Heart rate-arterial blood pressure relationship in conscious rat before vs. after spinal cord transection

doi:10.1152/ajpregu.00003.2002

Heart rate-arterial blood pressure relationship in conscious rat before vs. after spinal cord transection

Bobby R. Baldridge¹, Don E. Burgess¹, Ethan E. Zimmerman¹, Jonathan J. Carroll¹, Aletia G. Sprinkle², Richard O. Speakman¹^,², Sheng-Gang Li², David R. Brown³, Robert F. Taylor²^,⁴, Susan Dworkin⁵, and David C. Randall¹^,²^,³

¹ Departments of Biology, and Chemistry and Physics, Asbury College, Wilmore 40390-1198; ² Department of Physiology, University of Kentucky College of Medicine, Lexington 40536-0298; ³ Center for Biomedical Engineering, Wenner-Gren Laboratory, University of Kentucky, Lexington 40506-0070; ⁴ Cardinal Hill Rehabilitation Hospital, Lexington, Kentucky 40504; and ⁵ Department of Behavioral Science, Pennsylvania State University College of Medicine, Hershey, Pennsylvania 17033

This experiment quantified the initial disruption and subsequent adaptation of the blood pressure (BP)-heart rate (HR) relationshipafter spinal cord transection (SCT). BP and HR were recorded for4 h via an implanted catheter in neurally intact, unanesthetizedrats. The animals were then anesthetized, and their spinal cordswere severed at T₁-T₂ (n = 5) or T₄-T₅ (n = 6) or sham lesioned(n = 4). BP was recorded for 4 h daily over the ensuing 6 days.The neurally intact rat showed a positive cross correlation, withHR leading BP at the peak by 1.8 ± 0.8 (SD) s. The cross correlationin unanesthetized rats (n = 2) under neuromuscular blockade wasalso positive, with HR leading. After SCT at T₁-T₂, the crosscorrelation became negative, with BP leading HR, and did not changeduring the next 6 days. The cross correlation also became negative1-3 days after SCT at T₄-T₅, but in four rats by day 6 and thereafterthe cross correlation progressively reverted to a positive value.We propose that the positive cross correlation with HR leadingBP in the intact rat results from an open-loop control that dependson intact supraspinal input to sympathetic preganglionic neuronsin the spinal cord. After descending sympathetic pathways weresevered at T₁-T₂, the intact vagal pathway to the sinoatrial nodedominated BP regulation via the baroreflex. We suggest that reestablishmentof the positive correlation after SCT at T₄-T₅ was attributableto the surviving sympathetic outflow to the heart and upper vasculaturereasserting some effective function, perhaps in association withdecreased spinal sympathetic hyperreflexia. The HR-BP cross correlationmay index progression of sympathetic dysfunction in pathologicalprocesses.

sympathetic; parasympathetic; dysautonomia; cross correlation; baroreflex

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