UNMEDULLATED FIBERS ORIGINATING IN DORSAL ROOT GANGLIA

doi:10.1085/jgp.33.6.651

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ARTICLE

UNMEDULLATED FIBERS ORIGINATING IN DORSAL ROOT GANGLIA

Herbert S. Gasser ¹

¹ From the Laboratories of The Rockefeller Institute for Medical Research

The compound action potential of the unmedullated fibers arisingfrom dorsal root ganglia, as recorded in cat skin nerves afterconduction of simultaneously initiated impulses, shows amongits components a temporal dispersion corresponding to velocitiesbetween 2.3 and 0.7 M.P.S. The maximum representation of thecomponent velocities is at about 1.2 M.P.S. On both sides ofthe maximum the representation falls off irregularly, in sucha way that groupings in the distribution produce in the actionpotential a configuration in which successive features appearalways in the same positions at a given conduction distance.Through this demonstration of a characteristic configurationthe system of the unmedullated fibers is brought into analogywith that of the medullated fibers.

The unmedullated fibersoriginating in the dorsal root ganglia have distinctive physiologicalproperties, among which is a large positive potential whichreaches its maximum immediately after the spike and decrementsto half relaxation in about 50 msec., at 37°C. The positivephases of the unit potentials in the compound action potential,owing to their duration, sum to a much greater extent than thetemporally dispersed spikes; and, since they have sizes suchthat one equivalent to 25 per cent of the spike height wouldnot be at the limit, in the summation process the major portionof the compound action potential is caused to be written ata potential level positive to the starting base line. The positionof the spikes in the sequence can be seen in the analyses inSection III.

The course of the activity in unit fibers is subjectto variation in ways affecting the positive potential. Preliminarydescriptions, based on orienting experiments, of how these variationsare conditioned are given in Section I. Two of the findingsare particularly noteworthy. One is the high sensitivity ofthe dimensions of the postspike positivity to temperature inthe range of temperatures at which skin nerves may be expectedto function, even when the environmental temperatures of ananimal are moderate. The other is the high sensitivity to conditioningby previous activity. The positivity is first decreased, thenreplaced by a negative potential of similar duration. Reasonshave been given why it is inadvisable at the present time tocall the postspike potential an after-potential.

A comparisonhas been made of the properties of the unmedullated fibers arisingfrom dorsal root ganglia with those of fibers arising from sympatheticganglia. The differences are so great that, in the interestof precision in designation, a division of the C group of fibersinto two subgroups is indicated. It is suggested that the twosubgroups be named respectively d.r.C and s.C.

Measurementshave been made of the diameters of the d.r.C fibers in a saphenousnerve stained with silver. Graphs showing the number of fibersat each diameter are presented in Section II. In Section IIIthere are shown constructions, from histological data, of theaction potential as it would appear, after 3 cm. of conduction,with the correlation between diameter and velocity in strictlinearity. The degree of fit between the constructed and recordedpotentials can be seen in Fig. 18.

Submitted on February 15, 1950

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