Cardiac parasympathetic blockade with atropine reduced circadian heart rate fluctuations by ~70% in mice, whereas sympathetic blockade with propranolol reduced them by <15%.
Independent of physical activity, the autonomic nervous system (primarily parasympathetic activity) drives baseline circadian heart rate variations, which are further amplified by voluntary exercise.
Heart rate (HR) and blood pressure as well as adverse cardiovascular events show clear circadian patterns, which are linked to interdependent daily variations in physical activity and cardiac autonomic nerve system (ANS) activity. We set out to assess the relative contributions of the ANS (alone) and physical activity to circadian HR fluctuations. To do so, we measured HR (beats per minute, bpm) in mice that were either immobilized using isoflurane anesthesia or free-moving. Nonlinear fits of HR data to sine functions revealed that anesthetized mice display brisk circadian HR fluctuations with amplitudes of 47.1±7.4bpm with the highest HRs in middle of the dark (active) period (ZT 18: 589±46bpm) and lowest HRs in the middle of the light (rest) period (ZT 6: 497±54bpm). The circadian HR fluctuations were reduced by ~70% following blockade of cardiac parasympathetic nervous activity (PNA) with atropine while declining by 15% following cardiac sympathetic nerve activity (SNA) blockade with propranolol. Small HR fluctuation amplitudes (11.6±5.9bpm) remained after complete cardiac ANS blockade. Remarkably, circadian HR fluctuation amplitudes in freely moving, telemetrized mice were only ~32% larger than in anesthetized mice. However, after gaining access to running wheels for 1week, circadian HR fluctuations increase to 102.9±12.1bpm and this is linked directly to increased O 2 consumption during running. We conclude that, independent of physical activity, the ANS is a major determinant of circadian HR variations with PNA playing a dominant role compared to SNA. The effects of physical activity to the daily HR variations are remarkably small unless mice get access to running wheels.
Barazi et al. (Mon,) conducted a other in Circadian heart rate fluctuations. Autonomic nervous system blockade (atropine, propranolol) and physical activity vs. Baseline/control conditions was evaluated on Circadian heart rate fluctuations amplitude. Cardiac parasympathetic blockade with atropine reduced circadian heart rate fluctuations by ~70% in mice, whereas sympathetic blockade with propranolol reduced them by <15%.
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