Central α2-adrenergic mechanisms differentially affect baroreflex control of sympathetic and cardiovagal outflow

Abstract

This study aimed to investigate the impact of central α2-adrenergic mechanisms on arterial baroreflex control of sympathetic and cardiovagal outflow in healthy humans. R-R interval (ECG), blood pressure (brachial arterial catheter), and muscle sympathetic nerve activity (MSNA; peroneal microneurography) were measured in eight healthy participants (5 females; 28±7 years). Sympathetic action potentials (AP) were extracted from the filtered MSNA neurogram (continuous wavelet transform) during a 5-minute baseline (BSL) and an intravenous dexmedetomidine infusion consisting of a loading dose (LD; 10 minutes at 0.225 μg/kg/hr) and a maintenance dose (MD; ~0.15 μg/kg/hr). Sympathetic AP baroreflex threshold gain was measured as the slope of the linear relationship between AP discharge probability and diastolic blood pressure. The linear relationship between R-R interval and systolic blood pressure (sequence technique) quantified cardiovagal baroreflex gain. Mixed-effects analyses and post-hoc t-tests were performed. Data are reported as mean ± SD. Dexmedetomidine reset the baroreflex threshold operating points for all sympathetic AP clusters downwards to lower firing probabilities (cluster 4; BSL: 20±6, LD: 13±8, MD: 6±5%, both p<0.01 vs. BSL) and leftwards to lower diastolic pressures (BSL: 72±9, LD: 69±8, MD: 65±10 mmHg, both p<0.01 vs. BSL). Dexmedetomidine reduced baroreflex threshold gain for the subpopulation of medium-sized sympathetic APs (cluster 4; BSL: -6.5±2.0, LD: -2.6±1.6, MD: -2.0±0.7 %/mmHg, both p<0.01 vs. BSL). Dexmedetomidine did not affect baroreflex threshold gain of small (cluster 1; BSL: -1.9±1.1, LD: -1.3±1.6, MD: -1.1±0.8 %/mmHg, both P>0.88 vs. BSL) or large AP clusters (cluster 9; BSL: -0.8±0.4, LD: -0.8±1.0, MD: -0.2±0.7 %/mmHg, both P>0.98 vs. BSL). Dexmedetomidine reset the cardiovagal baroreflex to lower systolic pressures but did not affect R-R interval (BSL: 1035±261, LD: 1025±308, MD: 1005±292ms, Main effect P=0.45) or gain (BSL: 24±11, LD: 30±20, MD: 26±25 ms/mmHg, Main effect P=0.63). These findings suggest that central α2-adrenergic mechanisms differentially affect arterial baroreflex control of sympathetic and cardiovagal outflow in humans by minimally affecting cardiovagal baroreflex gain but strongly affecting the baroreflex gain for the subpopulation of medium-sized sympathetic APs. This work was supported by the Natural Sciences and Engineering Research Council of Canada (NSERC) and the National Institutes of Health (NIH). This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.