Suppression by Medial and Lateral Midbrain Stimulation of Limb Withdrawal
and Tail Flick Reflexes in the Rat: Correlates With Descending Inhibition of
Sacral Spinal Dorsal Horn Neurons.
Carstens, E., and D. K. Douglass.
Section of Neurobiology, Physiology and Behavior, University of California,
Davis, California 95616.
APStracts 2:0018N, 1995.
SUMMARY AND CONCLUSIONS
1. The aim of this study was to utilize new quantitative behavioral methods
in rats to investigate the effects of electrical stimulation in midbrain
analgesia areas on the magnitude of flexion hindlimb withdrawal and tail flick
reflexes evoked by graded noxious heating. Electrophysiological experiments
were then done with the use of these animals to correlate behavioral data with
the effects of identical midbrain stimulation on sacral dorsal horn neuronal
responses to graded heating of the tail. 2. To quantify limb withdrawals,
electromyographs (EMGs) were recorded in biceps femoris during withdrawals
elicited by noxious heat stimuli (40-52 degrees C, 5 s, 2-min intervals)
delivered to the plantar surface of the hind paw, without and during
concomitant electrical stimulation (100 ms, 100-Hz trains, 3/s, 10-600 [mu]A)
in midbrain periaqueductal gray (PAG) or laterally adjacent reticular
formation (LRF) via previously implanted electrodes. The same animals were
tested with the use of a tail flick paradigm modified to allow measurement of
the force of tail movements in three orthogonal planes and thereby calculate
the overall force vector of tail flicks elicited by graded noxious radiant
heat pulses (38-58 degrees C, 5 s, 2-min intervals) delivered to the tail,
again with and without concomitant PAG or LRF stimulation. Finally, the same
rats were anesthetized with pentobarbital sodium and microelectrode
recordings made from single sacral dorsal horn neurons responsive to the same
noxious heat stimuli delivered to the tail to assess effects of PAG and LRF
stimulation. 3. PAG and LRF stimulation suppressed the magnitude of limb
flexor EMGs, and tail flick force vectors, in an intensity-dependent manner.
Recruitment of suppression of both limb withdrawal EMGs and tail flicks was
generally more effective for LRF compared with PAG stimulation, although mean
thresholds for suppression were similar. Tail flick force and limb withdrawal
EMGs recorded from the same rat in separate sessions were suppressed about
equally in a majority of cases. 4. Limb withdrawal EMG magnitude increased
monotonically from threshold (+-40 degrees C) to 52 degrees C. The population
stimulus-response function was fit equally well by linear regression or a 2
degrees polynomial function ( r 2 = 0.79 for both). PAG stimulation
significantly reduced the mean slope of the stimulus-response function (to
73%; n = 15), whereas LRF stimulation shifted it toward the right with a
smaller slope reduction (to 85%) and 3 degrees C increase in threshold. 5.
Tail flick force vectors typically increased linearly from threshold (40
degrees C) to 48 52 degrees C and then leveled off. PAG stimulation reduced
the slope of the stimulus-response function (50%) with little change in
threshold. LRF stimulation produced a near-parallel rightward shift with an
+-3 degrees C increase in threshold. 6. In 14 behaviorally tested rats, 41
sacral units responded to noxious tail heating. Units additionally responded
to a range of mechanical brush, tap, and pressure stimuli and had receptive
fields ranging in size from a few millimeters squared to the entire tail. They
were thus classified as multireceptive or wide dynamic range type. 7. Unit
responses to noxious heat were suppressed in an intensity-dependent manner by
PAG and LRF stimulation. Neuronal responses were generally less effectively
suppressed by midbrain stimulation compared with previously measured tail
flicks in the same rats. 8. Neuronal responses increased linearly from
threshold (mean 38.6 degrees C) to 52 degrees C, beyond which they often
plateaued. The slope of the population neuronal stimulus-response function was
reduced (to 53%) by PAG stimulation with little threshold change. LRF
stimulation reduced the slope less (to 61%) and increased the threshold by 4
degrees C. 9. These results indicate that midbrain PAG and LRF stimulation may
exert parametrically distinct suppressive effects on limb withdrawal and tail
flick reflexes, and sacral dorsal horn neurons, in accordance with previously
reported effects on lumbar dorsal horn neurons.
Received 7 March 1994; accepted in final form 31 January 1995.
APS Manuscript Number J112-4.
Article publication pending J. Neurophysiol.
ISSN 1080-4757 Copyright 1995 The American Physiological Society.
Published in APStracts on 3 April 1995.