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Journal of Medical Engineering & Technology Volume 34, 2010 - Issue 3
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Innovation

Design of a programmable multi-pattern FES system for restoring foot drop in stroke rehabilitation

S. K. Sabut †School of Medical Science & Technology, Indian Institute of Technology, Kharagpur, 721302, IndiaCorrespondence[email protected]
,
R. Kumar ‡National Institute for the Orthopaedically Handicapped, Kolkata, 700090, India
&
M. Mahadevappa †School of Medical Science & Technology, Indian Institute of Technology, Kharagpur, 721302, India
Pages 217-223 | Received 20 Jul 2009, Accepted 23 Dec 2009, Published online: 19 Feb 2010

References

  • Whittle, M.W., 1996, Gait Analysis: an Introduction (Oxford: Butterworth-Heinemann).
  • Perry, J., 1992, Gait Analysis: normal and pathological function (Slack). New Jersey, SLACK, Inc.
  • Taylor, P.N., 2002, The use of electrical stimulation for correction of dropped foot in subjects with upper motor neurone lesions. Advances in Clinical Neuroscience and Rehabilitation, 2, 16–18.
  • Taylor, P.N., Burridge, J.H., Dunkerley, A.L., 1999, Clinical use of the Odstock dropped foot stimulator: its effect on the speed and effort of walking. Archives of Physical Medicine and Rehabiliation, 80, 1577–1583.
  • Liberson, W.T., Holmquest, H.J., Scot, D., Dow, M., 1961, Functional electrotherapy: stimulation of the peroneal nerve synchronized with the swing phase of gait of hemiparetic patients. Archives of Physical Medicine and Rehabiliation, 42, 101–105.
  • Burridge, J., Taylor, P., Hagan, S., Swain, I., 1997, Experience of clinical use of the Odstock dropped foot stimulator. Artificial Organs, 21, 254–260.
  • Guiraud, D., Stieglitz, T., Taroni, G., Divouxet, J.L., 2006, Original electronic design to perform epimysial and neural stimulation in paraplegia. Neural Engineering, 3, 276–286.
  • Lyons, G.M., Sinkjaer, T., Burridge, J.H., Wilcox, D.J., 2002, A review of portable FES-based neural orthoses for the correction of drop foot. IEEE Transactions on Neural Systems and Rehabilitation Engineering, 10, 260–279.
  • Burridge, J., Taylor, P., Hagan, S., Swain, I., 1997, Experience of clinical use of the odstock dropped foot stimulator. Artificial Organs, 21, 254–260.
  • Acimovic, R., Gros, N., Malezic, M., Strojnik, P., Kljajic, M., Stanic, U., Simic, V. 1987, A comparative study of the functionality of the second generation of peroneal stimulators. Paper presented at the 10th RESNA Conference. San Jose, California. Washington. DC., June 19–23, 621–623.
  • Lyons, G.M., Wilcox, D.J., Lyons, D.J. et al 2002, Evaluation of a drop foot stimulator FES intensity envelope matched to tibialis anterior muscle activity during walking. Proceedings of the 5th Annual Conference on the IFESS, Aalborg, Denmark, June 18–20, pp. 448–451.
  • Vodovnik, L., Dimitrijevic, M.R., Prevec, T., Logar, M., 1996, Electronic walking aids for patients with peroneal palsy. World Electron. Instrum, 4, 58–61.
  • Hart, D.J., Taylor, P.N., Chappell, P.H., Wood, D.E. 2006, A microcontroller system for investigating the catch effect: Functional electrical stimulation of the common peroneal nerve. Medical Engineering & Physics, 28, 438–448.
  • Stanic, U., Trnkoczy, A., Acimovic, R., Gros, N., 1997, Effect of gradually modulated electrical stimulation on the plasticity of artificially evoked movements. Medical & Biological Engineering & Computing, 15, 62–66.
  • O'Halloran, T., Haugland, M., Lyons, G.M., Sinkjaer, T., 2003, Effect of modifying stimulation profile on loading response during FES-corrected drop foot. Paper presented at International Functional Electrical Stimulation Society (IFESS) Conference, Queensland, Australia.
  • O'Keeffe, D.T., Donnelly, A.E., Lyons, G.M., 2003, The development of a potential optimized stimulation intensity envelope for drop foot applications. IEEE Transactions on Neural Systems and Rehabilitation Engineering, 11, 249–256.
  • Breen, P.P., Corley, G.J., O'Keeffe, D.T. Conway, R., O'Laighin, G., 2009, A programmable and portable NMES device for drop foot correction and blood flow assist applications. Medical Engineering & Physics, 31, 400–408.
  • Keller, T., Popovic, M.R, Pappas, I.P., Muller, P.Y., 2002, Transcutaneous functional electrical stimulator ‘Compex Motion’. Artificial Organs, 26, 219–223.
  • Stanic, U., Trnkoczy, A., Acimovic, R., Gros, N., 1977, Effect of gradually modulated electrical stimulation on the plasticity of artificially evoked movements. Medical & Biological Engineering & Computing, 15, 62–66.
  • Hart, D.J., Taylor, P.N., Chappell, P.H., Wood, D.E., 2006, A microcontroller system for investigating the catch effect: Functional electrical stimulation of the common peroneal nerve. Medical Engineering and Physics, 28, 438–448.
  • Cheng, K.W., Lu, Y., Tong, K.Y., Rad, A.B., Daniel , Sutanto, D., 2004, Development of a circuit for functional electrical stimulation. IEEE Transactions on Neural Systems and Rehabilitation Engineering, 12(1), 43–47.

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