. Who-database, , 2010.

, Fondation pour la recherche sur les AVC, 2018.

, Prepared by the Intercollegiate, Stroke Working Party. National clinical guideline for stroke

P. P. Urban, Occurence and clinical predictors of spasticity after ischemic stroke, Stroke, vol.41, 2010.

, Recommandation : traitements médicamenteux de la spasticité, AFSSAPS, 2009.

R. W. Bohannon, M. G. Horton, and J. B. Wikholm, Importance of four variables of walking to patients with stroke, Int. J. Rehabil. Res. Int. Z. Rehabil. Rev. Int. Rech. Readaptation, vol.14, pp.246-250, 1991.

J. Carr and R. Shepherd, Stroke Rehabilitation: Guidelines for Exercises and Training, 2003.

B. French, Repetitive task training for improving functional ability after stroke

, Cochrane Database Syst. Rev, vol.006073, 2007.

G. Kwakkel, R. C. Wagenaar, J. W. Twisk, G. J. Lankhorst, and J. C. Koetsier, Intensity of leg and arm training after primary middle-cerebral-artery stroke: a randomised trial, Lancet Lond. Engl, vol.354, pp.191-196, 1999.

R. P. Van-peppen, The impact of physical therapy on functional outcomes after stroke: what's the evidence?, Clin. Rehabil, vol.18, pp.833-862, 2004.

S. Hesse, H. Schmidt, C. Werner, and A. Bardeleben, Upper and lower extremity robotic devices for rehabilitation and for studying motor control, Curr. Opin. Neurol, vol.16, pp.705-710, 2003.

J. Mehrholz, Electromechanical-assisted training for walking after stroke, Cochrane Database Syst. Rev, vol.5, p.6185, 2017.

A. Picelli, Combined effects of robot-assisted gait training and botulinum toxin type A on spastic equinus foot in patients with chronic stroke: a pilot, single blind, randomized controlled trial, Eur. J. Phys. Rehabil. Med, vol.52, pp.759-766, 2016.

K. O. Berg, S. L. Wood-dauphinee, J. I. Williams, and B. Maki, Measuring balance in the elderly: validation of an instrument, Can. J. Public Health Rev. Can. Sante Publique, vol.83

R. A. Liston and B. J. Brouwer, Reliability and validity of measures obtained from stroke patients using the Balance Master, Arch. Phys. Med. Rehabil, vol.77, pp.425-430, 1996.

U. Flansbjer, A. M. Holmbäck, D. Downham, C. Patten, and J. Lexell, Reliability of gait performance tests in men and women with hemiparesis after stroke, J. Rehabil. Med, vol.37, pp.75-82, 2005.

K. Severinsen, J. K. Jakobsen, K. Overgaard, and H. Andersen, Normalized muscle strength, aerobic capacity, and walking performance in chronic stroke: a population-based study on the potential for endurance and resistance training, Arch. Phys. Med. Rehabil, vol.92, pp.1663-1668, 2011.

M. G. Bowden, C. K. Balasubramanian, A. L. Behrman, and S. A. Kautz, Validation of a speed-based classification system using quantitative measures of walking performance poststroke, Neurorehabil. Neural Repair, vol.22, pp.672-675, 2008.

A. Tang, J. J. Eng, and D. Rand, Relationship between perceived and measured changes in walking after stroke, J. Neurol. Phys. Ther. JNPT, vol.36, pp.115-121, 2012.

J. J. Eng, A. S. Dawson, and K. S. Chu, Submaximal exercise in persons with stroke: testretest reliability and concurrent validity with maximal oxygen consumption, Arch. Phys. Med. Rehabil, vol.85, pp.113-118, 2004.

S. Perera, S. H. Mody, R. C. Woodman, and S. A. Studenski, Meaningful change and responsiveness in common physical performance measures in older adults, J. Am. Geriatr. Soc, vol.54, pp.743-749, 2006.

U. Flansbjer, J. Blom, and C. Brogårdh, The reproducibility of Berg Balance Scale and the Single-leg Stance in chronic stroke and the relationship between the two tests, PM R, vol.4, pp.165-170, 2012.

V. Hiengkaew, K. Jitaree, and P. Chaiyawat, Minimal detectable changes of the Berg Balance Scale, Fugl-Meyer Assessment Scale, Timed 'Up & Go' Test, gait speeds, and 2-minute walk test in individuals with chronic stroke with different degrees of ankle plantarflexor tone, Arch. Phys. Med. Rehabil, vol.93, pp.1201-1208, 2012.

I. Données and . Disponibles,

J. Mehrholz, K. Wagner, K. Rutte, D. Meissner, and M. Pohl, Predictive validity and responsiveness of the functional ambulation category in hemiparetic patients after stroke, Arch. Phys. Med. Rehabil, vol.88, pp.1314-1319, 2007.

M. K. Holden, K. M. Gill, M. R. Magliozzi, J. Nathan, and L. Piehl-baker, Clinical gait assessment in the neurologically impaired. Reliability and meaningfulness, Phys. Ther, vol.64, pp.35-40, 1984.

E. J. Benjamin, Heart Disease and Stroke Statistics-2017 Update: A Report From the, American Heart Association. Circulation, vol.135, pp.146-603, 2017.

T. Engstad, T. T. Engstad, M. Viitanen, and H. Ellekjaer, Epidemiology of stroke in the elderly in the Nordic countries. Incidence, survival, prevalence and risk factors, Nor. Epidemiol, vol.22, 2012.

N. Venketasubramanian, Prevalence of stroke among Chinese, Malay, and Indian Singaporeans: a community-based tri-racial cross-sectional survey, Stroke, vol.36, pp.551-556, 2005.

G. Saposnik, Stroke outcome in those over 80: a multicenter cohort study across Canada, Stroke, vol.39, pp.2310-2317, 2008.

L. Shaw, BoTULS: a multicentre randomised controlled trial to evaluate the clinical effectiveness and cost-effectiveness of treating upper limb spasticity due to stroke with botulinum toxin type A, Health Technol. Assess. Winch. Engl, vol.14, pp.1-113, 2010.

C. Krishnan, D. Kotsapouikis, Y. Y. Dhaher, and W. Z. Rymer, Reducing robotic guidance during robot-assisted gait training improves gait function: a case report on a stroke survivor, Arch. Phys. Med. Rehabil, vol.94, pp.1202-1206, 2013.

K. Knaepen, Human-Robot Interaction: Does Robotic Guidance Force Affect Gait-Related Brain Dynamics during Robot-Assisted Treadmill Walking?, PloS One, vol.10, p.140626, 2015.

T. Klarner, H. K. Chan, J. M. Wakeling, and T. Lam, Patterns of muscle coordination vary with stride frequency during weight assisted treadmill walking, Gait Posture, vol.31, pp.360-365, 2010.

K. Van-kammen, A. M. Boonstra, L. H. Van-der-woude, and H. A. Reinders-messelink, & den Otter, R. The combined effects of guidance force, bodyweight support and gait speed on muscle activity during able-bodied walking in the Lokomat, Clin. Biomech. Bristol Avon, vol.36, pp.65-73, 2016.

L. Gizzi, Motor modules in robot-aided walking, J. Neuroengineering Rehabil, vol.9, p.76, 2012.

D. Bang and W. Shin, Effects of robot-assisted gait training on spatiotemporal gait parameters and balance in patients with chronic stroke: A randomized controlled pilot trial, NeuroRehabilitation, vol.38, pp.343-349, 2016.

E. Swinnen, D. Beckwée, R. Meeusen, J. Baeyens, and E. Kerckhofs, Does robotassisted gait rehabilitation improve balance in stroke patients? A systematic review, Top. Stroke Rehabil, vol.21, pp.87-100, 2014.

R. W. Bohannon and M. B. Smith, Interrater reliability of a modified Ashworth scale of muscle spasticity, Phys. Ther, vol.67, pp.206-207, 1987.