Congestive Heart Failure Clinical Trial
— BEAT HFpEFOfficial title:
Inhaled Beta-adrenergic Agonists to Treat Pulmonary Vascular Disease in Heart Failure With Preserved EF (BEAT HFpEF): A Randomized Controlled Trial
Verified date | February 2019 |
Source | Mayo Clinic |
Contact | n/a |
Is FDA regulated | No |
Health authority | |
Study type | Interventional |
The enormous and rapidly growing burden of Heart Failure with Preserved Ejection Fraction
(HFpEF) has led to a need to understand the pathogenesis and treatment options for this
morbid disease. Recent research from the investigator's group and others have shown that
pulmonary hypertension (PH) is highly prevalent in HFpEF, and right ventricular (RV)
dysfunction is present in both early and advanced stages of HFpEF.
These abnormalities in the RV and pulmonary vasculature are coupled with limitations in
pulmonary vasodilation during exercise. There are no therapies directly targeted at the
pulmonary vasculature that have been clearly shown to be effective in HFpEF. A recent study
by Mayo Clinic Investigators has demonstrated pulmonary vasodilation with dobutamine (a beta
2 agonist) in HFpEF. As an intravenous therapy, this is not feasible for outpatient use.
In the proposed randomized, placebo-controlled double blinded trial, the investigators seek
to evaluate whether the commonly used inhaled bronchodilator albuterol (a beta 2 agonist),
administered through a high-efficiency nebulizer device that achieves true alveolar drug
delivery, improves pulmonary vascular resistance (PVR) at rest and during exercise in
patients with HFpEF as compared to placebo. This has the potential to lead to a simple cost
effective intervention to improve symptoms in HFpEF, and potentially be tested in other World
Health Organization (WHO) Pulmonary Hypertension groups. PVR is an excellent surrogate marker
for pulmonary vasodilation and has been used in previous early trials of PH therapy.
Status | Completed |
Enrollment | 30 |
Est. completion date | September 2017 |
Est. primary completion date | September 2017 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 18 Years and older |
Eligibility |
Inclusion Criteria: - Heart Failure with Preserved Ejection Fraction (HFpEF) - Normal left ventricular ejection fraction (=50%) - Elevated Left Ventricular filling pressures at cardiac catheterization (defined as resting Pulmonary Capillary Wedge Pressure>15 mmHg and/or =25 mmHg during exercise). Exclusion Criteria: - Prior albuterol therapy (within previous 48 hours) - Current long acting inhaled beta agonist use - Significant hypokalemia (<3meq/L) - Significant valvular disease (>moderate left-sided regurgitation, >mild stenosis) - High output heart failure - Severe pulmonary disease - Unstable coronary disease - Constrictive pericarditis - Restrictive cardiomyopathy - Hypertrophic cardiomyopathy |
Country | Name | City | State |
---|---|---|---|
United States | Mayo Clinic | Rochester | Minnesota |
Lead Sponsor | Collaborator |
---|---|
Mayo Clinic | National Heart, Lung, and Blood Institute (NHLBI) |
United States,
Reddy YNV, Obokata M, Koepp KE, Egbe AC, Wiley B, Borlaug BA. The ß-Adrenergic Agonist Albuterol Improves Pulmonary Vascular Reserve in Heart Failure With Preserved Ejection Fraction. Circ Res. 2019 Jan 18;124(2):306-314. doi: 10.1161/CIRCRESAHA.118.313832. — View Citation
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Change in 20 Watt Exercise Pulmonary Vascular Resistance (PVR) | The exercise PVR at 20 Watts after study drug relative to the exercise PVR at 20 Watts in the initial assessment prior to study drug. This measurement is made by subtracting pulmonary capillary wedge pressure from the mean pulmonary arterial pressure and dividing by cardiac output in liters per minute and reported as wood units. A decrease in PVR measured by wood units would be considered a favorable response. | Baseline, 10 minutes after intervention during exercise | |
Secondary | Change in Resting Pulmonary Vascular Resistance | The resting PVR after study drug relative to the resting PVR in the initial assessment prior to study drug. This measurement is made by subtracting pulmonary capillary wedge pressure from the mean pulmonary arterial pressure and dividing by cardiac output in liters per minute and reported as wood units. | Baseline, 10 minutes after intervention | |
Secondary | Change in Exercise Pulmonary Capillary Wedge Pressure (PCWP) | Pulmonary capillary wedge pressure was measured using a high-fidelity micromanometer advanced through the lumen of a fluid-filled catheter. PCWP position was confirmed by appearance on fluoroscopy, characteristic pressure waveforms, and oximetry. | Baseline, 10 minutes after intervention during exercise | |
Secondary | Change in Resting Pulmonary Capillary Wedge Pressure (PCWP) | Pulmonary capillary wedge pressure was measured using a high-fidelity micromanometer advanced through the lumen of a fluid-filled catheter. PCWP position was confirmed by appearance on fluoroscopy, characteristic pressure waveforms, and oximetry. | Baseline, 10 minutes after intervention | |
Secondary | Change in Exercise Pulmonary Artery Compliance | Pulmonary artery compliance was calculated as the ratio of stroke volume/pulmonary artery pulse pressure. | Baseline, 10 minutes after intervention during exercise | |
Secondary | Change in Resting Pulmonary Artery Compliance | Pulmonary artery compliance was calculated as the ratio of stroke volume/pulmonary artery pulse pressure. | Baseline, 10 minutes after intervention | |
Secondary | Change in Exercise Pulmonary Artery Pressure | Pulmonary artery pressure was measured using a high-fidelity micromanometer advanced through the lumen of a fluid-filled catheter. | Baseline, 10 minutes after intervention during exercise | |
Secondary | Change in Resting Pulmonary Artery Pressure | Pulmonary artery pressure was measured using a high-fidelity micromanometer advanced through the lumen of a fluid-filled catheter. | Baseline, 10 minutes after intervention | |
Secondary | Change in Exercise Right Atrial Pressure (RA) | RA was measured using a high-fidelity micromanometer advanced through the lumen of a fluid-filled catheter. | Baseline, 10 minutes after intervention during exercise | |
Secondary | Change in Resting Right Atrial Pressure (RA) | RA was measured using a high-fidelity micromanometer advanced through the lumen of a fluid-filled catheter. | Baseline, 10 minutes after intervention | |
Secondary | Change in Exercise Cardiac Output | Cardiac output was calculated using the direct Fick method of breath-by-breath oxygen consumption (V02)/arterial-venous oxygen content difference (AVO2 diff). | Baseline, 10 minutes after intervention during exercise | |
Secondary | Change in Resting Cardiac Output | Cardiac output was calculated using the direct Fick method of breath-by-breath oxygen consumption (V02)/arterial-venous oxygen content difference (AVO2 diff). | Baseline, 10 minutes after intervention | |
Secondary | Change in Exercise Pulmonary Elastance | Pulmonary elastance was calculated by the ratio of pulmonary artery systolic pressure/stroke volume. | Baseline, 10 minutes after intervention during exercise | |
Secondary | Change in Resting Pulmonary Elastance | Pulmonary elastance was calculated by the ratio of pulmonary artery systolic pressure/stroke volume. | Baseline, 10 minutes after intervention |
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