Summary
The pad and the plantar surface of the foot were stimulated electrically in thalamic cats. Weak stimulation evoked an extensor reflex in the animal at rest. The same stimuli in a spontaneously walking animal applied during the stance phase produced an increase both in amplitude and duration of the ongoing extensor activity. When given during the swing phase, the stimuli either prolonged the ongoing flexor activity and/or shortened the following extensor burst. These changes in flexor and extensor burst duration were reflected in changes in the step cycle duration.
Similar results were seen with direct stimulation of the sural nerve. For the latter experiments the ipsilateral hindlimb was fixed and denervated except for the ankle extensors and flexors, which showed rhythmic contractions correlated normally with the walking movements of the three remaining limbs. At rest, threshold stimulation of the sural nerve evoked a reflex contraction in the triceps surae of the fixed leg. The same stimuli applied during the contraction phase of the fixed triceps surae during walking resulted in a larger and longer extensor contraction and a delay of the following flexion. Stimulation during the relaxation phase of the fixed triceps surae reduced the duration of the following contraction phase. The findings are discussed in relation to the possible role of cutaneous input during locomotion.
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References
Bernhard, C.G.: Slow cord potentials of opposite sign correlated to reciprocal functions. Acta physiol. scand. Suppl. 47, 14, 6 (1947)
Ekholm, J.: Postnatal changes in cutaneous reflexes and in the discharge pattern of cutaneous and articular sense organs. Acta physiol. scand. Suppl. 297, 71 (1967)
Eldred, E., Hagbarth, K.-E.: Facilitation and inhibition of gamma efferents by stimulation of certain skin areas. J. Neurophysicl. 17, 59–65 (1954)
Engberg, I.: Reflexes to foot muscles in the cat. Acta physiol. scand. Suppl. 235, 62 (1964)
Forssberg, G.H., Grillner, S., Rossignol, S.: Phase dependent reflex reversal during walking in chronic spinal cats. Brain Res. 85, 103–107 (1975)
Grillner, S.: On the spinal generation of locomotion. In: Sensory organization of movements. (ed. A.S. Batuev) 1973
Grillner, S.: Locomotion in vertebrates: central mechanisms and reflex interaction. Physiol. Rev. 55, 247–304 (1975)
Hagbarth, K.-E.: Excitatory and inhibitory skin areas for flexor and extensor motoneurones. Acta physiol. scand. Suppl. 94, 26 (1952)
Hagbarth, K.-E., Naess, K.: Reflex effects of tetanic stimulation of different afferent fibresystems in the hindlimb of the cat. Acta physiol. scand. 21, 336–361 (1950)
Hunt, C.C., McIntyre, A.K.: An analysis of fibre diameter and receptor characteristics of myelinated cutaneous afferent fibres in cat. J. Physiol. (Lond.) 153, 99–112 (1960)
Magnus, R.: Some results of studies in the physiology of posture. Lancet 2/1926, 531–536
Orlovskii, G.N., Shik, M.L.: Standard elements of cyclic movements. Biofizika 10, 847–854 (1965)
Pearson, K.G., Duysens, J.: Function of segmental reflexes in the control of stepping of cockroaches and cats. In: Neural Control of Locomotion. (ed. R.E. Herman, S. Grillner, D. Stuart, P. Stein). New York: Plenum Press (In press)
Perret, C.: Analyse des méchanismes d'une activité de type locomoteur chez le chat. Doctoral Thesis, University of Paris 1973
Philippson, M.: L'autonomie et la centralisation dans le système nerveux des animaux. Trav. Lab. Physiol. Inst. Solvay (Bruxelles) 7, 1–208 (1905)
Pritchard, E.A.B.: Die Stützreaktion. Graphische Analyse am Hinterbein der Katze. Pflügers Arch. ges. Physiol. 214, 148–168 (1926)
Schoen, R.: Die Stützreaktion. Pflügers Arch. ges. Physiol. 214, 21–47 (1926)
Sherrington, C.S.: Qualitative difference of spinal reflex corresponding with qualitative difference of cutaneous stimulus. J. Physiol. (Lond.) 30, 39–46 (1904)
Sherrington, C.S.: The integrative action of the nervous system. New Haven, Conn.: Yale University Press 1906
Sherrington, C.S.: Flexion-reflex of the limb, crossed extension reflex, and reflex stepping and standing. J. Physiol. (Lond.) 40, 28–121 (1910)
Sherrington, C.S., Sowton, S.C.M.: Reversal of the reflex effect on an afferent nerve by altering the character of the electrical stimulus applied. Proc. roy. Soc. B 83, 435–446 (1911)
Whitehorn, D., Howe, J.F., Lessler, M.J., Burgess, P.R.: Cutaneous receptors supplied by myelinated fibers in the cat. I. Number of recepturs innervated by a single nerve. J. Neurophysiol. 37, 1361–1372 (1974)
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Duysens, J., Pearson, K.G. The role of cutaneous afferents from the distal hindlimb in the regulation of the step cycle of thalamic cats. Exp Brain Res 24, 245–255 (1976). https://doi.org/10.1007/BF00235013
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DOI: https://doi.org/10.1007/BF00235013