Abstract
The hypothesis that one possible cause of the spontaneous discharge of muscle spindles in the totally relaxed and de-efferented triceps surae muscle, with its tendon divided, is the mechanical factor due to extrafusal-intrafusal interaction was tested in experiments on anesthetized cats. Responses of spontaneously active units were similar with respect to many indices to responses of silent receptors capable of generating a long discharge in response to an increase in static length of the muscle. Isotonic contraction of the relaxed muscle during direct or indirect stimulation was accompanied by a pause in spontaneous activity. The prolonged increase in discharge frequency sometimes arising as a result of pressure on the muscle in the region of the receptor also was abolished by weak isotonic contraction of the muscle. If a long posttetanic sensory discharge was induced in a spontaneously active receptor by intensive tetanization of the nerve to the muscle, and it was then abolished by short stretching of the muscle, the initial spontaneous discharge frequency was restored. The dynamic thresholds of spontaneously active receptors were lower than for silent receptors. In some spontaneously active receptors an initial slowing of the discharge was observed during linear or stepwise stretching of the muscle. It is suggested that the ability of sensory endings to generate a long spontaneous discharge is due to initial stretching of the spindle inside the relaxed muscle.
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Literature cited
I. M. Gorbunova and V. I. Zalkind, "Functional specialization of stretch receptors in the cat triceps surae muscle," Fiziol. Zh. SSSR,62, 878 (1976).
I. M. Gorbunova and V. I. Zalkind, "Identification of muscle spindles by direct and indirect electrical stimulation of intrafusal muscle fibers," Fiziol. Zh. SSSR,63, 1282 (1977).
R. Granit, The Electrophysiological Investigation of Reception, Yale University Press, New Haven (1955).
R. Granit, The Basis of Regulation of Movements [Russian translation], Mir, Moscow (1973), 367 pp.
V. I. Zalkind and I. M. Gorbunova, "Effect of duration of previous stretching of a de-efferented muscle on the dyanmic response of muscle receptors," Fiziol. Zh. SSSR,63, 259 (1977).
N. A. Rokotova and V. I. Zalkind, "On the possible role of muscle spindles in the mechanisms of peripheral inhibition," Fiziol. Zh. SSSR,64, No. 7 (1978).
L. A. Yakovlev, K. K. Shatilov, and V. I. Zalkind, "A technique of standardized stretching of muscles of laboratory animals," Fiziol. Zh. SSSR,64, No. 7 (1978).
P. Bessou and B. Pagès, "Cinematographic analysis of contractile events, produced in intrafusal muscle fibers by stimulation of static and dynamic fusimotor axons," J. Physiol. (London),252, 397 (1975).
R. Bianconi and J. P. van der Meulen, "The responses to vibration of the end-organs of mammalian muscle spindles," J. Neurophysiol.,26, 177 (1963).
M. C. Brown, G. M. Goodwin, and P. B. C. Matthews, "After-effects of fusimotor stimulation on the response of muscle spindle primary afferent endings," J. Physiol. (London),205, 677 (1969).
F. Buchthal and U. Jahn, "Spontaneous activity in isolated muscle spindles," Acta Physiol. Scand.,42, Suppl. 145, 25 (1957).
A. J. Buller, J. G. Nichols, and G. Strom, "Spontaneous fluctuations of excitability in the muscle spindle of the frog," J. Physiol. (London),122, 409 (1953).
H. Fehr, "Aktivität der Muskelspindel-Endigungen der Fasergruppen IA und II als Funktion der Muskelelongation," Helv. Physiol. Pharmacol. Acta.,20, 163 (1962).
P. Hnik, O. Hudlicka, J. Kucera, and R. Payne, "Activation of muscle afferents by non-proprioceptive stimuli," Amer. J. Physiol.,217, 1451 (1969).
P. Hnik and M. J. Lessler, "Changes in muscle spindle activity of the chronically de-efferented gastrocnemius of the rat," Pflügers Arch.,341, 155 (1973).
C. C. Hunt, "Relation of function to diameter in afferent fibers of muscle nerves," J. Gen. Physiol.,38, 117 (1954).
C. C. Hunt and D. Ottoson, "Impulse activity and receptor potential of primary and secondary endings of isolated mammalian muscle spindles," J. Physiol. (London),252, 259 (1975).
R. S. Hutton, J. L. Smith, and E. Eldred, "Postcontraction sensory discharge from muscle and its source," J. Neurophysiol.,36, 1090 (1973).
B. Katz, "Depolarization of sensory terminals and the initiation of impulses in the muscle spindle," J. Physiol. (London),111, 261 (1950).
A. Maier and E. Eldred, "Adaptation to long-term stretch in the passive discharge of muscle spindles," Exp. Neurol.,52, 49 (1976).
B. H. C. Matthews, "Nerve endings in mammalian muscle," J. Physiol. (London),78, 1 (1933).
P. B. C. Matthews, Mammalian Muscle Receptors and Their Central Actions, London, Arnold (1972), 630 pp.
B. Z. Renkin and A. B. Vallbo, "Simultaneous responses of group I and II cat muscle spindle afferents to muscle position and movement," J. Neurophysiol.,27, 429 (1964).
A. B. Vallbo, "Afferent discharge from human muscle spindles in noncontracting muscles. Steady state impulse frequency as a function of joint angle," Acta Physiol. Scand.,90, 49 (1974).
V. I. Zalkind, I. M. Gorbunova, and K. K. Shatilov, "The possible signs of extrafusal — intrafusal interaction in the muscle receptor discharge characteristics," Abstracts of Papers Presented at the 3rd International Symposium on Motor Control, Albena, Bulgaria (1976), pp. 85–86.
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I. P. Pavlov Institute of Physiology, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 10, No. 3, pp. 287–294, May–June, 1978.
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Zalkind, V.I., Gorbunova, I.M. Spontaneous activity of passive muscle spindles of the cat triceps surae muscle. Neurophysiology 10, 207–213 (1978). https://doi.org/10.1007/BF01074406
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DOI: https://doi.org/10.1007/BF01074406