Summary
The postural adjustments associated with a voluntary contraction of the postural muscles themselves have been studied in the legs of normal standing men. We focussed on the following questions. Do postural adjustments precede the focal movement as in the case of movements of the upper limb? Which muscle(s) are involved in the task of stabilizing posture? Can the same postural muscle be activated in postural stabilization and in voluntary movement at the same time, in spite of the opposite changes in activity possibly required by these conditions? Six subjects standing on a dynamometric platform were asked to rise onto the tips their toes by contracting their soleus muscles, or to rock on their heels by contracting their tibialis anterior muscles. The tasks were made in a reaction time (RT) situation or in a self-paced mode, standing either freely or holding onto a stable structure. Surface EMGs of leg and thigh muscles, and the foot-floor reaction forces were recorded. The following results were obtained in the RT mode, standing freely. 1. Rising onto toe tips: a striking silent period in soleus preceded its voluntary activation; during this silent period, a tibialis anterior burst could be observed in three subjects; these anticipatory activities induced a forward sway, as monitored by a change in the force exerted along the x axis of the platform. 2. Rocking on heels: an enhancement in tonic EMG of soleus was observed before tibialis anterior voluntary burst, at a mean latency from the go-signal similar to that of the silent period; this anticipatory activity induced a backward body sway. 3. Choice RT conditions showed that the above anticipatory patterns in muscle activity were pre-programmed, specific for the intended tasks, and closely associated with the focal movement. When both tasks were performed in a self-paced mode, all the above EMG and mechanical features were more pronounced and unfolded in time. If the subjects held onto the frame, the early features in the soleus or tibialis anterior EMG were absent, and the corresponding changes in the foot-floor reaction forces were lacking. The anticipatory phenomena observed are considered postural adjustments because they appear only in the free-standing situation, and induce a body sway in the appropriate direction to counteract the destabilizing thrust due to the voluntary contraction of soleus or tibialis anterior. The central organization and descending control of posture and movements are briefly discussed in the light of the short latency of the anticipatory phenomena and of their close association with the focal movement.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Arutyunyan GA, Gurfinkel VS, Mirskii ML (1969) Organization of movements on execution by man of an exact postural task. Biofizika 14: 1103–1107
Bouisset S, Zattara M (1981) A sequence of postural movements precedes voluntary movement. Neurosci Lett 22: 263–270
Clement G, Gurfinkel VS, Lestienne F, Lipshits MI, Popov KE (1984) Adaptation of postural control to weightlessness. Exp Brain Res 57: 61–72
Conrad B, Benecke R, Goehmann M (1983) Premovement silent period in fast movement initiation. Exp Brain Res 51: 310–313
Cordo PJ, Nashner LM (1982) Properties of postural adjustments associated with rapid arm movements. J Neurophysiol 47: 287–302
Coulmance M, Gahery Y, Massion J, Swett JE (1979) The placing reaction in the standing cat: a model for the study of posture and movement. Exp Brain Res 37: 265–281
Dichgans J, Mauritz K-H (1983) Patterns and mechanisms of postural instability in patients with cerebellar lesions. In: Desmedt JE (ed) Motor control mechanisms in health and disease. Raven Press, New York, pp 633–643
Diener HC, Bootz F, Dichgans J, Bruzek W (1983) Variability of postural “reflexes” in humans. Exp Brain Res 52: 423–428
Friedli WG, Hallett M, Simon SR (1984) Postural adjustments associated with rapid voluntary arm movements. 1. Electromyographic data. J Neurol Neurosurg Psychiat 47: 611–622
Gahery Y, Massion J (1981) Coordination between posture and movement. TINS 4: 199–202
Gahery Y, Nieoullon A (1978) Postural and kinetic coordination following cortical stimuli which induce flexion movements in the cat's limbs. Brain Res 149: 25–37
Houtz SJ, Fischer FJ (1961) Function of leg muscles acting on foot as modified by body movements. J Appl Physiol 16: 597–605
Kawahats K, Miyashita M (1983) Electromyogram premotion silent period and tension development in human muscle. Exp Neurol 82: 287–302
Lipshits MI, Mauritz K, Popov KE (1981) Quantitative analysis of anticipatory postural components of a complex voluntary movement. Hum Physiol 7: 165–173 (Plenum Publ Corp, 1982, translated from Fiziologiya Cheloveka 7: 411–419, 1981)
Massion J (1984) Postural changes accompanying voluntary movements. Normal and pathological aspects. Hum Neurobiol 2: 261–267
Nardone A, Di Francesco G, Schieppati M (1986) Reflex excitability of the soleus muscle in standing man, at rest or prior to a voluntary triceps contraction. Neurosci Lett Suppl 26: S165
Nashner LM (1976) Adapting reflexes controlling the human posture. Exp Brain Res 26: 59–72
Nashner LM (1977) Fixed patterns of rapid postural responses among leg muscles during stance. Exp Brain Res 30: 13–24
Nashner LM (1983) Analysis of movement control in man using the movable platform. In: Desmedt JE (ed) Motor control mechanisms in health and disease. Raven Press, New York, pp 607–619
Nashner LM, Cordo PJ (1981) Relation of automatic postural responses and reaction-time voluntary movements of human leg muscles. Exp Brain Res 43: 395–405
Oddsson L, Thorstensson A (1986) Fast voluntary trunk flexion movements in standing: primary movements and associated postural adjustments. Acta Physiol Scand 128: 341–349
Pierrot-Deseilligny E, Morin C, Katz R, Bussel B (1977) Influence of voluntary movement and posture on recurrent inhibition in human subjects. Brain Res 124: 427–436
Pompeiano O (1985) Experimental central nervous system lesions and posture. In: Igarashi M, Black FO (eds) Vestibular and visual control on posture and locomotor equilibrium. Karger, Basel, pp 218–231
Portnoy H, Morin F (1956) Electromyographic study of postural muscles in various positions and movements. Am J Physiol 186: 122–126
Rossi A, Rossi B, Santarcangelo E (1985) Influence of neck vibration on lower limb extensor muscles in man. Arch Ital Biol 123: 241–253
Schieppati M (1987) The Hoffmann reflex: a means of assessing spinal reflex excitability and its descending control in man. Prog Neurobiol 28: 345–376
Schieppati M, Nardone A, Musazzi M (1986) Modulation of the Hoffmann reflex by rapid muscle contraction or release. Hum Neurobiol 5: 59–66
Tanii K (1984) Occurrence of a rhythmic slower wave in EMG prior to a rapid voluntary movement. Electroenceph Clin Neurophysiol 57: 435–440
Wollacott MH, Bonnet M, Yabe K (1984) Preparatory process for anticipatory postural adjustments: modulation of leg muscles reflex pathways during preparation for arm movements in standing man. Exp Brain Res 55: 263–271
Yabe K (1976) Premotion silent period in rapid voluntary movement. J Appl Physiol 41: 470–473
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Nardone, A., Schieppati, M. Postural adjustments associated with voluntary contraction of leg muscles in standing man. Exp Brain Res 69, 469–480 (1988). https://doi.org/10.1007/BF00247301
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00247301