Simulated microgravity exposure markedly attenuates the baroreflex total loop gain and induces orthostatic hypotension in male rats
Kazuhiro Kamada, Hiroshi Mannoji, Takeshi Tohyama, Takuya Nishikawa, Hiroyuki Tsutsui, Kenji Sunagawa, Keita Saku

TL;DR
Simulated microgravity reduces the body's ability to regulate blood pressure, leading to orthostatic hypotension in rats.
Contribution
This study demonstrates that simulated microgravity impairs baroreflex sympathetic regulation, contributing to orthostatic hypotension.
Findings
Simulated microgravity significantly reduces the baroreflex total loop gain in rats.
Both mechanoneural and neuromechanical arc gains decrease in rats under simulated microgravity.
Reduced baroreflex function may explain orthostatic hypotension after microgravity exposure.
Abstract
Autonomic dysfunction is recognized as the central mechanism of orthostatic hypotension after microgravity exposure. Because the arterial baroreflex regulates arterial pressure (AP) via sympathetic nerve activity (SNA), we investigated the systematic baroreflex function under simulated microgravity by conducting an open‐loop analysis. We used Sprague–Dawley rats after hindlimb unloading (HU) for 2 weeks. We isolated the carotid sinuses from the systemic circulation, then changed intracarotid sinus pressure (CSP) stepwise and recorded SNA and AP responses. We compared CSP−AP (total loop), CSP−SNA (mechanoneural arc), and SNA−AP (neuromechanical arc) relations between control rats (n = 9) and HU rats (n = 7). The total loop gain at the operating point decreased significantly in HU rats compared with control rats (0.3 ± 0.4 vs. 1.1 ± 0.4 mmHg/mmHg, p < 0.05). In addition to the decrease in…
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Taxonomy
TopicsSpaceflight effects on biology · Heart Rate Variability and Autonomic Control · Neuroscience of respiration and sleep
