Abstract
A population stochastic model based on the differing properties and the independent activation of motor units is used to describe the production of force in the contracting skeletal muscle. Detailed force predictions of the model concerning a hand muscle are obtained by computer simulation. General features of the force signal are established analyticaly on the basis of the general properties of the neuromuscular system which the population model takes into account. The results show that the asynchronous activity of motor units and the distribution of their filtering and firing properties at various levels of muscle contraction are esponsible, at least partially, for the main features of the muscle force waveform, including tremor.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Albers, J.W., Potvin, A.R., Tourtellote, W.W., Pew, R.W., Stribley, F.R.: Quantification of hand tremor in the clinical neurological examination. IEEE Trans. Biomed. Eng.20, 27–37 (1973)
Allum, J.H.J., Dietz, V., Freund, H.-J.: Neuronal mechanisms underlying physiological tremor. J. Neurophysiol.41, 557–571 (1978)
Bigland, B., Lippold, O.C.J.: The relation between force, velocity and integrated electrical activity in human muscles. J. Physiol.123, 214–224 (1954)
Binder, M.D., Stewart, D.G.: Responses of Ia and spindle group II afferents to single motor unit contractions. J. Neurophysiol.43, 621–629 (1980)
Brumlik, J.: On the nature of normal tremor. Neurology (Minneap.)12, 159–179 (1962)
Christakos, C.N.: The characteristics of tremor at various levels of contraction as predicted by a population model of muscle. Proc. 2nd Mediter. Conf. on Med. and Biol. Eng., 33–34 (Marseille, France, September 1980a)
Christakos, C.N.: A population stochastic model of skeletal muscle and its use in the study of the frequency characteristics of muscle output activity with particular reference to tremor. Ph. D thesis, Univ. of London (1980b)
Christakos, C.N.: Asynchronous motor unit activity: a common explanatory basis for the features of muscle force and myoelectric signal. Neurosci. Lett.7, S102 (1981)
Christakos, C.N.: A linear stochastic model of the single motor unit. (Biol. Cybern. 1–11 1982)
Christakos, C.N., Lal, S.: Force predictions relating to tremor and other concequences of a “distributed” model of skeletal muscle. 73rd Scien. Meeting Biol. Eng. Soc. England (1978)
Christakos, C.N., Lal, S.: Asynchronous motor unit activities and tremor. J. Physiol.293, 42–43p (1979)
Christakos, C.N., Lal, S.: Lumped and population stochastic models of skeletal muscle: implications and predictions. Biol. Cybern.36, 73–85, (1970)
Clamman, H.P.: Statistical analysis of motor unit fring patterns in human skeletal muscle. Biophys. J.9, 1233–1251 (1969)
Cussons, P.D., Matthews, P.B.C., Muir, R.B.: Tremor in the tension developed isometrically by soleus during the tonic vibration reflex in the decerebrate cat. J. Physiol.292, 35–57 (1979)
Cussons, P.D., Matthews, P.B.C., Muir, R.B.: Enhancement by agonist or antagonist vibration of tremor at the elastically loaed human elbow. J. Physiol.302, 443–461 (1980)
De Luca, C.J., Forrest, W.J.: Some properties of motor unit action potential trains recorded during constant force isometric contraction in man. Kybernetik12, 160–168 (1973)
Dietz, V., Bischofberger, E., Wita, C., Freund, H.-J.: Correlation between the discharges of two simultaneously recorded motor units and physiological tremor. Electroen. Clin. Neurophysiol.40, 97–105 (1976)
Dietz, V., Budingen, H.-J., Hillesheimer, W., Freund, H.-J.: Discharge characteristics of single motor fibres of hand muscles in lower motorneurone diseases and myopathies. In: Studies on neuromuscular diseases, Kunze, K., Karger Desmedt, J.E., (eds.), pp. 122–127. Basel: 1975
Dietz, V., Hillesheimer, W., Freund, H.-J.: Correlation between tremor, voluntary contraction and firing pattern of motor units in Parkinson's disease. J. Neurol. Neurosurg. Psychiat.37, 927–937 (1974)
Elble, R.J., Randall, J.E.: Motor-unit activity responsible for 8 to 12 Hz component of human physiological finger tremor. J. Neurophysiol.39, 370–383 (1976)
Feinstein, B., Lindegard, B., Nyman, E., Wohlfart, G.: Morphologic studies of motor units in normal human muscles. Acta anat.23, 127–142 (1955)
Findlay, J.M.: Frequeny analysis of human involuntary eye movements. Kybernetik6, 207–211 (1971)
Fokker, A., Yogev, A., Koehler, W., Windhorst, U., Inbar, G.F.: Adaptation in the mechanical impedance of the human neuromuscular system. IEEE MELECON Conf., Tel-Aviv Israel (1981)
Goodwin, G.M., Hoffman, D., Luschei, E.S.: The strength of the reflex response to sinusoidal stretch of monkey jaw closing muscles during voluntary contraction. J. Physiol.279, 81–111 (1979)
Hagbarth, K.-E., Young, R.: Participation of the stretch reflex in human physiological tremor. Brain102, 509–526 (1956)
Halliday, A.M., Redfearn, J.W.T.: An analysis of the finger tremor in healthy subjects. J. Physiol.134, 600–611 (1956)
Halliday, A.M., Redfearn, J.W.T.: Finger tremor in tabetic patients and its bearing on the mechanism producing the rhythm of physiological tremor. J. Neurol. Neurosurg. Psychiat.21, 101–108 (1958)
Henneman, E.: Peripheral mechanisms involved in the control of muscle. In: Medical physiology, 12th edn., Mountcastle, V.B. (ed.), pp. 1697–1716. St. Louis: C.V. Mosby Co. 1968
Joyce, G.C., Rack, P.M.H.: The effects of load and force on tremor at the normal human elbow joint. J. Physioo.240, 375–376 (1974)
Lippold, O.C.J.: Oscillation in the stretch reflex arc and the origin of the rhythmical, 8–12 c/s component of physiological tremor. J. Physiol.206, 359–382 (1970)
Lippold, O.C.J., Redfearn, J.W.T., Vuco, J.: The rhythmical activity of groups of motor units in the voluntary contraction of muscle. J. Physiol.137, 473–487 (1957)
Mannard, A., Stein, R.B.: Determination of the frequency response of isometric soleus muscle in the cat using random nerve stimulation. J. Physiol.229, 275–296 (1973)
Marsden, C.D., Meadows, J.C., Lange, G.W., Watson, R.S.: Effect of deafferentation on human physiological tremor. Lancet2, 700–702 (1967)
Marshall, J.: Physiological tremor in children. J. Neurol. Neurosurg. Psychiat.22, 33–35 (1959)
Marshall, J., Walsh, E.G.: Physiological tremor. J. Neurol. Neurosurg. Psychiat.90, 260–267 (1956)
Matthews, P.B.C.: The dependence of tension upon extension in the stretch reflex of the soleus muscle of the decerebrate cat. J. Physiol.147, 521–546 (1959)
Matthews, P.B.C., Muir, R.B.: Commparison of electromyogram spectra with force spectra during human elbow tremor. J. Physiol.302, 427–441 (1980)
Milner-Brown, H.S., Stein, R.B., Yemm, R.: The contractile properties of human motor units during voluntary isometric contractions. J. Physiol.228, 285–306 (1973a)
Milner-Brown, H.S., Stein, R.B., Yemm, R.: The orderly recruiment of human motor units during voluntary isometric contractions. J. Physiol.230, 359–370 (1973b)
Milner-Brown, H.S., Stein, R.B., Yemm, R.: Changes in firing rate of human motor units during linearly changing voluntary contractions. J. Physiol.230, 372–390 (1973c)
Mori, S.: Discharge patterns of soleus motor units with assosiated changes in force exerted by foot during quiet stance in man. J. Neurophysiol.36, 458–471 (1973)
Mori, S., Ishida, A.: Synchronization of motor units and its simulation in parallel feedback system. Biol. Cybern.21, 107–111 (1976)
Ohue, C., Bouchard, R., Larochelle, L., Bedard, P., Boucher, R., Raphy, B., Poirier, L.J.: Effect of dorsal rhizotomy on postural tremor in the monkey. Exp. Brain. Res.10, 140–150 (1970)
Otnes, R.K., Enochson, L.: Digital time series analysis. New York: Wiley 1972
Papoulis, A.: Propability, random variables, and stochastic processes. New York: McGraw-Hill 1965
Person, R.S., Kudina, L.P.: Discharge frequency and discharge pattern of human motor units during voluntary contraction of muscle. Electroencephalogr. Clin. Neurophysiol.32, 471–483 (1972)
Stephens, J.A., Taylor, A.: Fatique of maintained voluntary muscle contraction in man. J. Physiol.220, 1–18 (1972)
Stephens, J.A., Taylor, A.: The effect of visual feedback on physiological muscle tremor. Electroencephalogr. Clin. Neurophysiol.36, 457–464 (1974)
Stephens, J.A., Usherwood, T.P.: The mechanical properties of human motor units with special reference to their fatiguability and recruitment threshold. Brain Res.125, 91–97 (1977)
Stiles, R.N.: Mechanical and neural feedback factors in postural hand tremor of normal subjects. J. Neurophysiol.44, 40–59 (1980)
Stiles, R.N., Randal, J.E.: Mechanical factors in human tremor frequencies. J. Appl. Physiol.23, 324–330 (1967)
Sutton, G.G., Sykes, K.: The variation of hand tremor with force in healthy subjects. J. Physiol.191, 699–711 (1967)
Tanji, K., Kato, M.: Firing rate of individual motor units in voluntary contraction of abductor digiti minini muscle in man. Exp. Neurol.40, 771–783 (1973)
Taylor, A.: The significance of grouping of motor unit activity. J. Physiol.162, 259–269 (1962)
Windhorst, U.: A possible partitioning of segmental muscle stretch reflex into incompletely de-coupled parallel loops. Biol. Cybern.34, 205–213 (1979)
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Christakos, C.N. A study of the muscle force waveform using a population stochastic model of skeletal muscle. Biol. Cybernetics 44, 91–106 (1982). https://doi.org/10.1007/BF00317969
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00317969