The mechanical constructions of the systems “Lambda” and the “MotionMaker” developed at the Laboratoire de Systèmes Robotiques (LSRO-EPFL) are reviewed. The MotionMaker allows the mobilization of both legs with a twice 3 degrees of freedom orthosis (hip, knee and ankle of each leg). It has been developed for paraplegics and is the main concern in this chapter. The therapy, combining the mobilization of the legs through flexion/extension and the closed loop muscle electrostimulation is explained and clearly detailed. The results of three clinical studies are presented. In the first one, a simple knee orthosis is used to prove the possibility to follow an isotonic torque during an isokinetic knee extension by closed loop electrical stimulation. In the second clinical study, the academic MotionMaker has been used with 5 paraplegic subjects to evaluate the voluntary force progress and the reduction of the spastic behavior. Finally, the last clinical study describes the use of the commercial MotionMaker provided by the Swiss company Swortec during the last 5 years. More than 24 subjects have been considered and the increase of the voluntary force is clearly observed.

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Vorheriges Kapitel The Robot that Learns from the Therapist How to Assist Stroke Patients
Nächstes Kapitel Robot-Assisted 3D Medical Sonography
Fußnoten
1
Lokomat is a registered name of the HOKOMA Company.
 
2
WalkTrainer and MotionMaker are registered names of the FSC (Swiss Foundation of Cyberthosis).
 
3
The MotionMaker is a product commercialized by Swortec SA.
 
4
CHUV, University Hospital of Canton of Vaud.
 
5
CRR, Rehabilitation Clinic Of Swiss Romande (www.​crr-suva.​ch).
 
Literatur
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Bouri, M.S., Y.; Schmitt, C.; Allemand, Y.; Gnemmi, S.; Clavel, R.; Metrailler, P.; Brodard, R., The WalkTrainer (TM): A robotic system for walking rehabilitation. 2006 IEEE International Conference on Robotics and Biomimetics, Vols 1–3. 2006, New York: IEEE. 1616-1621.
Brodard, R., Clavel, R., Therapeutic and/or training device for a person’s lower limbs, U.P.U. A1, Editor. 2004.
Brodard, R., Clavel, R., Dispositif de reeducation et/ou d’entrainement des membres inferieurs d’une personne, E.P.E. B9, Editor. 2002.
Colombo, G.J., M.; Dietz, V. Driven gait orthosis to do locomotor training of paraplegic patients. in Eng. Med. Biol. 2000. IEEE.
Koenig A, O.X., Novak D, Riener R. A review on bio-cooperative control in gait rehabilitation. in Rehabil Robot. 2011. IEEE.
M. Bouri, R.C., Le robot Lambda, l’innovation au service de la remise en forme, in ROBIO. 2009.
Metrailler, P., Système robotique pour la mobilisation des membres inférieurs d’une personne paraplégique. 2005, EPFL.
Metrailler, P.B., V.; Perrin, I.; Brodard, R.; Frischknecht, R.; Schmitt, C.; Fournier, J.; Bouri, M.; Clavel, R., Improvement of rehabilitation possibilities with the MotionMaker (TM), in 2006 1st Ieee Ras-Embs International Conference on Biomedical Robotics and Biomechatronics, Vols 1-3. 2006, Ieee: New York. p. 626–631.
Riener, R., Lünenburger, L., Jezernik, S., Anderschitz, M., Colombo, G., Dietz, V. Patient-cooperative strategies for robot-aided treadmill training: First experimental results. in Neuronal Systems and Rehabilitation Engineering. 2004. IEEE.
Schmitt, C.M., P.; Al-Khodairy, A.; Brodard, R.; Fournier, J.; Bouri, M.; Clavel, R. A Study of a Knee Extension Controlled by a Closed Loop Functional Electrical Stimulation. in 9th Annual Conference of the International FES Society. 2004. Bournemouth, UK.
Sciavicco, L.S., B., Modelling and Control of Robot Manipulators. 2000: Springer.
Stauffer, Y., Verticalized Rehabilitation control strategies: Application to the WalkTrainer. 2009, EPFL.
Stauffer, Y.A., Y.; Bouri, M.; Fournier, J.; Clavel, R.; Métrailler, P.; Brodard, R.; Reynard, F., Pelvic motion measurement during over ground walking, analysis and implementation on the WalkTrainer reeducation device, in Intelligent Robots and Systems, I.R.I. Conference, Editor. 2008: Acropolis Convention Center, Nice, France.
Stauffer, Y.A., Y.; Bouri, M.; Fournier, J.; Clavel, R.; Metrailler, P.; Brodard, R.; Reynard, F., The WalkTrainer-A New Generation of Walking Reeducation Device Combining Orthoses and Muscle Stimulation. Ieee Transactions on Neural Systems and Rehabilitation Engineering, 2009. 17(1): p. 38–45.
Stauffer, Y.R., F.; Allemand, Y.; Bouri, M.; Fournier, J.; Clavel, R. Pelvic motion implementation on the WalkTrainer. in Robotics and Biomimetics. 2007. Sanya, China: IEEE.
Stauffer, Y.B., M.; Schmitt, C.; Allemand, Y.; Gnemmi, S.; Fournier, J.; Clavel, R.; Métrailler, P.; Brodard, R., Cyberthèses, Mise en œuvre d’un nouveau concept de rééducation pour paraplégiques et hémiplégiques. Journal Européen des systèmes automatisés, 2007. 41(2): p. 261–278.
Metadaten
Titel
Lower Limbs Robotic Rehabilitation Case Study with Clinical Trials
verfasst von
M. Bouri
E. Abdi
H. Bleuler
F. Reynard
O. Deriaz
Copyright-Jahr
2014
Buch
New Trends in Medical and Service Robots

Print ISBN: 978-3-319-05430-8

Electronic ISBN: 978-3-319-05431-5

Copyright-Jahr: 2014

DOI
https://doi.org/10.1007/978-3-319-05431-5_3

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