Abstract
Microneurographic recordings have revealed that there are four distinct types of mechanoreceptive units in the glabrous skin area of the human hand (Knibestol and Vallbo, 1970; Knibestöl, 1973, 1975; Johansson, 1978). They can most readily be distinguished on the basis of their adaption to sustained skin indentation and the properties of their cutaneous receptive fields. Figure 1 gives a schematic representation of the unit types with regard to these properties. The four types, which all have thick myelinated fibers (Aa) (Knibestöl, 1973, 1975; Hagbarth, Hongell, Hallin and Torebjörk, 1970) have striking similarities to four well described types in cats and subhuman primates (Iggo, 1963; Lindblom, 1965; Lindblom and Lund, 1966; Jänig, Schmidt and Zimmermann, 1968; Talbot, Darian-Smith, Kornhuber and Mountcastle, 1968; Iggo and Muir, 1969; Chambers, Andres, Duering and Iggo, 1972; Iggo and Ogawa, 1977). The human glabrous skin units have been accordingly denoted RA, PC, SA I, and SAII (Fig. 1). These abbreviations stand for rapidly adapting, Pacinian, slowly adapting type one and slowly adapting type two, respectively.
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References
Armett, C. J., Gray, J. A. B., Hunsperger, R. W., 6 Lai, S. The transmission of information in primary receptor neurons and second-order neurones of a phasic system. Journal of Physiology (London), 1962, 164, 395–421.
Cauna, N. Nature and functions of the papillary ridges of the digital skin. Anatomical Record, 1954, 119, 449–468.
Cauna, N. & Mannan, G. The struture of human digital Pacinian corpuscles (Corpuscula Lamellosa) and its functional significance. Journal of Anatomy, 1958, 92, 1–20.
Chambers, M. R., Andres, K. H., v. Duering, M., & Iggo, A. The structure and function of the slowly adapting type II mechano-receptor in hairy skin. Quarterly Journal of Experimental Physiology, 1972, 57, 417–445.
Chouchov, Ch. N. The fine structure of small encapsulated receptors in human digital glabrous skin. Journal of Anatomy, 1973, 114, 25–33.
Dickhaus, H., Sassen, M., & Zimmermann, M. Rapidly adapting cutaneous mechanoreceptors (RA): coding, variability and information transmission. In Y. Zotterman (Ed.), Sensory functions of the skin in primates (Vol. 27 ). Oxford: Pergamon Press, 1976
Fuller, D. R. G. & Gray, J. A. B. The relation between mechanical displacements applied to a cat’s pad and the resultant impulse patterns. Journal of Physiology (London), 1966, 182, 465–483.
Hagbarth, K.-E., Hongell, A., Hallin, R. A., & Torebjork, H. E. Afferent impulses in median nerve fascicles evoked by tactile stimuli of the human hand. Brain Research, 1970, 24, 423–442.
Harrington, R. & Merzenich, M. M. Neural coding in the sense of touch: Human sensation of skin indentation compared with the responses of slowly adapting mechanoreceptive afferents innervating the hairy skin of monkeys. Experimental Brain Research, 1970, 10, 251–264.
Hill, J. W. Limited field of view in reading lettershapes with the fingers. In F. A. Geldard (Ed.), Conference of vibrotactile communication. Austin, TX.: The Psychonomic Society, 1974.
Iggo, A. An electrophysiological analysis of afferent fibers in primate skin. Acta Neurovegetativa, 1963, 24, 225–240.
Iggo, A. & Muir, A. R. The structure and function of a slowly adapting touch corpuscle in hairy skin. Journal of Physiology (London), 1969, 200, 703–796.
Iggo, A. & Ogawa, H. Correlative physiological and morphological studies of rapidly-adapting units in the cat’s glabrous skin. Journal of Physiology (London), 1977, 266, 275–296.
Jänig, W. Morphology of rapidly and slowly adapting mechanoreceptors in the hairless skin of the cat’s hind foot. Brain Research, 1971, 28, 217–231.
Jänig, W., Schmidt, R. F., & Zimmermann, M. Single unit responses and the total afferent outflow from the cat’s foot pad upon mechanical stimulation. Experimental Brain Research, 1968, 6, 100–115.
Johansson, R. S. Receptive field sensitivity profile of mechano-sensitive units innervating the glabrous skin of the human hand. Brain Research, 1976a, 104, 330–334.
Johansson, R. S. Skin mechanoreceptors in the human hand: Receptive field characteristics. In Y. Zotterman (Ed.), Sensory functions of the skin in primates. Oxford: Pergamon Press, 1976b.
Johansson, R. S. Tactile sensibility in the human hand: Receptive field characteristics of mechanoreceptive units in the glabrous skin area. Journal of Physiology (London), 1978, 281, 101–123.
Johansson, R. S. & Vallbo, A. B. Skin mechanoreceptors in the human hand. An inference of some population properties. In Y. Zotterman (Ed.), Sensory functions of the skin in primates. Oxford: Pergamon Press, 1976.
Johansson, R. S. & Vallbo, A. B. Tactile sensibility in the human hand: relative and absolute densities of four types of mechanoreceptive units in the glabrous skin area. Journal of Physiology (London), 1978, In press.
Johnson, K. 0. Reconstruction of population to a vibratory stimulus in quickly adapting mechanoreceptive afferent fiber population innervating glabrous skin of the monkey. Journal of Neurophysiology, 1974, 37, 48–72.
Knibestol, M. Stimulus-response functions of rapidly adapting mechanoreceptors in the human glabrous skin area. Journal of Physiology (London), 1973, 232, 427–452.
Knibestol, M. Stimulus-response functions of slowly adapting mechanoreceptors in the human glabrous skin area. Journal of Physiology (London), 1975, 245, 63–80.
Knibestol, M. & Vallbo, A. B. Single unit analysis of mechano-receptor activity from the human glabrous skin. Acta Physiologica Scandinavica, 1970, 80, 178–195.
Knibestol, M. & Vallbo, A. B. Stimulus response functions of primary afferents and psychophysical intensity estimation on mechanical skin stimulation In the human hand. In Y. Zotterman (Ed.), Sensory functions of the skin in primates. Oxford: Pergamon Press, 1976.
LaMotte, R. H. & Mountcastle, V. B. Neural processing of temporally-ordered somesthetic input: remaining capacity in monkeys following lesions of the parietal lobe. In G. Gordon (Ed.), Active touch: the mechanism of recogntion of objects by manipulation: A multi-disciplinary approach. Oxford: Pergamon Press, 1978.
Lindblom, U. Properties of touch receptors in distal glabrous skin of the monkey. Journal of Neurophysiology, 1965, 28, 966–985.
Lindblom, U. & Lund, L. The discharge from vibration-sensitive receptors in the monkey foot. Experimental Neurology, 1966, 15, 401–417.
Lynn, B. The nature and location of certain phasic mechanoreceptors in the cat’s foot pad. Journal of Physiology (London), 1969, 201, 768–773.
Merzenich, M. M., & Harrington, T. The sense of flutter-vibration evoked by stimulation of the hairy skin of primates: Comparisons of human sensory capacity with the responses of mechanoreceptive afferents innervating the hairy skin of monkeys. Experimental Brain Research, 1969, 9, 236–260.
Miller, M. R., Ralston III, H. J., & Kasahara, M. The pattern of cutaneous innervation of the human hand. American Journal of Anatomy, 1958, 102, 183–217.
Mountcastle, V. B., LaMotte, R. H., & Carli, G. Detection thresholds for stimuli in humans and monkeys: Comparison with threshold events in mechanoreceptive afferent nerve fiber innervating the monkey hand. Journal of Neurophysiology, 1972, 35, 122–136.
Mountcastle, V. B., Talbot, W. H., S Kornhuber, H. H. The neural transformation of mechanical stimuli delivered to the monkey’s hand. In A.V.S. deReuck & J. Knight (Eds.), Touch, heat and pain. London: Ciba Foundation, Churchill, 1966.
Mountcastle, V. B., Talbot, W. H., Sakata, H., & Hyvarinen, J. Cortical neuronal mechanism in flutter-vibration studied in unanesthetized monkeys: Neuronal periodicity and frequency discharge. Journal of Neurophysiology, 1969, 32, 452–484.
Munger, B. L., Pubols, L. M., 6 Pubols, B. H. The Merkel rete papilla - a slowly adapting sensory receptor in mammalian glabrous skin. Brain Research, 1971, & 9, 47–61.
Sakada, S. Response of Golgi-Mazzoni corpuscles in the cat periostea to mechanical stimuli. In R. Dubner & Y. Kawamura (Eds.), Oral-facial sensory motor mechanisms. New York: Appleton, 1976.
Stilwell, Jr., D. L. The innervation of deep structures of the hand. American Journal of Anatomy, 1957, 101, 75–92.
Talbot, W. H., Darian-Smith, I., Kornhuber, H. H., & Mountcastle, V. B. The sense of flutter-vibration: Comparison of the human capacity with response patterns of mechanoreceptive afferents from the monkey hand. Journal of Neurophysiology, 1968, 31, 301–334.
Vallbo, A. B., & Hagbarth, K.-E. Activity from skin mechanoreceptors recorded percutaneously in awake human subjects. Experimental Neurology, 1968, 21, 270–289.
Vallbo, A. B., & Johansson, R. S. Skin mechanoreceptors in the human hand: Neural and psychophysical thresholds. In Y. Zotterman (Ed.), Sensory functions of the skin in primates. Oxford: Pergamon Press, 1976.
Vallbo, A. B., & Johansson, R. S. Tactile sensory innervation of the glabrous skin of the human hand. In G. Gordon (Ed.), Active Touch: The mechanism of recognition of objects by manipulation. Oxford: Pergamon Press, 1978.
Verrillo, R. T. A duplex mechanism of mechanoreception. In D. R. Kenshalo (Ed.), The skin senses. Springfield, 111.: Thomas, 1968.
Weber, E. H. Über den Tastsinn. Archiv der Anatomie und Physiologie, 1835, 152–159.
Weinstein, S. Intensive and extensive aspects of tactile sensitivity as a function of body part, sex and laterality. In D. R. Kenshalo (Ed.), The skin senses. Springfield, 111.: Thomas, 1968.
Werner, G., & Mountcastle, V. B. Neural activity in mechanoreceptive cutaneous afferents: stimulus-response relations. Weber functions, and information transmission. Journal of Neurophysiology, 1965, 28, 359–397.
Westling, G., Johansson, R. S., & Vallbo, A. B. A method for mechanical stimulation of skin receptors. In Y. Zotterman (Ed.), Sensory functions of the skin in primates. Oxford: Pergamon Press, 1976.
Albuquerque, E., Whitsel, B. L., & Smith, C. M. Patterns of muscle spindle afferent stimulation by alkylammonium compounds. Journal of Pharmacology and Experimental Therapeutics, 1968, 16–4, 191–201.
Gernandt, B. & Zotterman, Y. Intestinal pain: An electrophysiological investigation on mesenteric nerves. Acta Physiologica Scandinavica, 1946, 12, 56–72.
Janig, W. Morphology of rapidly adapting mechanoreceptors in the hairless skin of the cat’s hindfoot. Brain Research, 1971, 28, 217–231.
Pelikan, E. W., Unna, K. R., MacFarlane, D. E., Cazort, R. J., Sadove, M. S., & Nelson, J. T. Evaluations of curarizing drugs in man. II. Journal of Pharmacology and Experimental Therapeutics, 1950, 99, 215–225.
Unna, K. R. ê Pelikan, E. W. Evaluation of eurarizing drugs in man. VI. Critique of experiments on unanesthetized subjects. Annals of New York Academy of Science, 1951, 54, 480–492.
Unna, K. R., Pelikan, E. W., MacFarlane, D. W., Cazort, R. J., Sadove, M. S., & Nelson, J. T. Evaluation of eurarizing drugs in man. Journal of American Medical Association, 1950, 144, 448–451.
Unna, K. R., Pelikan, E. W., MacFarlane, D. W., Cazort, R. J., Sadove, M. S., Nelson, J. R., & Drucker, A. P. Evaluation of eurarizing drugs in man. I. Journal of Pharmacology and Experimental Therapeutics, 1950, 98, 318–329.
Unna, K. R., Pelikan, E. W., MacFarlane, D. W., & Sadove, M. S. Evaluation of eurarizing drugs in man. IV. Journal of Pharmacology and Experimental Therapeutics, 1950, 100, 201–329.
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Johansson, R.S. (1979). Tactile Afferent Units with Small and Well Demarcated Receptive Fields in the Glabrous Skin Area of the Human Hand. In: Kenshalo, D.R. (eds) Sensory Functions of the Skin of Humans. Springer, Boston, MA. https://doi.org/10.1007/978-1-4613-3039-4_8
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