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J Neurophysiol (November 1, 2002). 10.1152/jn.00120.2002
Submitted on 19 February 2002
Accepted on 1 July 2002
Department of Physiology, University of Oklahoma Health Sciences Center, Oklahoma City, Oklahoma 73190
Qin, Chao,
Margaret J. Chandler,
Robert D. Foreman, and
Jay P. Farber.
Upper Thoracic Respiratory Interneurons Integrate Noxious Somatic
and Visceral Information in Rats. J. Neurophysiol. 88: 2215-2223, 2002. The aim of this study was to
determine if thoracic respiratory interneurons (TRINs) might receive
peripheral noxious somatic and visceral inputs. Extracellular
potentials of 78 respiration-related T3 neurons,
whose activity was driven by central respiratory output, were recorded
from the intermediate zone in pentobarbital anesthetized, paralyzed,
and ventilated male rats. These neurons were identified as interneurons
by their locations and by the absence of antidromic activation from the
cervical sympathetic trunk and cerebellum. Thoracic esophageal
distension (ED) was produced by water inflation of a latex balloon
(0.1-0.5 ml, 20 s). A catheter was placed in the pericardial sac
to administer 0.2 ml bradykinin (10
5 M) for
noxious cardiac stimulation. Of 78 TRINs examined for ED, activity of
24 TRINs increased and activity of 8 TRINs decreased. Intrapericardial
bradykinin increased activity in 26/65 TRINs tested and decreased
activity in 5 TRINs. Seventy-four TRINs were tested for effects of
brush, pressure, and pinch of the chest and upper back areas. No TRINs
responded to brushing hair. Low-threshold responses to pressure were
observed in 27 TRINs. Fourteen TRINs were wide dynamic range and 4 TRINs had high-threshold responses. Peripheral stimuli affected all
types of TRINs, including inspiratory, expiratory, and biphasic
neurons. Simultaneous phrenic recordings showed that effects of various
somatic and visceral stimuli on TRINs were independent of central
respiratory drive. Various somatovisceral and viscerovisceral patterns
of input were observed in TRINs. The results suggested that TRINs
participate in intraspinal processing and integration of nociceptive
information from somatic fields and visceral organs.
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