JSSM- 2005, Vol.4, Issue 3, 263

REFERENCES

Allen D.L., Linderman, J.K., Roy, R.R., Grindeland, R.E., Mukku, V. and Edgerton, V.R. (1997) Growth hormone/IGF-I and/or resistive exercise maintains myonuclear number in hindlimb unweighted muscles. Journal of Applied Physiology 83, 1857-1861.

Baldi, J.C., Jackson, R.D., Moraille, R. and Mysiw, W.J. (1998) Muscle atrophy is prevented in patients with acute spinal cord injury using functional electric stimulation. Spinal Cord 336, 463-469.

Brooks, S.V. and Faulkner, J.A. (1988) Contractile properties of skeletal muscles from young, adult and aged mice. Journal of Physiology 4404, 71-82.

Burnham, R.. Martin, T., Stein, R., Bell, G., MacLean, I. and Steadward, R. (1997) Skeletal muscle fiber type transformation following spinal cord injury. Spinal Cord 35, 86-91.

Castro, M.J., Apple, D.F., Staron, R.S., Campos, G.E.R. and Dudley, G.A. (1999) Influence of complete spinal cord injury on skeletal muscle within 6 mo of injury. Journal of Applied Physiology 886, 350-358.

Chilinbeck, P.D., Jeon, J., Weiss, C., Bell, G. and Burnham, R. (1999) Histochemical changes in muscle of individuals with spinal cord injury following functional electrical stimulated exercise training. Spinal Cord 37, 264-268.

Day, M.K ., Allen, D.L ., Mohajerani, L ., Greenisen, M.C ., Roy, R.R . and Edgerton, V.R . (1995) Adaptations of human skeletal muscle fibers to spaceflight. Journal of Gravitational Physiology 2, 47-50.

Faghri, P.D., Glaser, R.M. and Figoni, S.F. (1992) Functional electrical stimulation cycle ergometry exercise: training effects on cardiorespiratory responses of spinal cord injured subjects at rest and during submaximal exercise. Archives of Physical Medicine and Rehabilitation 73, 1085-1093.

Faulkner, J.A., Brooks, S.V. and Zerba, E. (1995) Muscle atrophy and weakness with aging: contraction-induced injury as an underlying mechanism. The Journals of Gerontology: Biological Sciences and Medical Sciences 550A, 124-129.

Gerrits, H.L., de Haan, A., Sargeant, A.J., Dallmeijer, A. and Hopman, M.T.E. (2000) Altered contractile properties of the quadriceps muscle in people with spinal cord injury following functional electrical stimulated cycling training. Spinal Cord 38, 214-223.

Harrridge, S.D.S., Andersen, J.L., Hartkopp, A., Zhou, S., Birring-Sorenson, F., Sandri, C. and Kjaer, M. (2002) Training by low-frequency stimulation of the tibialis anterior in spinal cord-injured men. Muscle and Nerve 25, 685-694.

Hikida, R.S., Staron, R.S., Hagerman, F.C., Walsh, S., Kaiser, E., Shell, S. and Hervey, S. (2000) Effects of high-intensity resistance training on untrained older men. II. Muscle fiber characteristics and nucleo-cytplasmic relationships. Journal of Gerontology: Biological Sciences 35, B347-B354.

Hooker, S.P., Figoni, S.F., Rodgers, M.M., Glaser, R.M., Mathews, T., Suryaprasad, A.G. and Gupta, S.C. (1992) Physiologic effects of electrical stimulation leg cycle exercise training in spinal cord injured persons. Archives of Physical Medicine and Rehabilitation 73, 470-476.

Hutchinson, K.J . Linderman, J.K . and Basso, D.M . (2001) Skeletal muscle adaptations following spinal cord contusion injury in rat and the relationship to locomotor function: a time course study. Journal of Neurotrauma 18, 1075-1089.

Luna, L.G. (1968) Manual of histologic staining methods of the armed forces institute of pathology. 3rd edition. McGraw-Hill, Inc, New York.

Martin, T.P., Stein, R.B., Hoeppner, P.H. and Reid, D.C. (1992) Influence of electrical stimulation on morphological and metabolic properties of paralyzed muscle. Journal of Applied Physiology 772, 1401-1406.

Maynard, F.M., Bracken, M.B., Creasey, G., Ditunno, J.F., Donovan, W.H., Ducker, T.B., Garber, S.L., Marino, R.J., Stover, S.L., Tator, C.H., Waters, R.L., Wilberger, J.E. and Young, W. (1997) International standards for neurological and functional classification of spinal cord injury. Spinal Cord 35, 266-274.

Mohr, T., Anderson, J.L., Biering-Sorensen, F., Galbo, H., Bangsbo, J., Wagner, A. and Kjaer, M. (1997) Long term adaptation to electrically induced cycle training in severe SCI individuals. Spinal Cord 335, 1-16.

Rochester, L., Chander, C.S., Johnson, M.A., Sutton, R.A. and Miller, S. (1995a) Influence of electrical stimulation of the tibialis anterior muscle in paraplegiac subjects. 1. Contractile properties Paraplegia 33, 437-449.

Rochester, L., Chander, C.S., Johnson, M.A., Sutton, R.A. and Miller, S. (1995b) Influence of electrical stimulation of the tibialis anterior muscle in paraplegiac subjects. 2. Morphological and histochemical properties Paraplegia 33, 514-522.

Scremin, A.M.E., Kurta, L., Gentili, A., Wiseman, B., Perell, K., Kunkel, C. and Scremin, O.U. (1999) Increasing muscle mass in spinal cord injured persons with a functional electrical stimulation exercise program. Archives of Physical Medicine and Rehabilitation 80, 1531-1536.

Talmadge, R.J. and Roy, R.R. (1993) Electrophoretic separation of rat skeletal myosin heavy chain isoforms. Journal of Applied Physiology 75, 2337-2340.