The haemodynamic basis of lung congestion during exercise in heart failure with preserved ejection fraction

Abstract

Aims: Increases in extravascular lung water (EVLW) during exercise contribute to symptoms, morbidity, and mortality in patients with heart failure and preserved ejection fraction (HFpEF), but the mechanisms leading to pulmonary congestion during exercise are not well-understood.

Methods and results: Compensated, ambulatory patients with HFpEF (n = 61) underwent invasive haemodynamic exercise testing using high-fidelity micromanometers with simultaneous lung ultrasound, echocardiography, and expired gas analysis at rest and during submaximal exercise. The presence or absence of EVLW was determined by lung ultrasound to evaluate for sonographic B-line artefacts. An increase in EVLW during exercise was observed in 33 patients (HFpEFLW+, 54%), while 28 (46%) did not develop EVLW (HFpEFLW-). Resting left ventricular function was similar in the groups, but right ventricular (RV) dysfunction was two-fold more common in HFpEFLW+ (64 vs. 31%), with lower RV systolic velocity and RV fractional area change. As compared to HFpEFLW-, the HFpEFLW+ group displayed higher pulmonary capillary wedge pressure (PCWP), higher pulmonary artery (PA) pressures, worse RV-PA coupling, and higher right atrial (RA) pressures during exercise, with increased haemoconcentration indicating greater loss of water from the vascular space. The development of lung congestion during exercise was significantly associated with elevations in PCWP and RA pressure as well as impairments in RV-PA coupling (area under the curve values 0.76-0.84).

Conclusion: Over half of stable outpatients with HFpEF develop increases in interstitial lung water, even during submaximal exercise. The acute development of lung congestion is correlated with increases in pulmonary capillary hydrostatic pressure that favours fluid filtration, and systemic venous hypertension due to altered RV-PA coupling, which may interfere with fluid clearance.

Clinical trial registration: NCT02885636.

Keywords: Exercise haemodynamics; Heart failure; Heart failure with preserved ejection fraction; Pulmonary oedema.

Published on behalf of the European Society of Cardiology. All rights reserved. © The Author(s) 2019. For permissions, please email: journals.permissions@oup.com.

Figures

Figure 1

The HFpEF group with extravascular lung water (EVLW+) had similar left ventricular function but worse right ventricular function compared with the HFpEF group without extravascular lung water (EVLW−) (A and B). Right atrial and pulmonary capillary wedge pressure were higher during exercise in the EVLW+ HFpEF group (C and D). *P=0.01, **P=0.001.

Figure 2

Right ventricular pulmonary artery uncoupling during exercise was worse in the EVLW+ HFpEF group (A–C) and associated with higher right atrial pressure during exercise (D and E).

Figure 3

Heart failure and preserved ejection fraction patients that developed extravascular lung water had a greater rise in haemoglobin (A) and greater haemoconcentration (B) during exercise. *P<0.05.

Take home figure

Development of extravascular lung water associated with both increased pulmonary capillary wedge pressure leading to fluid filtration, as well as increased right atrial and central venous pressure potentially impeding lymphatic lung water drainage.