Abstract
Electrical stimulation to segmental dorsal cutaneous nerves (DCNs) activates a nociceptive sensorimotor reflex and the same afferent stimulation also evokes blood pressure (BP) and heart rate (HR) responses in rats. To investigate the relationship between those cardiovascular responses and the activation of nociceptive afferents, we analyzed BP and HR responses to electrical stimulations at each DCN from T6 to L1 at 0.5 mA to activate A-fiber alone or 5 mA to activate both A- and C-fibers at different frequencies. Evoked cardiovascular responses showed a decrease and then an increase in BP and an increase and then a plateau in HR. Segmentally, both cardiovascular responses tended to be larger when evoked from the more rostral DCNs. Stimulation frequency had a larger effect on cardiovascular responses than the rostrocaudal level of the DCN input. Stimulation strength showed a large effect on BP changes dependent on C-fibers whereas HR changes were dependent on A-fibers. Additional A-fiber activation by stimulating up to 4 adjacent DCNs concurrently, but only at 0.5 mA, affected HR but not BP. These data support that cutaneous nociceptive afferent subtypes preferentially contribute to different cardiovascular responses, A-fibers to HR and C-fibers to BP, with temporal (stimulation frequency) and spatial (rostrocaudal level) dynamics.
Highlights
Electrical stimulation to segmental dorsal cutaneous nerves (DCNs) activates a nociceptive sensorimotor reflex and the same afferent stimulation evokes blood pressure (BP) and heart rate (HR) responses in rats
BP and HR Responses evoked by DCN stimulations
We have studied autonomic responses to cutaneous nociceptive input in detail, exploring different features of the cardiovascular (BP and HR) responses, and whether they were correlated more with which DCN was stimulated, what stimulus frequency was used, or which afferent population was activated (A-fiber alone at 0.5 mA vs A- and C-fiber at 5 mA)
Summary
Electrical stimulation to segmental dorsal cutaneous nerves (DCNs) activates a nociceptive sensorimotor reflex and the same afferent stimulation evokes blood pressure (BP) and heart rate (HR) responses in rats. The effects of noxious stimuli on BP and heart rate (HR) have been compared by natural and electrical stimuli[4,14], muscle/cutaneous/visceral afferents[5,15], stimulation frequencies[4], stimulation strengths[16], anesthetic conditions[5], body temperatures[17], and spinal-segment specific activation[18,19]. These previous studies have extensively investigated those stimulation parameters separately, their interactions are not clear, nor do we know the comparative efficacy in producing cardiovascular responses among those stimulation parameters. DCN A- and C-fibers selectively labeled with axon-specific transganglionic tracers at different thoracic (T7 vs T13) levels demonstrated that central projection patterns of those nociceptive fibers and their synaptic terminations contributed to the somatotopic (i.e. spinal segmental) organization of DCN-evoked CTM reflex responses[27,34]
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