Low-dose dopamine improves ventilatory efficiency during exercise in heart failure with preserved ejection fraction through inhibition of tonic activity of peripheral chemoreceptors

Abstract

Abstract Introduction Peripheral chemoreceptors (PChRs) play an important role in adequate oxygenation by 1) maintaining baseline ventilation (tonic activity) and 2) providing hyperventilation in response to acute hypoxia (reflexia). It has been previously shown that in patients with heart failure with reduced ejection fraction hypertonicity and/or hyperreflexia of PChRs contribute to exercise intolerance (ExIn). It is unknown whether similar mechanisms are present in heart failure with preserved ejection fraction (HFpEF) and which component of PChR functionality has a decisive role in this matter. Purpose The aim of this study was to evaluate the role of PChRs in ExIn in patients with HFpEF. Methods All patients underwent assessment of PChRs which included measurements of: 1) tonic activity (TA, decrease in ventilation following pharmacological inhibition of PChRs), 2) reflex response (RR; an increase in ventilation in the response to acute hypoxia). The inhibition of PChRs was achieved with low-dose dopamine infusion (3 μg kg–1 min–1) and the acute hypoxia was produced with brief nitrogen gas administrations. Enrolled patients underwent symptom-limited cardiopulmonary exercise test using cycle ergometer from which peak oxygen consumption (peakVO2) and the slope relating ventilation to carbon dioxide (VE/VCO2 slope) were derived. All measurements (including PChRs' function tests and cardiopulmonary exercise test) were performed twice in a randomized, double-blinded and placebo-controlled manner (dopamine vs normal saline). Results We included 12 stable patients with HFpEF (age: 73±7 years, LVEF: 58±3%). During exercise the inhibition of PChRs with dopamine resulted in the improvement (decrease) in VE/VCO2 slope comparing to placebo (36±3.6 vs 34.3±3.7, p=0.04) but no change regarding peakVO2. There was a correlation between TA and relative magnitude of improvement in VE/VCO2 following PChRs inhibition (R=0.76, p=0.005). We also found a trend for correlation between RR and VE/VCO2 measured during placebo (R=0.56, p=0.059). There was no correlation between TA and RR (p=0.24). Conclusion Both TA and RR of PChRs are involved in ventilatory inefficacy during exercise in HFpEF – but in different ways. While augmented RR is likely an indicator of high VE/VCO2, the elevated TA indicates the magnitude of the improvement in exercise tolerance following PChRs deactivation. Thus, further interventions aimed at the modulation of PChRs should enroll patients based on TA rather than RR. Funding Acknowledgement Type of funding sources: Public grant(s) – National budget only. Main funding source(s): National Science Centre, PRELUDIUM grant