Epinephrine Does Not Influence Baroreflex Sensitivity During Lower Body Negative Pressure to Physiological Tolerance

Abstract

BackgroundThe baroreflex plays an integral role in blood pressure maintenance by altering heart rate and sympathetic activity in response to changes in arterial pressure. Baroreflex sensitivity (BRS) has been shown to decrease linearly during progressive exposure to central hypovolemia as induced by lower body negative pressure (LBNP), and can be used as an index of decompensation status during hemorrhage. Circulating epinephrine is significantly elevated during high stress situations such as hemorrhage; however, it is unclear whether epinephrine influences BRS during progressive exposure to central hypovolemia. Based on previous work, we hypothesized epinephrine would attenuate any reduction in spontaneous cardiac baroreflex sensitivity during LBNP.MethodsTen young (35±3 yrs), healthy (BMI 24±1 kg/m2) men and women (6M/4F) underwent LBNP protocols on 2 separate days consisting of a 10‐min pre‐infusion baseline, 15‐min infusion period (randomized to saline or epinephrine, 0.1 μg/kg/min), 10‐min post‐infusion baseline, and 5 minutes of LBNP at −15, −30, −45, −60, −70, and −80 mmHg until the onset of presyncope (range= −30 to −80 mmHg). Presyncope was defined as a rapid decrease in systolic blood pressure greater than 15 mmHg, systolic blood pressure less than 80 mmHg, bradycardia, or voluntary termination due to presyncopal symptoms. Heart rate (HR; electrocardiogram) and blood pressure (BP; radial arterial catheter) were recorded continuously. Spontaneous cardiac BRS was determined using the sequence method (WinCPRS). Data are reported from both 10‐min baselines and from 1 minute at 20, 40, 60, 80, and 100 percent of each individual's total LBNP exposure time.ResultsWe observed no significant differences in total exposure time (1475±150 vs. 1415±79s; p=0.69) or cumulative stress index (820±135 vs. 699±69 min*mmHg; p=0.37) between saline and epinephrine visits, respectively. Baroreflex sensitivity did not change during post‐infusion baselines (ΔDown‐Down =−2±1 vs. −2±2 ms/mmHg; saline vs. epinephrine, respectively; p=0.09). Baroreflex sensitivity was significantly reduced with LBNP (p<0.01 main effect of LBNP). There was no difference between the change in baroreflex sensitivity during LBNP with saline or epinephrine infusion (ΔDown‐Down =−14±4 vs. −8±4 ms/mmHg, p=0.17).ConclusionsConsistent with previous work, spontaneous cardiac baroreflex sensitivity fell during LBNP. Contrary to our hypothesis, epinephrine infusion did not attenuate the fall in spontaneous cardiac baroreflex sensitivity observed during simulated blood loss. Because epinephrine did not alter the effect of LBNP on BRS, these data suggest that BRS may accurately reflect decompensation status during traumatic hemorrhage independent of elevated circulating epinephrine.Support or Funding InformationUS Army Medical Research and Materiel Command Contract W81XWH‐13‐2‐0038