Carotid chemoreceptor inhibition improves exercise tolerance in participants with elevated carotid chemosensitivity: A secondary analysis.

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Collins, Sophie É; Research Institute of the McGill University Health Centre,  Québec, Canada.
Phillips, Devin B;Stickland, Michael K

Autonomic neuroscience : basic & clinical,2025 Apr 05

  • Rationale: Chronic heart failure (CHF) and chronic obstructive pulmonary disease (COPD) are characterized by exaggerated carotid chemoreceptor (CC) sensitivity and exercise intolerance. We tested the hypothesis that participants with elevated CC sensitivity would have the greatest improvement in exercise tolerance with CC inhibition, secondary to increased vascular conductance, and lower ventilatory requirements, dyspnea and leg discomfort.
  • Methods: Data from healthy controls, and patients with CHF or COPD were included in this secondary analysis of results from 2 randomized placebo-controlled double-blind crossover trials. Assessments included pulmonary function, incremental cardiopulmonary exercise test, and basal CC sensitivity assessment. High CC sensitivity was defined as either a stepwise hypoxic ventilatory response (HVR) or transient HVR greater than one SD above the mean in healthy controls. Participants received 2 μg/kg/min dopamine or placebo infusions (randomized) during 2 separate constant work-rate exercise tests to examine exercise endurance time (EET) and cardiopulmonary responses.
  • Results: Among 33 adults, 17 were categorized to normal HVR (11 controls/3 COPD/3 CHF), and 16 to high HVR (1 control/7 COPD/8 CHF). Participants with high HVR experienced significant dopamine-induced improvements in EET (p interaction  = 0.011), and reduced leg discomfort at the 4-min isotime (p interaction  = 0.024). Those with improved vascular conductance and leg discomfort had the greatest improvements in EET (p = 0.042 and p = 0.021, respectively).
  • Conclusions: CC inhibition with dopamine in participants with high HVR was associated with improvement in EET. These findings suggest that high HVR is related to exercise limitation, and that improvement in EET is associated with a CC-mediated increase in vascular conductance and leg discomfort.