Summary
Reflex responses in the lower limbs were investigated using electromyographic and kinematic techniques in man walking on a treadmill. A momentary resistance was applied to one leg at three selected points in the step cycle. The responses to such stimuli, as well as the locomotor activity, were picked up electromyographically and displayed on a four channel oscilloscope. Four superficial muscles viz: gluteus medius, vastus lateralis, rectus femoris and tibialis anterior were studied in both ipsilateral and contralateral legs. In general it was found that the ipsilateral leg muscles produced a response throughout the step cycle regardless of whether the muscle was active or silent at the time the reflex occurred. In contrast, contralateral leg muscles showed a different pattern of response which depended on where the resistance was applied in the step cycle. The long reflex latency, of the order of 80 ms, was a consistant feature of the responses and suggests the possible involvement of supra-spinal pathways. The latencies for a particular muscle were identical on the ipsi- and contralateral sides. The durations of the swing and stance phases of the step cycle were also recorded but showed no change due to application of the resistance. In general, the results indicate that the body has the inherent ability to reinforce the ongoing locomotor muscle activity in response to external stimuli in order to maintain upright balanced walking.
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References
Cordo PJ, Nashner LM (1982) Properties of postural adjustments associated with rapid arm movements. J Neurophysiol 47:287–302
Dietz V, Berger W (1982) Spinal coordination of bilateral leg muscle activity during balancing. Exp Brain Res 47:172–176
Duysens J, Loeb GE (1980) Modulation of Ipsi- and contralateral reflex responses in unrestrained walking cats. J Neurophysiol 44:1024–1037
Forssberg H (1979) Stumbling corrective reaction: A phase dependent compensatory reaction during locomotion. J Neurophysiol 42:937–953
Forssberg H, Grillner S, Rossignol S (1975) Phase dependent reflex reversal during walking in chronic spinal cats. Brain Res 85:103–107
Forssberg H, Grillner S, Rossignol S (1977) Phasic gain control of reflexes from dorsum of the paw during spinal locomotion. Brain Res 132:121–139
Garrett M, Atha J (1977) The role of the servo-loop in the control of quadriceps activation during the swing phase of walking in man. Ir J Med Sci 146:308
Garrett M, Jackson KM, Luckwill RG (1984) A mechanical device for leg disturbance during gait. J Biomed Eng 6:318–320
Garrett M, Luckwill RG (1983) Role of reflex responses of knee musculature during the swing phase of walking in man. Eur J Appl Physiol 52:36–41
Gauthier L, Rossignol S (1981) Contralateral hindlimb responses to cutaneous stimulation during locomotion in high decerbrate cats. Brain Res 207:303–320
Ghori GMU, Luckwill RG (1985) Responses of the lower limb to load carrying in walking man. Eur J Appl Physiol 54:145–150
Graham-Brown T (1914) On the fundamental activity of the nervous centres, together with an analysis of the conditioning of rhythmic activity in progression, and a theory of the evolution of function in the nervous system. J Physiol (Lond) 48:18–46
Graham-Brown T, Sherrington CS (1912) The rule of reflex response in the limb reflexes of the mammal and its exceptions. J Physiol (Lond) 44:125–130
Grillner S (1979) Interactions between central and peripheral mechanisms in the control of locomotion. Prog Brain Res 50:227–235
Johnston RC, Smidt GL (1969) Measurement of hip joint motion during walking. J Bone Joint Surg (Am) 51:1083–1094
Johnson SW, Lynn PA, Miller JSG, Reed GAL (1977) Miniature skin-mounted preamplifier for measurement of surface electromyographic potentials. Med Biol Eng Comput 15:710–711
Lee RG, Tatton WG (1982) Long latency reflexes to imposed displacements of the human wrist: Dependence on duration of movement. Exp Brain Res 45:207–216
Luckwill RG, Murphy F (1982) Reflex response of upper limb muscles to lower limb disturbance in man during walking. Ir J Med Sci 151:398
Meinck H-M, Piesiur-Strehlow B, Koehler W (1981) Some principles of flexor reflex generation in human leg muscles. Electroencephal Clin Neurophysiol 52:140–150
Melvill Jones G, Watt DGD (1971) Observations on the control of stepping and hopping movements in man. J Physiol (Lond) 219:709–727
Mongia SK (1972) H reflex from quadriceps and gastrocnemius muscles. Electromyogr Clin Neurophysiol 12:179–190
Nashner LM (1980) Balance adjustments of humans perturbed while walking. J Neurophysiol 44:650–664
Rossignol S, Julien C, Gauthier L (1981) Stimulus-response relationships during locomotion. Can J Physiol Pharmacol 59:667–674
Stein RB, Bawa P (1976) Reflex responses of soleus muscle to small perturbations. J Neurophysiol 39:1105–1116
Wand P, Prochazka A, Sontag KH (1980) Neuromuscular responses to gait perturbations in freely moving cats. Exp Brain Res 38:109–114
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Ghori, G.M.U., Luckwill, R.G. Pattern of reflex responses in lower limb muscles to a resistance in walking man. Europ. J. Appl. Physiol. 58, 852–857 (1989). https://doi.org/10.1007/BF02332218
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DOI: https://doi.org/10.1007/BF02332218