Mangafodipir - an Intracellular Contrast Agent for Magnetic Resonance Imaging (MRI): Measuring Manganese Uptake Rate in Heart Failure Patients With Preserved Ejection Fraction (HFpEF) Patients.

Overview

More than half of heart failure patients have preserved ejection fraction (HFpEF), a condition caused by increased wall stiffness that impairs proper heart filling. Two types of cardiac fibrosis, replacement fibrosis and interstitial fibrosis, contribute to this stiffening. In addition, altered calcium handling in the cardiomyocytes is relevant. The currently available contrast agents in Magnetic Resonace Imaging (MRI) primarily detect cell loss caused by replacement fibrosis, and measurements of the extracellular volume provide clues about the status of interstitial fibrosis. However, the planned trial aims to utilise mangafodipir trisodium to measure cellular function independent of the impact of fibrosis. This information could be vital for accurate diagnosis, selection and monitoring of therapy. In addition, manganese-enhanced magnetic resonance imaging (MEMRI) may be used as an alternative to examinations with gadolinium-based contrast agents in the future.

The trial is an open-label, single centre, Phase 2A, Proof-of-Concept (PoC) trial in adult male and female patients without randomisation. Overall, up to 42 participants will be enrolled in this trial: * A run-in phase will include up to 6 participants (healthy volunteers and HFpEF patients regardless of aetiology (HCM, CA). * The main phase of the trial will include 12 HFpEF with HCM, 12 HFpEF with CA and 12 healthy volunteers. During a run-in phase up to 6 participants will be enrolled to standardise the trial procedures, especially mangafodipir-enhanced imaging. The number and sequence of trial visits will be the same for participants of the run-in and the main phase. All enrolled participants will undergo gadolinium-enhanced imaging at Visit 2. A gadolinium-based contrast agent (authorised AMP) will be injected i.v. and T1 mapping and Extracellular Volume (ECV) measurement will be done for approximately 60 minutes. Mangafodipir-enhanced mapping will be done at Visit 3. After baseline T2 mapping, mangafodipir trisodium injection (IMP) will be administered i.v. and T1 mapping, Saturation Recovery T1 weighted imaging for measurement of the uptake rate, and T2 mapping, will be done for approximately 90 minutes. Clinical safety data will be collected throughout the trial; the participants will be followed up by a phone call 24+6 hours after Visit 3 for evaluation of late-appearing AEs. The analyses of the images will be done by an investigator of the study team, blinded to the clinical data.