Summary
Two methods of evaluating the threshold for vibration perception were compared. Surprisingly it appears that the theoretically attractive, adaptive forced choice method does not result in lower variability than the method of limits. Moreover two devices were used to evaluate the threshold: the Optacon Tactile Tester and the “multirod”. Based on the characteristics of these devices and the known properties of mechanoreceptors, it is argued that the two devices test different mechanoreceptor systems. The high correlation of threshold with age (r = 0.9) found by Arezzo and Schaumburg [1] in measurements with the Optacon could not be reproduced.
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References
Arezzo JC, Schaumburg HH (1980) The use of the Optacon® as a screening device. J Occup Med 22:461–464
Arezzo JC, Schaumburg HH, Petersen CA (1983) Rapid screening for peripheral neuropathy: a field study with the Optacon. Neurology (Cleveland) 33:626–629
Bolanowski SJ Jr, Verrillo RT (1982) Temperature and criterion effects in a somatosensory subsystem: a neurophysiological and psychophysical study. J Neurophysiol 48:836–855
Capraro AJ, Verrillo RT, Zwislocki JJ (1979) Psychophysical evidence for a triplex system of cutaneous mechanoreception. Sens Processes 3:334–352
Dyck PJ (1975) Quantitation of cutaneous sensation in man. In: Dyck PJ, Thomas PK, Lambert EH (eds) Peripheral neuropathy. WB Saunders Company, Philadelphia London Toronto, pp 465–479
Fagius J, Wahren LK (1981) Variability of sensory threshold determination in clinical use. J Neurol Sci 51:11–27
Freeman B, Rowe M (1981) The effect of sympathetic nerve stimulation on responses of cutaneous Pacinian corpuscles in the cat. Neurosc Lett 22:145–150
Gescheider GA, Capraro AJ, Frisina RD, Hamer RD, Verrillo RT (1978) The effects of a surround on vibrotactile thresholds. Sens Processes 2:99–115
Goldberg JM, Lindblom U (1979) Standardized method of determining vibratory perception thresholds for diagnosis and screening in neurological investigation. J Neurol Neurosurg Psychiatr 42:795–803
Green DM, Swets JA (1974) Signal detection theory and psychophysics. Robert E Krieger Publishing Company, Huntington, New York
He F (1985) Occupational toxic neuropathies — an update. Scand J Work Environ Health 11:321–330
Johansson RS (1978) Tactile sensibility in the human hand: receptive field characteristics of mechanoreceptive units in the glabrous skin area. J Physiol 281:101–123
Johansson RS, Landström U, Lindström R (1982) Sensitivity to edges of mechanoreceptive afferent units innervating the glabrous skin of the human hand. Brain Res 244:27–32
Johansson RS, Vallbo ÅB (1983) Tactile sensory coding in the glabrous skin of the human hand. Trends Neurosc 6:27–32
Johnson KO, Lamb GD (1981) Neural mechanisms of spatial tactile discrimination: neural patterns evoked by Braille-like dot patterns in the monkey. J Physiol 310:117–144
Lindblom U (1965) Properties of touch receptors in distal glabrous skin of the monkey. J Neurophysiol 28:966–985
Lindblom U, Goldberg JM (1979) Screening for neurological symptoms and signs after exposure to jet fuel. Acta Neurol Scand 60: [Suppl 64]
Maurissen JPJ, Weiss B (1980) Vibration sensitivity as an index of somatosensory function. In: Spencer PS, Schaumburg HH (eds) Experimental and clinical neurotoxicology. Williams and Wilkins, Baltimore London, pp 767–774
Maurissen JPJ, Weiss B, Davis HT (1983) Somatosensory thresholds in monkeys exposed to acrylamide. Toxicol Appl Pharmacol 71:266–279
Sallé HJA, Verberk MM (1984) Comparison of five methods for measurement of vibratory perception. Int Arch Occup Environ Health 53:303–309
Sinclair D (1981) Mechanisms of cutaneous sensation. Oxford University Press, Oxford New York Toronto
Spencer PS, Hanna R, Sussman M, Pappas G (1977) Inactivation of Pacinian corpuscle mechanosensitivity by acrylamide. J Gen Physiol 70: [Suppl 17a]
Spencer PS, Schaumburg HH, Sabri MI, Veronesi B (1980) The enlarging view of hexacarbon neurotoxicity. CRC Crit Rev Toxicol 7:279–356
Spencer PS, Arezzo J, Schaumburg H (1985) Chemicals causing disease of neurons and their processes. In: O'Donoghue JL (ed) Neurotoxicity of industrial and commercial chemicals, vol I. CRC Press Inc, Boca Raton, Florida, pp 1–14
Verrillo RT (1963) Effect of contactor area on the vibrotactile threshold. J Acoust Soc Am 35:1962–1966
Verrillo RT (1968) A duplex mechanism of mechanoreception. In: Kenshalo DR (ed) The skin senses. Thomas, Springfield, Illinois, pp 139–159
Verrillo RT (1979) Change in vibrotactile thresholds as a function of age. Sens Processes 3:49–59
Zwislocki J, Maire F, Feldman AS, Rubin H (1958) On the effect of practice and motivation on the threshold of audibility. J Acoust Soc Am 30:254–262
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Muijser, H., Hooisma, J., Hoogendijk, E.M.G. et al. Vibration sensitivity as a parameter for detecting peripheral neuropathy. Int. Arch Occup Environ Heath 58, 287–299 (1986). https://doi.org/10.1007/BF00377886
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DOI: https://doi.org/10.1007/BF00377886