Training in HFpEF-PH

Overview

Exercise interventions alone or as a component of a comprehensive cardiac rehabilitation program for patients with heart failure (HFrEF and HFpEF) have already shown to reduce the risk of hospitalisations due to HF and improved exercise capacity and health-related quality of life. Two meta-analyses have confirmed the beneficial effects in cardiorespiratory fitness and quality of life. The effects of exercise training on systolic and diastolic function remain inconclusive. Due to the positive results of exercise training in HFpEF, cardiac rehabilitation is recommended (Class I, level A) to be integrated into the overall provision of HF care. However, none of these studies focused on concomitant PH in HFpEF. Exercise training in patients with pulmonary hypertension has already shown to improve exercise capacity, quality of life and peak oxygen consumption, which was confirmed by three meta-analyses and a Cochrane review. Though different diagnostic subgroups have already been enrolled in PH exercise training studies, they mainly included pulmonary arterial hypertension and chronic thromboembolic pulmonary hypertension. Data on combined PH and HFpEF is still lacking. As recently pointed out by Arena et al. there may thus be an exercise training volume/intensity which may be detrimental to the RV in patients with HF and concomitant PH. This study is sought to investigate whether a specialized training program is safe and tolerable and may improve exercise capacity, quality of life, hemodynamics, diastolic dysfunction and biomarkers in patients with PH and HFpEF.

During the 6th World Symposium of PH in Nice, three main entities of PH due to left heart disease (PH-LHD) were identified. 1. PH due to HFpEF, 2. PH due to HF with reduced EF (HFrEF) and 3. PH due to valvular disease. The hemodynamic criteria measured by right heart catheterisation (RHC) of PH-LHD include mean pulmonary arterial pressure (mPAP)\>20 mmHg and pulmonary arterial wedge pressure (PAWP) \>15 mmHg. The hallmark of HFpEF is an elevation in left-sided filling pressures. In some patients this leads to elevation of mean pulmonary arterial pressure as secondary pulmonary hypertension (PH). Pulmonary arterial pressure is a marker of the severity and chronicity of pulmonary venous congestion in HFpEF and in case of presence of PH, symptoms are more severe and the outcome is poorer. Recently, an updated diagnostic algorithm (HFA-PEFF) for HFpEF was published as consensus recommendation from the Heart Failure Association of the European Society of Cardiology. In first step, a pre-test assessment is performed (P: Pretest). In case risk factors for HFpEF are existing electrocardiographic and echocardiographic evaluation as well as an exercise test are required. If the 1st step is proved positive, a detailed echocardiography (E: echocardiography) should be performed. A definite diagnosis of HFpEF can be made by right heart catheterization with PAWP ≥15mmHg or LVEDP ≥16mmHg at rest and/or PAWP ≥25mmHg during exercise in presence of preserved left ventricular function. Exercise interventions alone or as a component of a comprehensive cardiac rehabilitation program for patients with heart failure (HFrEF and HFpEF) have already shown to reduce the risk of hospitalisations due to HF and improved exercise capacity and health-related quality of life . Two meta-analyses have confirmed the beneficial effects in cardiorespiratory fitness and quality of life. The effects of exercise training on systolic and diastolic function remain inconclusive. Due to the positive results of exercise training in HFpEF, cardiac rehabilitation is recommended (Class I, level A) to be integrated into the overall provision of HF care. However, none of these studies focused on concomitant PH in HFpEF. Exercise training in patients with pulmonary hypertension has already shown to improve exercise capacity, quality of life and peak oxygen consumption, which was confirmed by three meta-analyses and a Cochrane review. Though different diagnostic subgroups have already been enrolled in PH exercise training studies, they mainly included pulmonary arterial hypertension and chronic thromboembolic pulmonary hypertension. Data on combined PH and HFpEF is still lacking. In healthy subjects, intensive exercise has already shown to cause potentially deleterious remodeling of the RV. As recently pointed out by Arena et al. there may thus be an exercise training volume/intensity which may be detrimental to the RV in patients with HF and concomitant PH. This study is sought to investigate whether a specialized training program is safe and tolerable and may improve exercise capacity, quality of life, hemodynamics, diastolic dysfunction and biomarkers in patients with PH and HFpEF.