članak: 1 od 1  
Journal of Automatic Control
2008, vol. 18, br. 2, str. 77-84
jezik rada: engleski
neklasifikovan
doi:10.2298/JAC0802077D
Rowing with FES
(naslov ne postoji na srpskom)
Davoodi Rahman
Department of Biomedical Engineering, University of southern California, United States of America

e-adresa: davoodi@usc.edu

Sažetak

(ne postoji na srpskom)
People with spinal cord injury (SCI) need to increase their level of physical activity to reduce the risk of cardiovascular disease but their exercise options are very limited. Functional electrical stimulation (FES) assisted indoor rowing has been developed as a total body exercise option that combines the exercise of the innervated upper body with the exercise of the electrically stimulated leg muscles in a natural manner. An existing indoor rowing machine was modified for use by the paraplegic users and two types of FES controllers were developed to control the level of stimulation to the paralyzed leg muscles. Manual FES controller was operated by the users thumb presses on the two control buttons on the handlebar, was easy to implement and operate, and has been the most widely used form of control in FES rowing. Automatic FES controllers produced rowing movement comparable to manual control strategy but did not require the user's thumb presses, could be used by the users with higher level of SCI, and could potentially be used to control more leg muscles to further increase the intensity and cardiovascular training effects of FES rowing exercise.

Ključne reči

control; electrical stimulation; exercise; rowing

Reference

PubMedKoBSON1

Andrews, B.J., Baxendale, R.H., Barnett, R., Phillips, G.F., Yamazaki, T., Paul, J.P., Freeman, P.A. (1988) Hybrid FES orthosis incorporating closed loop control and sensory feedback. J Biomed Eng, 10(2): 189-95

1

Andrews, B.J., Barnett, R.W., Philips, G.F., Kirkwood, C.A. (1989) Rule-based control of a hybrid FES orthosis for assisting paraplegic locomotion. Automedica, vol. 11, str. 175-199

Andrews, B.J. (1990) Hybrid orthese fur die Fortbevegung von Querschnittsgelahmten. Medizinisch-Orthopadische Technik, vol. 110, str. 84-88

Andrews, B.J., Hettinga, D.M., Gibbons, R., Goodey, S., Poulton, A. (2008) FES indoor rowing and on-water sculling. u: Langdon P., Clarkson J., and Robinson P. (ur.) Designing Inclusive Futures, London: Springer, str. 207-214

PubMedKoBSON

Davoodi, R., Andrews, B.J. (1998) Computer simulation of FES standing up in paraplegia: a self-adaptive fuzzy controller with reinforcement learning. IEEE Trans Rehabil Eng, 6(2): 151-61

PubMedKoBSON

Davoodi, R., Andrews, B.J. (1999) Optimal control of FES-assisted standing up in paraplegia using genetic algorithms. Med Eng Phys, 21(9): 609-17

KoBSON

Davoodi, R., Andrews, B.J., Wheeler, G.D. (2002) Automatic finite state control of FES-assisted indoor rowing exercise after spinal cord injury. Neuromodulation, vol. 5, br. 4, str. 248-255

PubMedKoBSON

Davoodi, R., Andrews, B.J. (2003) Switching curve control of functional electrical stimulation assisted rowing exercise in paraplegia. Med Biol Eng Comput, 41(2): 183-9

PubMedKoBSON

Davoodi, R., Andrews, B.J. (2004) Fuzzy logic control of FES rowing exercise in paraplegia. IEEE Trans Biomed Eng, 51(3): 541-3

PubMedKoBSON

Davoodi, R., Andrews, B.J., Wheeler, G.D., Lederer, R. (2002) Development of an indoor rowing machine with manual FES controller for total body exercise in paraplegia. IEEE Trans Neural Syst Rehabil Eng, 10(3): 197-203

PubMedKoBSON

Devivo, M.J., Stover, S.L., Black, K.J. (1992) Prognostic factors for 12-year survival after spinal cord injury. Arch Phys Med Rehabil, 73(2): 156-62

PubMedKoBSON

Dolan, M.J., Andrews, B.J., Veltink, P.H. (1998) Switching curve controller for FES-assisted standing up and sitting down. IEEE Trans Rehabil Eng, 6(2): 167-71

CrossRefPubMedKoBSON1

Durstine, J.L., Grandjean, P.W., Davis, P.G., Ferguson, M.A., Alderson, N.L., du Bose, K.D. (2001) Blood lipid and lipoprotein adaptations to exercise: A quantitative analysis. Sports Med, 31(15): 1033-62

KoBSON

Glaser, R.M. (1989) Arm exercise training for wheelchair users. Medicine and Science in Sports and Exercise, vol. 21, br. 5, str. S149-S157, Oct

PubMedKoBSON

Halliday, S.E., Zavatsky, A.B., Hase, K. (2004) Can functional electric stimulation-assisted rowing reproduce a race-winning rowing stroke?. Arch Phys Med Rehabil, 85(8): 1265-72

KoBSON

Hettinga, D.M., Andrews, B.J. (2008) Oxygen consumption during functional electrical stimulation-assisted exercise in persons with spinal cord injury. Sports Medicine, vol. 38, br. 10, str. 825-838

KoBSON

Hettinga, D.M., Andrews, B.J. (2007) The feasibility of functional electrical stimulation indoor rowing for high-energy training and sport. Neuromodulation, vol. 10, no. 3, pp. 291-297, July

PubMedKoBSON

Jacobs, P.L., Nash, M.S. (2004) Exercise recommendations for individuals with spinal cord injury. Sports Med, 34(11): 727-51

PubMedKoBSON1

Kirkwood, C.A., Andrews, B.J., Mowforth, P. (1989) Automatic detection of gait events: a case study using inductive learning techniques. J Biomed Eng, 11(6): 511-6

CrossRefPubMedKoBSON2

Kostov, A., Andrews, B.J., Popovic, D.B., Stein, R.B., Armstrong, W.W. (1995) Machine learning in control of functional electrical stimulation systems for locomotion. IEEE Trans Biomed Eng, 42(6): 541-51

PubMedKoBSON

Laskin, J.J., Ashley, E.A., Olenik, L.M., Burnham, R., Cumming, D.C., Steadward, R.D., Wheeler, G.D. (1993) Electrical stimulation-assisted rowing exercise in spinal cord injured people. A pilot study. Paraplegia, 31(8): 534-41

Miyawaki, K., Iwami, T., Obinata, G. (2007) Development of FES-rowing machine. u: Annual International Conference of the IEEE EMBS (XXIX), Lyon, France, Proceedings, 2768-2771

PubMedKoBSON

Mulder, A.J., Veltink, P.H., Boom, H.B. (1992) On/off control in FES-induced standing up: A model study and experiments. Med Biol Eng Comput, 30(2): 205-12

PubMedKoBSON1

Mutton, D.L., Scremin, A.M., Barstow, T.J., Scott, M.D., Kunkel, C.F., Cagle, T.G. (1997) Physiologic responses during functional electrical stimulation leg cycling and hybrid exercise in spinal cord injured subjects. Arch Phys Med Rehabil, 78(7): 712-8

PubMedKoBSON

Ragnarsson, K.T., Pollack, S., O.W., Edgar, R., Petrofsky, J., Nash, M.S. (1988) Clinical evaluation of computerized functional electrical stimulation after spinal cord injury: a multicenter pilot study. Arch Phys Med Rehabil, 69(9): 672-7

PubMedKoBSON1

Raymond, J., Davis, G.M., Climstein, M., Sutton, J.R. (1999) Cardiorespiratory responses to arm cranking and electrical stimulation leg cycling in people with paraplegia. Med Sci Sports Exerc, 31(6): 822-8

PubMedKoBSON

Rodgers, M.M., Glaser, R.M., Figoni, S.F., Hooker, S.P., Ezenwa, B.N., Collins, S.R., Mathews, T., Suryaprasad, A.G., Gupta, S.C. (1991) Musculoskeletal responses of spinal cord injured individuals to functional neuromuscular stimulation-induced knee extension exercise training. J Rehabil Res Dev, 28(4): 19-26

Sato, M., Shimada, Y., Iwami, T., Miyawaki, K., Matsunaga, T., Chida, S., Hatakeyama, K. (2005) Development of prototype FES-rowing Power Rehabilitation equipment. u: Annual Conference of the International Functional Electrical Stimulation Society (10th), Montreal, Canada, Proceedings

CrossRefPubMedKoBSON1

Sweeney, P.C., Lyons, G.M., Veltink, P.H. (2000) Finite state control of functional electrical stimulation for the rehabilitation of gait. Med Biol Eng Comput, 38(2): 121-6

CrossRefPubMedKoBSON2

Tanasescu, M., Leitzmann, M.F., Rimm, E.B., Willett, W.C., Stampfer, M.J., Hu, F.B. (2002) Exercise type and intensity in relation to coronary heart disease in men. JAMA, 288(16): 1994-2000

CrossRefPubMedKoBSON2

Tomović, R., Popović, D., Schwirtlich, L. (1989) Hybrid assistive system: The motor neuroprosthesis. IEEE Transactions on Biomedical Engineering, 36(7): 729-37

1

Tomović, R., mc Ghee, R. (1966) A finite state approach to the synthesis of control systems. IEEE Transactions on Human Factors Electronics, vol. 7, str. 122-128

Verellen, J., Vanlandewijck, Y., Andrews, B.J., Wheeler, G.D. (2007) Cardiorespiratory responses during arm ergometry, functional electrical stimulation cycling, and two hybrid exercise conditions in spinal cord injured. Disability and Rehabilitation: Assistive Technology, vol. 2, br. 2, str. 127-132

PubMedKoBSON

Wheeler, G.D., Andrews, B., Lederer, R., Davoodi, R., Natho, K., Weiss, C., Jeon, J., Bhambhani, Y., Steadward, R.D. (2002) Functional electric stimulation-assisted rowing: Increasing cardiovascular fitness through functional electric stimulation rowing training in persons with spinal cord injury. Arch Phys Med Rehabil, 83(8): 1093-9

PubMedKoBSON

Whiteneck, G.G., Charlifue, S.W., Frankel, H.L., Fraser, M.H., Gardner, B.P., Gerhart, K.A., Krishnan, K.R., Menter, R.R., Nuseibeh, I., Short, D.J. (1992) Mortality, morbidity, and psychosocial outcomes of persons spinal cord injured more than 20 years ago. Paraplegia, 30(9): 617-30