Trials / Not Yet Recruiting

Not Yet RecruitingNCT07493590

CAPTURE-HFpEF: National Study of Identification and Phenotyping of Heart Failure With Preserved Ejection Fraction

CAPTURE-HFpEF (Cardiovascular Assessment and Phenotyping for Timely Understanding and Recognition of Evolving Heart Failure With Preserved Ejection Fraction)

Summary

The goal of this observational study is to improve early detection, characterization, and understanding of heart failure with preserved ejection fraction (HFpEF) in adults at risk of or diagnosed with HFpEF, including men and women across Danish regions. The main questions to answer are: Can systematic cardiovascular screening and deep phenotyping improve early identification and classification of HFpEF? Which clinical, imaging, biomarker, and metabolic characteristics define subtypes (phenotypes) of HFpEF and predict disease progression and outcomes? Researchers will compare participants with HFpEF, participants at risk of HFpEF, and relevant control groups to see if differences in biomarkers, imaging findings, and clinical characteristics can identify early disease stages and distinct HFpEF phenotypes. Participants identified with HFpEF will: * Undergo detailed cardiovascular examinations (e.g., echocardiography, CT and other imaging examinations, RHC, CPET) * Provide blood and tissue samples for biomarker and metabolic analyses * Complete clinical assessments and questionnaires * Have relevant health data collected from national health registries * Attend follow-up assessments to monitor disease progression

Detailed description

Heart failure (HF) with preserved ejection fraction (HFpEF) is a heterogeneous syndrome that will benefit from early diagnosis, extensive diagnostic work-up, and individualized therapy. HF is a global health problem and one of the leading causes of cardiovascular (CV) morbidity and mortality. While many pharmacological and interventional treatments have been developed for HF with reduced ejection fraction (HFrEF), the HFpEF syndrome is poorly characterised with very few treatment possibilities. Whilst HFrEF was previously associated with a much worse prognosis than HFpEF, the two conditions today have comparable outcomes. Besides having a high mortality, HFpEF is also associated with a low quality of life and recurrent hospitalisations. Almost all treatments that have been successful in HFrEF have failed in HFpEF, underscoring the inadequate understanding of this disease. When HFpEF is diagnosed, it is often at a very late stage (near end-stage), thus compromising the potential benefits of treatment. As HFpEF is believed to be a result of the long-term detrimental effects from various diseases such as hypertension, diabetes, obesity, chronic kidney disease and others, earlier diagnosis of HFpEF and strict disease modification of the precipitating disease(s) may alter disease course and hence prognosis. The aim of CAPTURE-HFpEF is to identify patients with HFpEF at earlier stages of the disease at a national level and identify important subgroups (phenotypes) that may benefit from different treatments. Furthermore, the CAPTURE-HFpEF initiative will determine mechanisms important for the etiology of the different HFpEF phenotypes. This includes the use of existing and novel experimental models that mimic aspects of the syndrome for comparative phenotyping, biomarker screening, and potentially testing of experimental therapeutics. Combining insights from HFpEF experimental models with data obtained from deep phenotyping will make it possible to develop and potentially implement personalized therapeutics for each identified HFpEF phenotype. The study leverages Danish national registries and the secure e-mail system (e-Boks) to invite potential participants. Approximately 30,000 adults with risk factors for HFpEF and self-reported dyspnea will undergo AI-driven echocardiography, ECG, blood sampling, and detailed clinical assessment. Additionally, 200-500 patients with established HFpEF diagnoses will be included for comparative analyses. Deep phenotyping includes genotyping, proteomics, metabolomics, and advanced imaging (CT, MR, echocardiography, DPD-scintigraphy), myocardial biopsies and CPET to characterize subtypes of HFpEF and explore upstream abnormalities leading to disease progression. The operational office is the central HUB of the project. The HUB is responsible for the daily running of all parts of the initiative and will be in charge of coordinating with the spokes (Examination facilities) with regards to data gathering, administration of the database and data availability to researchers. The HUB is located at Herlev Hospital. Patient examination facilities/spokes will be present in all regions of Denmark and capable of all aspects of the initial examination. Parts of the deep phenotyping will also be performed in these clinics, whereas many advanced analyses are to be outsourced to different core laboratories. It is the intention that each spoke has a secretary, examination staff and affiliated research staff (Senior PI, PhDs and post-docs).

Conditions

• Heart Failure With Preserved Ejection Fraction (HFPEF)

Interventions

Timeline

Start date

2026-04-01

Primary completion

2033-04-01

Completion

2035-04-01

First posted

2026-03-25

Last updated

2026-03-25

Locations

1 site across 1 country: Denmark

Source: ClinicalTrials.gov record NCT07493590. Inclusion in this directory is not an endorsement.