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Topics in Stroke Rehabilitation Volume 8, 2002 - Issue 4: Technology for Clinical Stroke Applications
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Original Articles

Robot-Aided Neurorehabilitation: From Evidence-Based to Science-Based Rehabilitation

H. I. KrebsMassachusetts Institute of Technology, Mechanical Engineering Department, Newman Laboratory for Biomechanics and Human Rehabilitation, Cambridge, Massachusetts
,
B.T. VolpeWeill Medical College of Cornell UniversityDepartment Neurology and Neuroscience,Burke Medical Research Institute, White Plains, New York
,
M. FerraroBurke Rehabilitation HospitalWhite Plains, New York
,
S. FasoliMassachusetts Institute of Technology, Mechanical Engineering Department, Newman Laboratory for Biomechanics and Human Rehabilitation, Cambridge, Massachusetts
,
J. PalazzoloMassachusetts Institute of Technology, Mechanical Engineering Department, Newman Laboratory for Biomechanics and Human Rehabilitation, Cambridge, Massachusetts
,
B. RohrerMassachusetts Institute of Technology, Mechanical Engineering Department, Newman Laboratory for Biomechanics and Human Rehabilitation, Cambridge, Massachusetts
,
L. EdelsteinBurke Rehabilitation HospitalWhite Plains, New York
&
N. HoganMechanical Engineering Department Newman Laboratory for Biomechanics and Human Rehabilitation, and Brain and Cognitive Sciences Department, Massachusetts Institute of Technology, Cambridge, Massachusetts
 show all
Pages 54-70 | Published online: 02 Feb 2015

REFERENCES

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  • Krebs HI, Volpe BT Aisen ML, Hogan N. Increasing productivity and quality of care: Robot-aided neurorehabilitation. J Rehabil Res Dev. 2000;37(6):639–652.
  • Hogan N, Krebs HI, Sharon A, Charnnarong J, inventors; Massachusetts Institute of Technology, assignee. Interactive robotic therapist. US patent 5 466 213.
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  • Volpe BT Krebs HI, Hogan N, Edelstein L, Diels C, Aisen ML. Robot training enhanced motor outcome in patients with stroke main-tained over three years. NeuroL 1999;53: 1874–1876.
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  • Jorgensen HS, Nakayama H, Raaschou HO, Vive-Larsen J, Stoier M, Olsen TS. Outcome & time course of recovery in stroke, I: out-come, II: time course of recovery, Copenhagen Stroke Study. Arch Phys Med RehabiL 1995;76(5):399–412.
  • Ferraro M, Demaio JH, Krol J, et al. Reliability of the Motor Status Score: A scale for the evaluation of upper limb motor outcomes in stroke. Manuscript in preparation, 2001.
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  • Krebs HI, Volpe BT Palazzolo J, et al. Robot-aided neuro-rehabilitation in stroke: Interim results on the follow-up of 76 patients and on movement performance indices. In: Mokhtari M, ed. Integration of Assistive Technology in the Information Age. Assistive Technology Research Series. Amsterdam: 105 Press; 2001.
  • Kearney RE, Mirbagheri MM. Identification and simulation as tools for measurement of neuromuscular properties. In: IEEE Proceedings from the 23rd Engineering in Medicine and Biology Society Conference; October 25–28, 2001; Istanbul, Turkey.
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  • Krebs HI, Hogan N, Aisen ML, Volpe BT. Technique to investigate ipsilateral functional activation in motor task. In: IEEE Proceedings 18th Engineering in Medicine and Biology Society Conference; October 31-November 3, 1996; Amsterdam, The Netherlands.
  • Krebs HI, Hogan N, Aisen ML, Volpe BT. Effect of learning and training in the post-acute stroke phase. In: Proceedings of the 1996 Winter Meeting —The American Society of Mechanical Engineers; November 17–22, 1996; Atlanta, GA.
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  • Patton J, Mussa-lvaldi FA. Robotic teaching by exploiting the nervous system's adaptive mechanisms. In: Mokhtari M, ed. Integration of Assistive Technology in the Information Age. Assistive Technology Research Series. Amsterdam: 105 Press; 2001.
  • Fasoli SE, Krebs HI, Stein J, Frontera WR, Hogan N. Effects of robotic therapy on motor impairment and recovery: Preliminary results with chronic stroke. Stroke. Submitted for publication.
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  • Krebs HI, Buerger SP, Jugenheimer KA, Williams D, Hogan N. 3-D extension for MIT-MAN US: A robot-aided neuro-rehabilitation. In: Proceedings of The American Society of Mechanical Engineers IDETC/CIE; September 10–13,2000;Baltimore,MD.DETC2000/MECH–14151.
  • Buerger SP, Krebs HI, Hogan N. Characterization and control of a screw-driv-en robot neurorehabilitation. In: Proceedings of IEEE-CCA/ISIC; September 5–7, 2001; Mexico City, Mexico. C–279.
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  • Williams DJ, Krebs HI, Hogan N. A robot for wrist rehabilitation. In: Proceedings of IEEE-23rd Engineering in Medicine and Biology Conference; October 25–28; 2001; Istanbul, Turkey.

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