INTRANEURAL MICROSTIMULATION IN MAN: ITS RELATION TO SPECIFICITY OF TACTILE SENSATIONS

doi:10.1093/brain/110.6.1509

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Brain, Vol. 110, No. 6, 1509-1529, 1987
© 1987 Guarantors of Brain

research-article

INTRANEURAL MICROSTIMULATION IN MAN

ITS RELATION TO SPECIFICITY OF TACTILE SENSATIONS

H. E. TOREBJÖRK, Å. B. VALLBO and J. L. OCHOA

From the ¹Department of Clinical Neurophysiology, University Hospital Uppsala, Sweden Department of Physiology, University of Umeå Umeå, Sweden Department of Neurology, Good Samaritan Medical Center Portland, Oregon, USA

Correspondence to: Professor A. B. Vallbo, Department of Physiology, University of Umeå, S-901 87 Umeå, Sweden.

Recent advances in knowledge, and controversy, concerning cutaneousmechanoreception are reviewed. In particular, the question ofperceptive specificity is discussed in the light of new experimentalapproaches, namely microneurography and microstimulation ofidentified tactile units from the glabrous skin of the humanhand. Additional data are also presented. It is concluded thatthe human brain has an exquisite capacity to detect, localize,delineate, and classify sensations from the input of individualtactile units in the glabrous skin of the hand. The physiologicalspecificity of lowthreshold mechanoreceptors in the hand, whichhas been well documented in previous studies, can now be linkedto distinct attributes of very simple tactile sensations whichsubjects report when a single afferent is stimulated electricallythrough an intraneural microelectrode.

This conclusion does not conflict with the concept that thebrain normally makes use of temporal and spatial patterns ofimpulses from a large number of receptors of various types toform more complex tactile percepts, such as in the recognitionof texture, but the microstimulation data demonstrate that particularpatterns of nerve impulses are not a necessary determinant ofthe subjective quality attribute of a simple tactile sensation.On the contrary, the sensations elicited by a train of impulsesin a single afferent unit are remarkably distinct and well characterizedin a number of respects. A further conclusion is that the afferentinputs are processed differently in tactile subsystems. Thisobservation warrants caution in generalizing results from onesystem into a common theory of the origin of sensory modality.

Received October 21, 1986. Revised February 5, 1987. Accepted February 25, 1987.

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