Pulmonary Arterial Hypertension Clinical Trial
— EVITAOfficial title:
EValuation of Cardiac Magnetic Resonance Imaging in Follow up assessmenT of Patients With Pulmonary Arterial Hypertension (EVITA)
Pulmonary arterial hypertension (PAH) is characterized by a progressive increase in pulmonary vascular resistance leading to right ventricular failure and eventually to death. The therapeutic strategy has become complex and needs to perform recurring follow up evaluations including right heart catheterizations (RHC). Cardiac magnetic resonance imaging (cMRI) has the advantage to accurately assess right ventricular volumes and important prognostic predictors such as cardiac index, stroke volume and right ventricular ejection fraction. The main objective of EVITA is to assess the hemodynamic diagnosis performances at baseline and at follow up visits of cMRI in comparison with the results of the RHC (current guidelines) to detect an unfavorable hemodynamic status. The primary endpoint is sensitivity and specificity of cMRI for the diagnosis of an unfavorable status defined by the current RHC criteria (with 95% confidence interval). The secondary objectives are 1) to identify clinical and hemodynamic variables independently contributing to prognosis, 2) to describe complications due to cMRI and to RHC, 3) to compare acceptability and tolerability of cMRI over RHC for the patient, 4) to constitute biological collection of blood samples to determine diagnostic and prognostic PAH biomarkers, 5) To compare the measurements of indexed stroke volume performed by RHC and by cMRI, 6) To evaluate the prognostic value to predict an unfavourable hemodynamic status of cMRI variables (including indexed stroke volume) after taking into account NYHA functional class, 6-minute walk test distance and BNP or NT-proBNP after 4 months of PAH treatment and 7) To evaluate the prognostic value to predict the first occurrence of morbimortality events of cMRI variables (including indexed stroke volume) after taking into account NYHA functional class, 6-minute walk test distance and BNP or NT-proBNP after 4 months of PAH treatment. PAH patients will be recruited in centers of the French network of severe pulmonary hypertension in a prospective cohort study. 180 subjects will be enrolled in the study: that size will give the study 90% power to find significant at the 5%-level. If the primary endpoint were achieved, since first, strategies and procedures planed in this project are consistent with those currently used in routine and second, inclusion criteria are not limited to a sub-population of PAH patients, positive results could allow to broadly extend our findings. Therefore, it will be possible to decrease the number of RHC, an invasive and cumbersome procedure without altering the prognosis. Moreover, all clinical procedures would be performed in outpatient clinics and thereby would reduce the cost to assess the severity of the disease. Current recommendations for evaluation of severity and follow-up being mainly derived from consensus of opinion of the experts, positive results will also improve the level evidence of severity assessment of PAH patients. According to secondary objectives we expect to better predict morbimortality events with cMRI compared to RHC.
Status | Recruiting |
Enrollment | 180 |
Est. completion date | May 16, 2024 |
Est. primary completion date | May 16, 2024 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 18 Years to 75 Years |
Eligibility | Inclusion Criteria: - 18-75 years of age, - Incident cases of PAH, or Prevalent cases of PAH diagnosed for less than 12 months when a re-evaluation is indicated including a right heart catheterization with the intention of modifying the specific-PAH treatment: from mono to dual therapy or from bi to triple therapy (if the 3rd treatment planned is parenteral epoprostenol, the centre must be able to perform an MRI under epoprostenol IV), - Idiopathic, heritable PAH, or PAH associated with medication or toxic, or systemic scleroderma, or HIV infection or portal hypertension, or PAH associated with repaired (> 1 year) congenital systemic-to-pulmonary shunt. Patients included in a biomedical trial to test a pharmaceutical treatment will be eligible provided that there is no incompatibility between the 2 studies. Exclusion Criteria: - Contraindication of cardiac MRI and impossibility to undergo MRI, - Patients not in normal sinus rhythm at baseline, - Patients with PH (pulmonary hypertension) due to left heart disease, - Patients with PH due to lung diseases and/or hypoxemia, - Chronic thromboembolic pulmonary hypertension, - Comorbidities with a significant impact on the cardiovascular system such as valvulopathies, cardiomyopathy, severe hypertension despite appropriate treatment, - Pregnancy, - Patients under a measure of legal protection. |
Country | Name | City | State |
---|---|---|---|
France | Professor Ari CHAOUAT | Vandœuvre-lès-Nancy |
Lead Sponsor | Collaborator |
---|---|
Central Hospital, Nancy, France |
France,
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Performance of Cardiac Magnetic Resonance Imaging to detect an unfavorable hemodynamic state compared to the results of the Right Heart Catheterization | Cardiac Magnetic Resonance Imaging CI < 2.5 l/min/m2 or a right ventricle ejection fraction (RVEF) < 35% or an absolute decrease of 10% of RVEF at a follow-up evaluation (for the second and third time-point) compared to cardiac index< 2.5 l/min/m2 or right atrial pressure > or = to 8 mm Hg measured with Right Heart Catheterization. | All visits will be pooled as one time point (unfavorable hemodynamic status from baseline to 24-month of follow up) | |
Secondary | Secondary objective 1: The predictive value of the first occurrence of morbimortality events in 2 different analyses derived from RHC criteria and from cMRI criteria. | The predictive value of the first occurrence of morbimortality events in 2 different analyses derived from RHC criteria and from cMRI criteria. | From baseline to the end of the study. The end of the study is defined by the 24-month visit of the last patient included. | |
Secondary | Secondary objective 2: The link between first morbimortality events occurrence and covariates, identifying variables independently contributing to prognosis in univariate analyses, to build a multiparameter prognostic score. | To assess the link between the first morbi-mortality event and the following factors (New York Heart Association (NYHA) functional class, 6-minute walk distance, plasma level of B-type natriuretic peptide (BNP)/N-terminal(NT)-proBNP, and continuous hemodynamic variables from cMRI, RHC and echocardiography), identifying clinical and hemodynamic variables independently contributing to prognosis in univariate analyses. | From baseline to the end of the study. The end of the study is defined by the 24-month visit of the last patient included. | |
Secondary | Secondary objective 3: The link between first morbimortality events occurrence and covariates, identifying variables independently contributing to prognosis in multivariate analyses, to build a multiparameter prognostic score. | To assess the link between the first morbi-mortality event and the following factors (New York Heart Association (NYHA) functional class, 6-minute walk distance, plasma level of B-type natriuretic peptide (BNP)/N-terminal(NT)-proBNP, and continuous hemodynamic variables from cMRI, RHC and echocardiography), identifying clinical and hemodynamic variables independently contributing to prognosis in multivariate analyses. | From baseline visit to 24 month visit. | |
Secondary | Secondary objective 4.a: Complications due to cMRI and to RHC | This will be mostly a descriptive analysis. The overall frequency of reported adverse events and severe adverse events will be compared between groups using the Chi-Square test (or Fisher's exact test where requested). | From baseline visit to 24 month visit. | |
Secondary | Secondary objective 4.b: Complications due to cMRI and to RHC | This will be mostly a descriptive analysis. The overall frequency of reported adverse events and severe adverse events will be compared between groups to account for the paired nature of the data, a McNemar test will be performed. | From baseline visit to 24 month visit. | |
Secondary | Secondary objective 5: The magnitude of better tolerability of cMRI over RHC for the patient | Physical and psychological distress due to cMRI and RHC will be measured with questionnaires.
The comparison of the Likert-type scales of the questionnaires will be carried out using the Chi-Square test. |
From baseline visit to 24 month visit. | |
Secondary | Secondary objective 6: Create a biobank for diagnosis and prognosis purposes | Blood samples to obtain DNA from circulating blood cells and plasma | From baseline visit to 24 month visit. | |
Secondary | Secondary objective 7: measurements of indexed stroke volume performed by RHC and by cMRI | Measurements of indexed stroke volume (in ml/m2) by RHC carried out at the same visit (baseline, 3-6 months, 24 months and visit in case of PAH worsening between 3-6 months and 24 months) than a cMRI exam. | From baseline visit to 24 month visit. | |
Secondary | Secondary objective 8: prognostic value to predict an unfavourable hemodynamic status of cMRI variables (including indexed stroke volume) after taking into account NYHA, 6-minute walk test distance and BNP or NT-proBNP after 4 months treatment | unfavourable status as defined for the primary objective. | From baseline visit to 24 month visit. | |
Secondary | Secondary objective 9: prognostic value to predict the first occurrence of morbimortality events of cMRI variables (including indexed stroke volume) after taking into account NYHA, 6-minute walk test distance and BNP or NT-proBNP after 4 months treatment | morbimortality as defined for the secondary objectives 1), 2) and 3). | From baseline visit to 24 month visit. |
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