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Abbruzzese, G. and Berardelli, A. (2003). Sensorimotor integration in movement disorders (Review). Mov Disord, 18, 231-240.

Angel, R.W. (1983). Muscular contractions elicited by passive shortening. In: Advances in Neurology (ed. Desmedt, J.E.), Vol. 39, Raven Press, New York, pp. 555-563.

Ashby, P. (1989). Spasticity. Discussion I. In: The Current Status of Research and Treatment (eds. Emre, M. and Benecke, R.), Partheno, Carnforth, pp. 68-69.

Barbeau, H. and Rossignol, S. (1987). Recovery of locomotion after chronic spinalization in the adult cat. Brain Res, 412, 84-95.

Barbeau, H. and Rossignol, S. (1994). Enhancement of locomotor recovery following spinal cord injury. Curr Opin Neurol, 7, 517-524.

Basso, D.M. (2000). Neuroanatomical substrates of functional recovery after experimental spinal cord injury: implications of basic science research for human spinal cord injury. Phys Ther, 80, 808-817.

Berardelli, A. and Hallett, M. (1984). Shortening reaction of human tibialis anterior. Neurology, 34, 242-246.

Berardelli, A., Sabra, A.F. and Hallett, M. (1983). Physiological mechanisms of rigidity in Parkinson's disease. J Neurol Neurosurg Psychiatr, 46, 45-53.

Berger, W., Quintern, J. and Dietz, V (1982). Pathophysiological aspects of gait in children with cerebral palsy. Electroenceph Clin Neurophysiol, 53, 538-548.

Berger, W., Quintern, J. and Dietz, V. (1984).Tension development and muscle activation in the leg during gait in spastic hemiparesis: the independence of muscle hypertonia and exaggerated stretch reflexes. J Neurol Neurosurg Psychiatr, 47, 1029-1033.

Blin, O., Fernandez, A.M., Pailhouse, J. and Searratrice, G. (1991). Dopa-sensitive and Dopa-resistant gait parameters in Parkinson's disease. J Neurol Sci, 103, 51-54.

Bronstein, A.M., Hoo, J.D., Gresty, M.A. and Panagi, C. (1990). Visual control of balance in cerebellar and parkinsonian syndromes. Brain, 113, 767-779.

Brouwer, B. and Ashby, P. (1992). Corticospinal projections to lower limb motoneurons in man. Exp Brain Res, 89, 649-654.

Brown, P., Rothwell, J.C., Thompson P.D. and Marsden, C.D. (1994). Propriospinal myoclonus: evidence for spinal "pattern" generators in humans. Mov Disord, 9, 571-576.

Burke, D. and Ashby, P. (1972). Are spinal "presynaptic" inhibitory mechanisms suppressed in spasticity? J Neurol Sci, 15, 321-326.

Burke, D., Hagbarth, K.E. and Wallin G. (1977). Reflex mechanisms in parkinsonian rigidity. Scand J Rehabil Med, 9, 15-23.

Burne, J.A. and Lippold, O.C.J. (1996). Loss of tendon organ inhibition in Parkinson's disease. Brain, 119, 1115-1121.

Calancie, B., Needham-Shropshire, B., Jacobs, P., Willer, K., Zych, G. and Green, B.A. (1994). Involuntary stepping after chronic spinal cord injury. Evidence for a central rhythm generator for locomotion in man. Brain, 117, 1143-1159.

Carr, L.J., Harrison, L.M., Evans, A.L. and Stephen, J.A. 1993. Patterns of central motor reorganization in hemiplegic cerebral palsy. Brain,116, 1223-1247.

Chan, C.W.Y., Kearney, R.E. and Melvill-Jones, G. (1979). Tibialis anterior response to sudden ankle displacements in normal and parkinsonian subjects. Brain Res, 173, 303-314.

Cody, F.W.J., Macdermott, N., Matthews, P.B.C. and Richardson, H.C. (1986). Observations on the genesis of the stretch reflex in Parkinson's disease. Brain, 109, 229-249.

Colombo, G., Joerg, M., Schreier, R. and Dietz, V (2000). Treadmill training of paraplegic patients using a robotic orthosis. J Rehabil Res Dev, 17, 35-42.

Colombo, G., Wirz, M. and Dietz, V (2001). Driven gait orthosis for improvement of locomotor training in paraplegic patients. Spinal Cord, 39, 693-700.

Curt, A. and Dietz, V (1997). Ambulatory capacity in spinal cord injury: significance of ASIA protocol and SSEP recordings in predicting outcome. Arch Phys Med Rehabil, 78, 39-43.

Curt, A. and Dietz, V. (1999). Electrophysiological recordings in patients with spinal cord injury: significance for predicting outcome (Review). Spinal Cord, 37, 157-165.

Curt, A., Keck, M. and Dietz, V (1998). Functional outcome following spinal cord injury. Significance of motor evoked potentials and ASIA scores. Arch Phys Med Rehabil, 79, 81-86.

De Leon, R.D., Hodgson, J.A., Roy, R.R. and Edgerton, V.R. (1998a). Locomotor capacity attributable to step training versus spontaneous recovery following spinalisation in cats. J Neurophysiol, 79, 1329-1340.

De Leon, R.D., Hodgson, JA, Roy, R.R. and Edgerton, YR. (1998b). Full weight bearing hindlimb standing following stand training in the adult spinal cat. J Neurophysiol, 80, 83-91.

Delwaide, P.J., Pepin, J.L. and Maertens de Noordhout, A. (1999). The audiospinal reaction in parkinsonian patients reflects functional changes in reticular nuclei. Ann Neurol, 33, 63-69.

Dietz, V (1992a). Human neuronal control of automatic functional movements: interaction between central programs and afferent input. Physiol Rev, 72, 33-69.

Dietz, V. (1992b). Spasticity: exaggerated reflexes or movement disorder? In: Medicine Sport Science Vol. 36, Movement Disorders in Children (eds. Forssberg, H. and Hirschfeld, H.), Karger, Basel, pp. 225-233.

Dietz, V. (2002a). Proprioception and locomotor disorders. Nat Rev Neurosci, 3, 781-790.

Dietz, V. (2002b). Do human bipeds use quadrupedal coordination? Trends Neurosci, 25, 462-467.

Dietz, V. (2003a). Spastic movement disorders: what is the impact of research on clinical practice? J Neurol Neurosurg Psychiatr, 74, 820-821.

Dietz, V. (2003b). Spinal pattern generators for locomotion. Clin Neurophysiol, 114, 1379-1389.

Dietz, V and Berger, W. (1983). Normal and impaired regulation of stiffness in gait: a new hypothesis about muscle hyperto-nia. Exp Neurol, 79, 680-687.

Dietz, V and Colombo, G. (1996). Effects of body immersion on postural adjustments to voluntary arm movements in humans: role of load receptor input. J Physiol (Lond), 497, 849-856.

Dietz, V and Duysens, J. (2000). Modulation of reflex mechanisms by load receptors. Gait Post, 11, 102-110.

Dietz, V, Quintern, J. and Berger, W. (1981). Electrophysiological studies of gait in spasticity and rigidity. Evidence that altered mechanical properties of muscle contribute to hypertonia. Brain, 104, 431-449.

Dietz, V., Ketelsen, U.P., Berger, W. and Quintern, J. (1986). Motor unit involvement in spastic paresis: relationship between leg muscle activation and histochemistry. J Neurol Sci, 75, 89-103.

Dietz, V, Berger, W. and Horstmann, G.A. (1988). Posture in Parkinson's disease: impairment of reflexes and programming. Ann Neurol, 24, 660-669.

Dietz, V., Horstmann, G.A. and Berger, W. (1989a). Interlimb coordination of leg muscle activation during perturbation of stance in humans. J Neurophysiol, 62, 680-693.

Dietz, V, Horstmann,G.A., Trippel, M. and Gollhofer, A. (1989b). Human postural reflexes and gravity - an underwater simulation. Neurosci Lett, 106, 350-355.

Dietz, V., Feuerstein, T.J. and Berger, W. (1990). Significance of dopamine receptor antagonists in human postural control. Neurosci Lett, 117, 81-86.

Dietz, V., Trippel, M. and Berger, W. (1991). Reflex activity and muscle tone during elbow movements of patients with spastic paresis. Ann Neurol, 30, 767-784.

Dietz, V, Gollhofer, A., Kleiber, M. and Trippel, M. (1992). Regulation of bipedal stance: dependence on "load" receptors. Exp Brain Res, 89, 229-231.

Dietz, V., Zijlstra, W., Assaiante, C., Trippel, M. and Berger, W.

(1993). Balance control in Parkinson's disease. Gait Posture, 1, 77-84.

Dietz, V., Colombo, G. and Jensen, L. (1994). Locomotor activity in spinal man. Lancet, 344, 1260-1263.

Dietz, V., Colombo, G., Jensen, L. and Baumgartner, L. (1995). Locomotor capacity of spinal cord in paraplegic patients. Ann Neurol, 37, 574-582.

Dietz, V., Zijlstra, W., Prokop, T. and Berger, W. (1996). Leg muscle activation during gait in Parkinson's disease: adaptation and interlimb coordination. Electroenceph Clin Neurophysiol, 97, 408-415.

Dietz, V., Leenders, K.L. and Colombo, G. (1997). Leg muscle activation during gait in Parkinson's disease: influence of body unloading. Electroenceph Clin Neurophysiol, 105, 400-405.

Dietz, V, Müller, R. and Colombo, G. (2002). Locomotor activity in spinal man: significance of afferent input from joint load receptors. Brain, 125, 226-2634.

Ditunno, J.F., et al., (2000). Walking index for spinal cord injury (WISCI). An international multicenter validity and reliability study. Spinal Cord, 38, 234-243.

Edgerton, V.R., De Leon, R.D., Tillakaratne, N., Recktenwald, M.R., Hodgson, JA. and Roy, R.R. (1997). Use-dependent plasticity in spinal stepping and standing. In: Neuronal Regeneration, Reorganization and Repair. Advances in Neurology (ed. Seil F.J.), Vol. 72, Lippincott-Raven, Philadelphia, pp. 233-247.

Edström, L. (1970). Selective changes in the sizes of red and white muscle fibres in upper motor lesions and parkinson-ism. J Neurol Sci, 11, 537-550.

Faist, M., Mazevet, D., Dietz, V. and Pierrot-Deseilligny, E.

(1994). A quantitative assessment of presynaptic inhibition of Ia afferents in spastics: differences in hemiplegics and paraplegics. Brain, 117, 1449-1455.

Forssberg, H. (1992). Preface. In: Medicine Sport Science Vol. 36, Movement Disorders in Children (eds Forssberg, H. and Hirschfeld, H.), Karger, Basel, pp. 7-8.

Forssberg, H., Johnels, B. and Steg, G. (1984). Is Parkinsonian gait caused by a regression to an immature walking pattern? In: Advances in Neurology (eds. Hassler, R.G. and Christ, J.F.), Vol. 40, Raven Press, New York, pp. 375-379.

Harkema, S.J., Requejo, P.S., Hurley, S.L., Patel, U.K., Dobkin, B.H. and Edgerton, VR. (1997). Human lumbosacral spinal cord interprets loading during stepping. J Neurophysiol, 77, 797-811.

Hufschmidt, A. and Mauritz, K.H. (1985). Chronic transformation of muscle in spasticity: a peripheral contribution to increased tone. J Neurol Neurosurg Psychiatr, 48, 676-685.

Ibrahim, I.K., Berger, W., Trippel, M. and Dietz, V. (1993). Stretch-induced electromyographic activity and torque in spastic elbow muscles. Brain, 116, 971-989.

Jones, C.A. and Yang, J.E. (1994). Reflex behavior during walking in incomplete spinal-cord-injured subjects. Exp Neurol, 128, 239-248.

Knutsson, E. (1972). An analysis of parkinsonian gait. Brain, 95, 475-486.

Kuhn, R.A. (1950). Eunctional capacity of the isolated human spinal cord. Brain, 73, 1-51.

Lance, J.W. (1980). Symposium synopsis. In: Spasticity: Disordered Motor Control (eds Feldman, R.G., Young, R.R. and Koella, W.P.), Year Book Publisher, Chicago, pp. 485-495.

Latash, M.L. and Anson, J.G. (1996). What are "normal movements" in atypical populations. Behav Brain Sci, 19, 55-106.

Lee, W.A., Boughton, A. and Rymer, W.Z. (1987). Absence of stretch reflex gain enhancement in voluntarily activated spastic muscle. Exp Neurol, 98, 317-335.

Lovely, R.G., Gregor, R.J., Roy, R.R. and Edgerton, V.R., (1986). Effects of training on the recovery of full weight bearing stepping in the adult spinal cat. Exp Neurol, 9, 421-435.

Lovely, R.G., Gregor, R.J., Roy, R.R. and Edgerton, YR. (1990). Weight-bearing hindlimb stepping in treadmill-exercised adult spinal cat. Brain Res, 51, 206-218.

Mac Kay-Lyons, M. (2002). Central pattern generation of locomotion: a review of the evidence. Phys Ther, 82, 69-83.

Maegele, M., Müller, S., Wernig, A., Edgerton, VR. and Harkema, S.J. (2002). Recruitment of spinal motor pools during voluntary movements versus stepping after human spinal cord injury. J Neurotraum, 19, 1217-1229.

Marsden, C.D. (1990). Neurophysiology. In: Parkinson's Disease (ed. Stern, G.), Chapman and Hall, London, pp. 57-98.

Martin, J.P. (1967). The Basal Ganglia and Posture, Pitman, London.

Maynard, E.M., et al., (1997). International standards for neurological and functional classification of spinal cord injury. Spinal Cord, 35, 266-274.

Mendell, L.M. (1984). Modifiability of spinal synapses. Physiol Rev, 64, 260-324.

Metz, G., Curt, A., Van De Meent, H., Klusman, I., Schwab M.E. and Dietz, V. (2000). Validation of the weight-drop contusion model in rats: a comparative study to human spinal cord injury. JNeurotraum, 17, 1-17.

Murray, M.P. (1967). Gait as a total pattern of movement. Am J Phys Med, 46, 290-332.

Murray, M.P. and Clarkson, B.H. (1996). The vertical pathways of the foot during level walking. II. Clinical examples of distorted pathways. J Am Phys Ther Ass, 46, 590-599.

Nacimiento, W., Mautes, A., Topper, R., Oestreicher, A.B., Gispen, W.H., Nacimiento, A.C., Noth, J. and Kreutzberg, G.W. (1993). B-50 (GAP-42) in the spinal cord caudal to hemisection: indication for lack of intraspinal sprouting in dorsal root axons. J Neurosci Res, 35, 603-617.

Nicol, D.J., Granat, M., Baxendale, R.H. and Tison, S.J.M. (1995). Evidence for a human spinal stepping generator. Brain Res, 9, 451-455.

O'Dwyer, N.J. and Ada, L. (1996). Reflex hyperexcitability and muscle contracture in relation to spastic hypertonia. Curr Opin Neurol, 9, 451-455.

O'Dwyer, N.J., Ada, L. and Neilson, P.D. (1996). Spasticity and muscle contracture following stroke. Brain, 119, 1737-1749.

Pang, K.G. and Yang, J.F. (2000). The initiation of the swing phase in human infant stepping: importance of hip position and leg loading. J Physiol (Lond), 528, 389-404.

Pearson, K.G. (2000). Neural adaption in the generation of rhythmic behavior. Annu Rev Physiol, 62, 723-753.

Pearson, K.G. and Collins, D.F. (1993). Reversal of the influence of group Ib-afferents from plantaris on activity in medial gastrocnemius muscle during locomotor activity. J Neurophysiol, 70, 1009-1017.

Pépin, A., Norman, K.E. and Barbeau, H. (2003). Treadmill walking in incomplete spinal cord-injured subjects: 1. Adaptation to changes in speed. Spinal Cord, 41, 257-270.

Powers, R.K., Marder-Meyer, J. and Rymer, W.Z. (1988). Quantitative relations between hypertonia and stretch reflex threshold in spastic hemiparesis. Ann Neurol, 23, 115-124.

Powers, R.K., Campbell, D.L. and Rymer, W.Z. (1989). Stretch reflex dynamics in spastic elbow flexor muscles. Ann Neurol, 25, 32-42.

Priebe, M.M., Sherwood, A.M., Thomby, J.I., Kharas, N.F. and Markowski, J. (1996). Clinical assessment of spasticity in spinal cord injury: a multidimensional problem. Arch Phys MedRehabil, 77, 713-716.

Rémy-Néris, O., Denys, P., Daniel, O., Barbeau, H. and Bussel, B. (2003). Effect of intrathecal clonidine on group I and II oligosynaptic excitation in paraplegics. Exp Brain Res, 148, 509-514.

Rosenfalck, A. and Adreassen, S. (1980). Impaired regulation of force and firing pattern of single motor units in patients with spasticity. J Neurol Neurosurg Psychiatr, 43, 907-916.

Schieppati, M. and Nardone, A. (1991). Free and support stance in Parkinson's disease: the effect of posture and "postural set" on leg muscle responses to perturbation and its relation to the severity of the disease. Brain, 114, 1227-1244.

Schomburg, E.D. (1990). Spinal sensory systems and their supraspinal control. Neurosci Res, 7, 265-340.

Schwab, M.E. (1991). Regeneration of lesioned CNS axons by neutralisation of neurite growth inhibitors: a short review. Paraplegia, 29, 294-298.

Schwab, M.E. and Bartholdi, D. (1996). Degeneration and regeneration of axons in the lesioned spinal cord. Physiol Rev, 76, 319-370.

Sinkjaer, T., Toft, E., Larsen, K., Andreassen, S. and Hansen, H. (1993). Non-reflex and reflex mediated ankle joint stiffness in multiple sclerosis patients with spasticity. Muscle Nerve, 16, 69-76.

Sinkjaer, T., Andersen, J.B. and Nielsen, J.F. (1996). Impaired stretch reflex and joint torque modulation during spastic gait in multiple sclerosis patients. J Neurol, 243, 566-574.

Skinner, R.D., Houle, J.D., Reese, N.B., Berry, C.L. and Garcia-Rill, E. (1996). Effects of exercise and fetal spinal cord implants on the H-reflex in chronically spinalized adult rats. Brain Res, 729, 127-131.

Stelmach, G.E. (1991). Basal ganglia impairment and force control. In: Tutorials in Motor Neuroscience (eds Requin, J. and Stelmach, G.E.), Kluwer, Dordrecht, pp. 137-148. Stolze, H., Kutz-Buschbeck, J.P., Drucke, H., John, K.K., Illert, M. and Deuschl, G. (2001). Comparative analysis of the gait disorder of normal pressure hydrocephalus and Parkinson's disease. J Neurol NeurosurgPsychiatr, 70, 289-297.

Tatton, W.G., Bedingham, W., Verrier, M.C. and Blair, R.D.G. (1984a). Characteristic alterations in response to imposed wrist displacement in parkinsonian rigidity and dystonia musculo-rum deformans. Can J Neurol Sci, 11, 281-287.

Tatton, W.G., Eastman, M.J., Bedingham, W., Vierrier, M.C. and Bruce, I.C. (1984b). Defective utilization of sensory input as the basis for bradykinesia, rigidity, and decreased movement repertoire in Parkinson's disease a hypothesis. Can J Neurol Sci, 11, 136-143.

Thilmann, A.F., Fellows, S.J. and Garms, E. (1990). Pathological stretch reflexes on the "good" side of hemiparetic patients. J NeurolNeurosurgPsychiatr, 53, 208-214.

Thilmann, A.F., Fellows, S.J. and Garms, E. (1991). The mechanism of spastic muscle hypertonus: variation in reflex gain over the time course of spasticity. Brain, 114, 233-244.

Vilensky, J.A. and O'Connor, B.L. (1988). Stepping in nonhuman primates with a complete spinal cord transection: old and new data, and implications for humans. Ann NY Acad Sci, 860, 528-530.

Watts, R.L., Wiegner, A.W. and Young, R.R. (1986). Elastic properties of muscles measured at the elbow in man. II. Patients with parkinsonian rigidity. J Neurol Neurosurg Psychiatr, 49, 1177-1181.

Werner, C., Von Frankenberg, S., Treig, T., Konrad, M. and Hesse, S. (2002).Treadmill training with partial body weight support and an electromechanical gait trainer for restoration of gait in subacute stroke patients. A randomized crossover study. Stroke, 33, 2895-2901.

Westphal, E. (1987). Unterschenkelphänomen und Nervendehnung. Arch Psychiat Nervenkr, 7, 666-670.

Wirz, M., Colombo, G. and Dietz, V. (2001). Long term effects of locomotor training in spinal man. J Neurol Neurosurg Psychiatr, 71, 93-96.

Zijlmans, J.C.M., Poels, P.J.E., Duysens, J., Van der Straaten, J., Thien, T., Van't Hof, M.A., Thijssen, H.O.M. and Horstink, M.W.M. (1996). Quantitative gait analysis in patients with vascular parkinsonism. MovDisord, 11, 501-508.

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