Robotic technologies and rehabilitation: New tools for upper-limb therapy and assessment in chronic stroke

European Journal of Physical and Rehabilitation Medicine

Volumn 47, Issue 2, 2011, Pages 223-236

  Zollo, L ^a   Gallotta, E ^a   Guglielmelli, E ^a   Sterzi, S ^a  

^a UNIVERSITY CAMPUS BIO MEDICO   (Italy)

Author keywords

Rehabilitation; Robotics; Stroke

Indexed keywords

ADULT; AGED; ARM; ARTICLE; BIOMECHANICS; CHRONIC DISEASE; CONVALESCENCE; FEMALE; HUMAN; INSTRUMENTATION; ITALY; MALE; METHODOLOGY; MIDDLE AGED; OUTPATIENT; PATHOPHYSIOLOGY; PHYSIOLOGY; PILOT STUDY; PSYCHOMOTOR PERFORMANCE; ROBOTICS; STATISTICAL MODEL; STROKE; TREATMENT OUTCOME;

ADULT; AGED; AGED, 80 AND OVER; BIOMECHANICS; CHRONIC DISEASE; FEMALE; HUMANS; LINEAR MODELS; MALE; MIDDLE AGED; OUTCOME AND PROCESS ASSESSMENT (HEALTH CARE); OUTPATIENTS; PILOT PROJECTS; PSYCHOMOTOR PERFORMANCE; RECOVERY OF FUNCTION; ROBOTICS; ROME; STROKE; UPPER EXTREMITY;

EID: 79960663966     PISSN: 19739087     EISSN: None     Source Type: Journal    
DOI: None     Document Type: Article

References (27)

1. Kempermann G, Van Praag H, Gage FH. Activity-dependent regulation of neuronal plasticity and self repair. Prog Brain Res 2000;127:35-48. (Pubitemid 35461255)
2. Jones TA, Chu CJ, Grande LA, Gregory AD. Motor skills training enhances lesion-induced structural plasticity in the motor cortex of adult rats. J Neurosci 1999;19:10153-63. (Pubitemid 30226687)
3. Nudo RJ, Friel KM. Cortical plasticity after stroke: implications for rehabilitation. Revue Nerologique 1999;155:713-7. (Pubitemid 29462985)
4. Gomez-Pinilla F, Ying Z, Roy RR, Molteni R, Edgerton VR. Voluntary exercise induces a BDNF-mediated mechanism that promotes neuroplasticity. J Neurophysiol 2002;88:2187-95. (Pubitemid 35346024)
5. Brewer BR, McDowell SK, Worthen-Chaudhari LC. Poststroke upper extremity rehabilitation: a review of robotic systems and clinical results. Top Stroke Rehabil 2007;14:22-44. (Pubitemid 350156151)
6. Prange GB, Jannink MJA, Groothuis-Oudshoorn CGM, Hermens HJ, Jzerman MJ. Systematic review of the effect of robotaided therapy on recovery of the hemiparetic arm after stroke. J Rehab Res Dev 2006;43:171-84.
7. Takahashi, CD Der-Yeghiaian L, Le V, Motiwala RR, Cramer SC. Robot-based hand motor therapy after stroke. Brain 2008;131:425-37. (Pubitemid 351197615)
8. Levin MF, Kleim JA, Wolf SL. What do motor "recovery" and "compensation" mean in patients following stroke? Neurorehabil Neural Repair 2009;23:313-9.
9. Rohrer B, Fasoli S, Krebs HI, Hughes R, Volpe B, Frontera WR et al. Movement smoothness changes during stroke recovery. J Neurosci 2002;22:8297-304. (Pubitemid 35379135)
10. Krebs HI, Hogan N, Aisen ML, Volpe BT. Robot-aided neurorehabilitation. IEEE Trans Rehabil Eng 1998;6:75-87. (Pubitemid 28167922)
11. Bosecker C, Dipietro L, Volpe B, Krebs HI. Kinematic robotbased evaluation scales and clinical counterparts to measure upper limb motor performance in patients with chronic stroke. Neurorehabil Neural Repair 2010;24:62-9.
12. Colombo R, Pisano F, Micera S, Mazzone A, Delconte C, Carrozza MC et al. Assessing mechanisms of recovery during robot-aided neurorehabilitation of the upper limb. Neurorehab Neural Repair 2008;22:50-63. (Pubitemid 350223137)
13. Gandolfo F, Mussa-Ivaldi FA, Bizzi E. Motor learning by field approximation. Proc Natl Acad Sei USA 1996;93:3843-46. (Pubitemid 26144209)
14. Hogan N, Krebs HI, Sharon A, Charnnarong J. Interactive robotic therapist. Massachusetts Inst Technol, Cambridge, US Patent #5466213,1995.
15. Krebs HI, Volpe BT, Williams D, Celestino J, Charles SK, Lynch D et al. Robot-Aided Neurorehabilitatiom:A Robot for Wrist Rehabilitation. IEEE Trans Neural Syst Rehabil Eng 2007;15:327-35. (Pubitemid 47460417)
16. Krebs HI, Palazzolo JJ, Dipietro L, Ferraro M, Krol J, Rannekleiv K et al. Rehabilitation robotics: Performance-based progressive robot-assisted therapy. Autonomous Robots 2003;15:7-20.
17. Duncan PW, Propst M, Nelson SG, Reliability of the Fugl-Meyer assessment of sensorimotor recovery following cerebrovascular accident. Phys Ther 1983,63:1606-10. (Pubitemid 13010969)
18. Medical Research Council/Guarantors of Brain. Aids to the examination of the peripheral nervous system. London: Bailliere Tindall; 1986.
19. Gregson JM, Leathley MJ, Moore AP, Smith TL, Sharma AK, Watkins CL. Reliability of measurements of muscle tone and muscle power in stroke patients. Age Ageing 2000;29:223-8. (Pubitemid 30316206)
20. Smith MA, Brandt J, Shadmehr R. Motor disorder in Huntington's disease begins as a dysfunction in error feedback control. Nature 2000;403:544-9. (Pubitemid 30082199)
21. Smith MA, Shadmehr R. Intact ability to learn internal models of arm dynamics in Huntington's disease but not cerebellar degeneration. J Neurophysiol 2005;93:2809-21. (Pubitemid 40570859)
22. Flash T, Hogan N. The Coordination of Arm Movements: An Experimentally Confirmed Mathematical Model. J Neurosci 1985;5:1688-703. (Pubitemid 15234427)
23. Kamper DG, McKenna-Cole AN, Kahn LE, Reinkensmeyer DJ. Alterations in reaching after stroke and their relation to movement direction and impairment severity. Arch Phys Med Rehabil 2002;83:702-7. (Pubitemid 34498890)
24. Cirstea MC, Levin MF. Compensatory strategies for reaching in stroke. Brain 2000;123:940-53. (Pubitemid 30224190)
25. Latash ML, Anson JG. What are "normal" movements in atypical populations? Behavioral and Brain Sciences 1996;19:55-106.
26. Steenbergen B, Van Thiel E, Hulstijn W, Meulenbroek RGJ. The coordination of reaching and grasping in spastic hemiparesis. Human Movement Science 2000;19:75-105.
27. Mehrholz J, Platz T, Kugler J, Pohl M. Electromechanical and robot-assisted arm training for improving arm function and activities of daily living after stroke (Review). The Cochrane Library. Londo: JohnWiley & Sons, Ltd.; 2009. p. 1-44.