Abstract
Topography, structure and values of muscle spindles and Golgi tendon organs within the gastrocnemius-soleus muscle of the cat are well documented (Swett et al., 1960; Chin et al., 1962; Boyd and Davey, 1968; Ariano et al., 1973). More than two thirds of thick myelinated nerve fibers in a muscle nerve innervate these proprioreceptors (Boyd and Davey, 1968; Boyd and Smith, 1984). There is much evidence that the receptor rich portion of the striated muscle is rich in oxidative muscle fibers (Gonyea and Ericson, 1978; Botterman et al., 1978; Richmond and Stuart, 1985). In physiological studies of slowly conducting fine afferent units (group III and group IV afferents) in the gastrocnemius-soleus muscle different receptor types are classified: 1. low threshold mechanoreceptors (LTM), 2. receptors that are stimulated by contraction only (ergoreceptors), 3. thermoreceptors and 4. receptors stimulated by ischemic contraction (nociceptors) (Mense and Stahnke, 1983; Kaufman et al., 1984; Mense and Meyer, 1985). Other investigators describe the thin-fiber receptors in the skeletal muscle as polymodal receptors responding to mechanical, chemical and thermal stimulation (Kumazawa and Mizumura, 1977; Kumazawa and Tadaki, 1983; Kumazawa et al., 1983). The functional significance of fine afferent fibers of skeletal muscle receptors for the control of cardiovascular reflexes has been reviewed by Mitchell and Schmidt (1983). Little is known about the morphology of these fine afferents.
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Andres, K. H., 1973, Morphological criteria for the differentiation of mechanoreceptors in vertebrates, in “Symposium Mechanorezeption,” Schwartzkopff, ed., Abhdlg. Rhein.-Westf. Akad. Wiss., Westdeutscher Verlag, 53:135–152
Andres, K. H., and von Düring, M., 1981, General methods for characterization of brain regions, in “Techniques in neuroanatomical research,” Ch. Heym and W. G. Forssmann, eds., Springer, Berlin, Heidelberg, New York: 100–108
Andres, K. H., von Düring, M., Jänig, W., and Schmidt, R. F., 1985, Degeneration patterns of postganglionic fibers following sympathectomy, Anat Embryol, 172:133–143
Andres, K. H., von Düring, M., and Schmidt, R. F., 1985, Sensory innervation of the Achilles tendon by group III and IV afferent fibers, Anat Embryol, 172:145–156
Andres, K. H., von Düring, M., Muszynski, K., and Schmidt, R. F., 1987, Nerve fibres and their terminals of the dura mater encephali of the rat, Anat Embryol, 175:289–301
Ariano, M. A., Armstrong, R. B., Edgerton, V. R., 1973, Hind limb muscle fiber populations of five mammals, J. Histoehem. Cytochem., 21:51–55
Botterman, B., Binder, M. D., and Stuart, D. G., 1978, Functional anatomy of the association between motor units and muscle receptors, Amer. Zool, 18:135–152
Boyd, I. A., and Davey, M. R, 1968, “Composition of peripheral nerves,” Livingston, Edinburgh
Boyd, A., and Smith, R. S., 1984, The muscle spindle, in “Peripheral Neuropathy, 2nd ed.,” P. J. Dyck, P. K. Thomas, E. H. Lombert, and R. Bunge, eds., W. B. Saunders Comp.
Chambers, M. R., Andres, K. H., von Düring, M., and Iggo, A., 1972, Structure and function of the slowly adapting type II mechanoreceptor in hairy skin, Quart J. Exp. Physiol, 57:417–445
Chin, N. K., Cope, M., and Pang, M., 1962, Number and distribution of spindle capsules in seven hindlimb muscles of the cat, in “Muscle receptors,” D. Barker, ed., Hong Kong University Press, Hong Kong: 241–248
Düring, M. von, and Andres, K. H., 1988, Structure and functional anatomy of visceroreceptors in the mammalian respiratory system, in “Transduction and cellular mechanisms in sensory receptors, Progr. Brain Res., Vol. 74,” W. Hamann and A. Iggo, eds., Elsevier, Amsterdam, New York, Oxford: 139–154
Düring, M. von, Andres, K. H., and Iravani, J., 1974, The fine structure of pulmonary stretch receptor in the rat, Z. Anat Entwickl Gesch., 143:215–222
Düring, M. von, Andres, K. H., and Schmidt, R F., 1984, Ultrastructure of fine afferent fibre terminations in muscle and tendon of the cat, in “Sensory receptor mechanisms,” W. Hamann and A. Iggo, eds., World Scien. Publ. Co., Singapore: 15–23
Düring, M. von, and Miller, M. R., 1978, Sensory nerve endings of the skin and deeper structures, in “Biology of the reptilia, Vol. 9, Neurology,” C. Gans, ed., Academic Press, London, New York: 407–441
Gonyea, W. J., and Ericson, G. C., 1978, Morphological and histochemical organization of the flexor carpi radialis muscle in the cat, Am. J. Anat, 148:329–344
Karnovsky, M. F., 1965, A formaldehyde-glutaraldehyde fixative of high osmolality for use in electron microscopy, J. Ceil Biol, 27:137A
Kaufman, M. P., Rybicki, K. J., Waldrop, T. G., and Ordway, G. A., 1984, Effect of ischemia on responses of group III and IV afferents to contraction, J. Appl. Physiol, 57:644–650
Kumazawa, T., and Mizumura, K., 1977, Thin-fibre receptors responding to mechanical, chemical, and thermal stimulation in the skeletal muscle of the dog, J. Physiol. (Lond.), 273:179–194
Kumazawa, T., and Takadi, E., 1983, Two different inhibitory effects on respiration by thin-fiber muscular afferents in cats, Brain Res., 272:364–367
Kumazawa, T., Takaki, E., Mizumura, K., and Kim, K., 1983, Post-stimulus facilitatory and inhibitory effects on respiration induced by chemical and electrical stimulation of thin-fiber muscular afferents in dogs, Neurosci. Lett., 35:283 - 287
Mense, S., and Stahnke, M., 1983, Responses in muscle afferent fibres of slow conduction velocity to contractions and ischaemia in the cat, J. Physiol. (Lond.), 342:383–397
Mense, S., and Meyer, H., 1984, Different types of slowly conducting afferent units in cat skeletal muscle and tendon, J. Physiol. (Lond.), 363:403–417
Mitchell, J. H., and Schmidt, R. F., 1983, Cardiovascular reflex control by afferent fibers from skeletal muscle receptors, in “Handbook of Physiology, Cardiovascular system III,” Williams and Wilkins Comp., Baltimore, Maryland: 623–658
Richmond, F. J. R., and Stuart, D. G., 1985, Distribution of sensory receptors in the flexor carpi radialis muscle of the cat, J. Morph., 183:1–13
Stacey, M. J., 1969, Free nerve endings in skeletal muscle of the cat, J. Anat., 105:231–254
Swett, J. E., and Eldred, E., 1960, Distribution and numbers of stretch receptors in medial gastrocnemius and soleus muscles of the cat, Anat Rec., 137:461–473
Zenker, W., Sandoz, P. A., and Neuhuber, W., 1988, The distribution of anterogradely labeled I-IV primary afferents in histochemically defined compartments of the rat’s sternomastoid muscle, Anat. Embryol., 177:235–243
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© 1990 Plenum Press, New York
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von Düring, M., Andres, K.H. (1990). Topography and Ultrastructure of Group III and IV Nerve Terminals of the Cat’s Gastrocnemius-Soleus Muscle. In: Zenker, W., Neuhuber, W.L. (eds) The Primary Afferent Neuron. Springer, Boston, MA. https://doi.org/10.1007/978-1-4613-0579-8_3
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DOI: https://doi.org/10.1007/978-1-4613-0579-8_3
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