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The Journal of Neurophysiology Vol. 84 No. 3 September 2000, pp. 1136-1148
Copyright ©2000 by the American Physiological Society
1Department of Physiology and Biophysics and 2Neuroscience Program, University of South Florida Health Sciences Center, Tampa, Florida 33612-4799
Chang, E. Y.,
K. F. Morris,
R. Shannon, and
B. G. Lindsey.
Repeated Sequences of Interspike Intervals in Baroresponsive
Respiratory Related Neuronal Assemblies of the Cat Brain Stem. J. Neurophysiol. 84: 1136-1148, 2000. Many neurons exhibit spontaneous activity in the absence of any
specific experimental perturbation. Patterns of distributed synchrony
embedded in such activity have been detected in the brain stem,
suggesting that it represents more than "baseline" firing rates
subject only to being regulated up or down. This work tested the
hypothesis that nonrandom sequences of impulses recur in baroresponsive
respiratory-related brain stem neurons that are elements of
correlational neuronal assemblies. In 15 Dial-urethan anesthetized
vagotomized adult cats, neuronal impulses were monitored with
microelectrode arrays in the ventral respiratory group, nucleus tractus
solitarius, and medullary raphe nuclei. Efferent phrenic nerve activity
was recorded. Spike trains were analyzed with cycle-triggered
histograms and tested for respiratory-modulated firing rates.
Baroreceptors were stimulated by unilateral pressure changes in the
carotid sinus or occlusion of the descending aorta; changes in firing
rates were assessed with peristimulus time and cumulative sum
histograms. Cross-correlation analysis was used to test for nonrandom
temporal relationships between spike trains. Favored patterns of
interspike interval sequences were detected in 31 of 58 single spike
trains; 18 of the neurons with significant sequences also had
short-time scale correlations with other simultaneously recorded cells.
The number of distributed patterns exceeded that expected under the
null hypothesis in 12 of 14 data sets composed of 4-11 simultaneously
recorded spike trains. The data support the hypothesis that
baroresponsive brain stem neurons operate in transiently configured
coordinated assemblies and suggest that single neuron patterns may be
fragments of distributed impulse sequences. The results further
encourage the search for coding functions of spike patterns in the
respiratory network.
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