Human tactile detection thresholds: modification by inputs from specific tactile receptor classes

1. Human detection thresholds for a vibratory stimulus applied to the volar surface of the index finger were examined under conditions where afferents from specific tactile receptor classes were simultaneously activated from the thenar eminence. The experiments were designed to test whether stimuli which have been shown previously to induce afferent inhibition of ‘tactile’ neurones in the cuneate nucleus of the cat could modify human subjective performance in a tactile detection task. Conditioning stimuli to the thenar eminence were usually of three forms; steady indentation to engage slowly adapting tactile receptors; 300 Hz vibration to engage Pacinian corpuscles; and 30 Hz vibration to engage the intradermal, rapidly adapting tactile receptors which are thought to be Meissner's corpuscles.

[1]  N. Cauna Nature and functions of the papillary ridges of the digital skin , 1954, The Anatomical record.

[2]  Georg v. Békésy,et al.  Human Skin Perception of Traveling Waves Similar to Those on the Cochlea , 1955 .

[3]  H. K. Hartline,et al.  INHIBITION IN THE EYE OF LIMULUS , 1956, The Journal of general physiology.

[4]  N. Cauna,et al.  Nerve supply and nerve endings in Meissner's corpuscles. , 1956, The American journal of anatomy.

[5]  N. Cauna,et al.  The structure of human digital pacinian corpuscles (corpus cula lamellosa) and its functional significance. , 1958, Journal of anatomy.

[6]  G. Békésy,et al.  Funneling in the Nervous System and its Role in Loudness and Sensation Intensity on the Skin , 1958 .

[7]  Henry J. Ralston,et al.  The pattern of cutaneous innervation of the human hand. , 1958, The American journal of anatomy.

[8]  W. H. Miller,et al.  NEURAL INTERACTION IN THE EYE AND THE INTEGRATION OF RECEPTOR ACTIVITY , 1958, Annals of the New York Academy of Sciences.

[9]  V. Mountcastle,et al.  Neural mechanisms subserving cutaneous sensibility, with special reference to the role of afferent inhibition in sensory perception and discrimination. , 1959, Bulletin of the Johns Hopkins Hospital.

[10]  A. Mcintyre,et al.  An analysis of fibre diameter and receptor characteristics of myelinated cutaneous afferent fibres in cat , 1960, The Journal of physiology.

[11]  J. Cronly-Dillon,et al.  Pain, itch, and vibration. , 1960, Archives of neurology.

[12]  G. Gordon,et al.  Functional organization in nucleus gracilis of the cat , 1960, The Journal of physiology.

[13]  M SATO,et al.  Response of Pacinian corpuscles to sinusoidal vibration , 1961, The Journal of physiology.

[14]  E. Perl,et al.  Cutaneous projection to second-order neurons of the dorsal column system. , 1962, Journal of neurophysiology.

[15]  R. T. Verrillo,et al.  Investigation of Some Parameters of the Cutaneous Threshold for Vibration , 1962 .

[16]  A. McComas Responses of the rat dorsal column system to mechanical stimulation of the hind paw , 1963, The Journal of physiology.

[17]  M. Jukes,et al.  Dual organization of the exteroceptive components of the cat's gracile nucleus , 1964, The Journal of physiology.

[18]  I. Darian‐Smith PRESYNAPTIC COMPONENT IN THE AFFERENT INHIBITION OBSERVED WITHIN TRIGEMINAL BRAIN-STEM NUCLEI OF THE CAT. , 1965, Journal of neurophysiology.

[19]  G. D. Goff Differential discrimination of frequency of cutaneous mechanical vibration. , 1967, Journal of experimental psychology.

[20]  A. Iggo,et al.  A quantitative study of cutaneous receptors and afferent fibres in the cat and rabbit , 1967, The Journal of physiology.

[21]  P R Burgess,et al.  Receptor types in cat hairy skin supplied by myelinated fibers. , 1968, Journal of neurophysiology.

[22]  M. Rowe,et al.  "Tactile" stimulus intensity: information transmission by relay neurons in different trigeminal nuclei. , 1968, Science.

[23]  V. Mountcastle,et al.  The sense of flutter-vibration: comparison of the human capacity with response patterns of mechanoreceptive afferents from the monkey hand. , 1968, Journal of neurophysiology.

[24]  A. Fraioli,et al.  Sensation magnitude of vibrotactile stimuli , 1969 .

[25]  M. Rowe,et al.  Afferent inhibition over the response range of secondary trigeminal neurones. , 1970, Brain research.

[26]  P. Wall The sensory and motor role of impulses travelling in the dorsal columns towards cerebral cortex. , 1970, Brain : a journal of neurology.

[27]  T. J. Moore A Survey of the Mechanical Characteristics of Skin and Tissue in Response to Vibratory Stimulation , 1970 .

[28]  W. Jänig,et al.  Morphology of rapidly and slowly adapting mechanoreceptors in the hairless skin of the cat's hind foot. , 1971, Brain research.

[29]  V. Mountcastle,et al.  Detection thresholds for stimuli in humans and monkeys: comparison with threshold events in mechanoreceptive afferent nerve fibers innervating the monkey hand. , 1972, Journal of neurophysiology.

[30]  E P Gardner,et al.  Sensory funneling. I. Psychophysical observations of human subjects and responses of cutaneous mechanoreceptive afferents in the cat to patterned skin stimuli. , 1972, Journal of Neurophysiology.

[31]  E. P. Gardner,et al.  Sensory funneling. II. Cortical neuronal representation of patterned cutaneous stimuli. , 1972, Journal of neurophysiology.

[32]  P. R. Burgess,et al.  Cutaneous Mechanoreceptors and Nociceptors , 1973 .

[33]  G. Gordon The Concept of Relay Nuclei , 1973 .

[34]  A. G. Brown Ascending and Long Spinal Pathways: Dorsal Columns, Spinocervical Tract and Spinothalamic Tract , 1973 .

[35]  M. Rowe,et al.  Inhibition within the trigeminal nucleus induced by afferent inputs and its influence on stimulus coding by mechanosensitive neurones , 1974, The Journal of physiology.

[36]  W D Willis,et al.  Static and dynamic responses of spinothalamic tract neurons to mechanical stimuli. , 1975, Journal of neurophysiology.

[37]  V. Mountcastle,et al.  Capacities of humans and monkeys to discriminate vibratory stimuli of different frequency and amplitude: a correlation between neural events and psychological measurements. , 1975, Journal of neurophysiology.

[38]  B. Nail,et al.  Inhibition of cuneate neurones: its afferent source and influence on dynamically sensitive ‘tactile’ neurones , 1977, The Journal of physiology.