Cycling for children with neuromuscular impairments using electrical stimulation-Development of tricycle-based systems

Medical Engineering and Physics

Volumn 31, Issue 6, 2009, Pages 650-659

  McRae, C G A ^a   Johnston, T E ^a,b   Lauer, R T ^a,c   Tokay, A M ^d   Lee, S C K ^a,d   Hunt, K J ^e,f  

^a SHRINERS HOSPITALS FOR CHILDREN   (United States)

^b UNIVERSITY OF THE SCIENCES   (United States)

^c TEMPLE UNIVERSITY   (United States)

^d UNIVERSITY OF DELAWARE   (United States)

^e UNIVERSITY OF GLASGOW   (United Kingdom)

^f Scottish Centre for Innovation in Spinal Cord Injury   (United Kingdom)

Author keywords

Cerebral palsy; FES cycling; Instrumented cycle; Pediatric; Spinal cord injury

Indexed keywords

ACCURATE MEASUREMENT; CEREBRAL PALSY; CYCLING PERFORMANCE; CYCLING TESTS; DESIGN CRITERION; ELECTRICAL STIMULATIONS; EXPERIMENTAL VERIFICATION; FES-CYCLING; FUNCTIONAL ELECTRICAL STIMULATION; INSTRUMENTED CYCLE; LABORATORY SYSTEM; NEUROMUSCULAR IMPAIRMENTS; PEDIATRIC POPULATION; PROTOTYPE SYSTEM; SPINAL CORD INJURY;

DOSIMETRY; PEDIATRICS; WELL STIMULATION;

FUNCTIONAL ELECTRIC STIMULATION;

ADOLESCENT; ARTICLE; BIOMECHANICS; CASE REPORT; CEREBRAL PALSY; CHILD; CYCLING; ERGOMETRY; FEEDBACK SYSTEM; FUNCTIONAL ELECTRICAL STIMULATION; HUMAN; LEG EXERCISE; MALE; MOTOR CONTROL; MOTOR PERFORMANCE; NEUROMUSCULAR DISEASE; NEUROMUSCULAR ELECTRICAL STIMULATION; ORTHOTICS; PATIENT POSITIONING; PRIORITY JOURNAL; SPINAL CORD INJURY; TORQUE;

ADOLESCENT; BICYCLING; CEREBRAL PALSY; CHILD; ELECTRIC STIMULATION THERAPY; EQUIPMENT DESIGN; EQUIPMENT FAILURE ANALYSIS; EXERCISE THERAPY; HUMANS; MALE; PEDIATRICS; SPINAL CORD INJURIES; TREATMENT OUTCOME;

EID: 67649252845     PISSN: 13504533     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.medengphy.2008.12.005     Document Type: Article

References (25)

1. US Department of Health and Human Services, Healthy People 2010: Understanding and Improving Health and Human Services, 2000.
2. Perkins T.A., Donaldson N., de N., Hatcher N.A.C., Swain I.D., and Wood D.E. Control of leg-powered paraplegic cycling using stimulation of the lumbo-sacral anterior spinal nerve roots. IEEE Trans Neural Syst Rehabil Eng 10 3 (2002) 158-164
3. Newham D.J., Donaldson N., and de N. FES-cycling. Acta Neurochir Suppl 97 Pt 1 (2007) 395-402
4. Janssen T.W.J., Glaser R.M., and Shuster D.B. Clinical efficacy of electrical stimulation exercise training: effects on health, fitness and function. Top Spinal Cord Injury 3 3 (1998) 33-49
5. Mohr T., Pødenphant J., Biering-Sørensen F., Galbo H., Thamsborg G., and Kjaer M. Increased bone mineral density after prolonged electrically induced cycle training of paralyzed limbs in spinal cord injured man. Calcif Tissue Int 61 1 (1997) 22-25
6. Kakebeeke T.H., Hofer P.J., Frotzler A., Lechner H.E., Hunt K.J., and Perret C. Training and detraining of a tetraplegic subject: high-volume FES cycle training. Am J Phys Med Rehabil 87 1 (2008) 56-64
7. Frotzler A., Coupaud S., Perret C., Kakebeeke T.H., Hunt K.J., Donaldson N., et al. High volume FES-cycling partially reverses bone loss in people with chronic spinal cord injury. Bone 43 1 (2008) 169-176
8. Berry H.R., Perret C., Saunders B.A., Kakebeeke T.H., Donaldson N., Allan D.B., et al. Cardiorespiratory and power adaptations to stimulated cycle training in paraplegia. Med SCI Sports Exerc August 5 (2008) [Epub ahead of print]
9. Janssen T.W., Beltman J.M., Elich P., Koppe P.A., Konijnenbelt H., de Haan A., et al. Effects of electric stimulation-assisted cycling training in people with chronic stroke. Arch Phys Med Rehabil 89 3 (2008) 463-469
10. Ferrante S., Pedrocchi A., Ferrigno G., and Molteni F. Cycling induced by functional electrical stimulation improves the muscular strength and the motor control of individuals with post-acute stroke. Eur J Phys Rehabil Med 44 2 (2008) 159-167
11. Devivo M.J., and Vogel L.C. Risk factors and causes of death following pediatric spinal cord injury. Proc. Int. Mtg on Upper Limb in Tetraplegia. Philadelphia, USA (2007)
12. Johnston T.E., Barr A.E., and Lee S.C. Biomechanics of submaximal recumbent cycling in adolescents with and without cerebral palsy. Phys Ther 87 5 (2007) 572-585
13. Johnston T.E., Prosser L.A., and Lee S.C.K. Differences in pedal forces during recumbent cycling in adolescents with and without cerebral palsy. Clin Biomech 23 2 (2008) 248-251
14. Petrofsky J.S., Heaton H., and Phillips C.A. Outdoor bicycle for exercise in paraplegics and quadriplegics. J Biomed Eng 5 4 (1983) 292-296
15. Pons D.J., Vaughan C.L., and Jaros G.G. Cycling device powered by the electrically stimulated muscles of paraplegics. Med Biol Eng Comput 27 1 (1989) 1-7
16. Bar-Or O., and Rowland T.W. Pediatric exercise medicine: from physiologic principles to health care application (2004), Human Kinetics
17. Fawkner S.G., and Armstrong N. Oxygen uptake kinetic response to exercise in children. Sports Med 33 9 (2003) 651-669
18. Hunt K.J., Stone B., Negård N., Schauer T., Fraser M.H., Cathcart A.J., et al. Control strategies for integration of electric motor assist and functional electrical stimulation in paraplegic cycling: utility for exercise testing and mobile cycling. IEEE Trans Neural Syst Rehabil Eng 12 (2004) 89-101
19. Hunt K.J., Saunders B., Perret C., Berry H., Allan D., Donaldson N., et al. Energetics of paraplegic cycling: a new theoretical framework and efficiency characterization for untrained subjects. Eur J Appl Physiol 101 3 (2007) 277-285
20. Hunt K.J., Stone B., and Allan D.B. Feedback control of oxygen uptake during stimulated cycle ergometry in subjects with paraplegia. IET Control Theory Appl 2 (2008) 488-495
21. Lundberg A. Maximal aerobic capacity of young people with spastic cerebral palsy. Dev Med Child Neurol 20 2 (1978) 205-210
22. Williams H., and Pountney T. Effects of a static bicycling programme on the functional ability of young people with cerebral palsy who are non-ambulant. Dev Med Child Neurol 49 7 (2007) 522-527
23. McRae C.G.A., Lauer R.T., Johnston T.E., Lee S.C.K., Smith B.T., Hunt K.J., et al. FES-cycling strategies for the child with a spinal cord injury using muscle force-stimulation relationships-a case study. Proc. 12th Ann. Conf. Int. Functional Electrical Stimulation Soc. Philadelphia, USA (2007)
24. Chou L.-W., and Binder-Macleod S.A. The effects of stimulation frequency and fatigue on the force-intensity relationship for human skeletal muscle. Clin Neurophysiol 118 6 (2007) 1387-1396
25. Tokay A.M., McRae C.G., Johnston T.E., and Lee S.C. The feasibility of using functional electrical stimulation assisted cycling in children with cerebral palsy. Proc. 12th Ann. Conf. Int. Functional Electrical Stimulation Soc. Philadelphia, USA (2007)