Cardiovascular Deconditioning Enhances Cardiovascular and Autonomic Response to Arterial Chemoreflex Stimulation

Cardiovascular deconditioning (CVD) due to bedrest, inactivity or exposure to microgravity impairs cardiovascular regulation and circulatory homeostasis. Cardiovascular changes associated with CVD, including resting tachycardia, decreased exercise capacity and autonomic impairments are reproduced in an animal model of CVD, hindlimb unloaded (HU) rats. Autonomic dysfunction, including blunted baroreflex function, in CVD is associated with mechanisms involving the central nervous system. We hypothesized that CVD augments the arterial chemoreflex. Male Sprague‐Dawley rats were subjected to 2 weeks hindlimb unloading (HU) to simulate CVD, or maintained at normal postural position (cage control, CC). Under inactin anesthesia, baseline heart rate (HR) was elevated in HU vs CC (381±8 bpm vs 334±6 bpm). To examine the chemoreflex, HU and CC rats (n=5–6 each) were given bolus NaCN (25, 50, 75ug/kg, iv) or acute hypoxia (12% O2, 45 seconds). NaCN dose dependently increased HR and mean arterial pressure (MAP) in HU but not CC. At the highest NaCN concentration, HU increased MAP (22±4 mmHg) and HR (16±3 bpm) more than CC MAP (8±1 mmHg) and HR (6±2 bpm). NaCN also increased splanchnic sympathetic and phrenic nerve activity (SSNA and PhrNA) in both groups, and responses tended to be greater in HU rats. Likewise, the peak hypoxic response of SSNA and PhrNA were greater in HU than CC rats (SSNA, HU 143 ± 26% vs CC 111 ± 9%; PhrAmp%; HU 382 ± 208 vs CC 300 ± 103). Exposure to NaCN or hypoxia did not change PhrFreq in either group. These data suggest that HU enhances cardiovascular responses to chemoreflex activation. Support or Funding Information Funding: HL132836