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Metrics of High Cofluctuation and Entropy to Describe Control of Cardiac Function in the Stellate Ganglion
[article]
2021
bioRxiv
pre-print
Neural control of the heart involves dynamic adaptation of mechanical and electrical indices to meet blood flow demands. The control system receives centrally-derived inputs to coordinate cardiac function on a beat-by-beat basis, producing 'functional' outputs such as the blood pressure waveform. Bilateral stellate ganglia (SG) are responsible for integration of multiple inputs and efferent cardiopulmonary sympathetic neurotransmission. In this work, we investigate network processing of
doi:10.1101/2021.09.28.462183
fatcat:nenitms5yvbw7ihcsz444wbei4