Brain Volume and Cardiac Function in Heart Failure

Description

Heart failure (HF) is a multifaceted clinical syndrome characterized by the heart’s inability to effectively pump blood to meet the body’s demands. This condition often results from various structural or functional cardiac disorders, impacting not only the heart but also multiple organ systems, including the brain, kidneys, lungs, and circulatory system. Patients with heart failure present a spectrum of symptoms that significantly affect quality of life, such as dyspnea and fatigue, and are typically identified by cardiac dysfunction markers like abnormal left or right ventricular filling and elevated filling pressures. Recent advances in diagnostic technologies, particularly in imaging modalities like Cardiovascular Magnetic Resonance Imaging (CMR), have opened new avenues for in-depth exploration of heart failure’s underlying pathophysiology. CMR is increasingly used in heart failure management for risk stratification, viability assessment, and diagnosing conditions like myocarditis and cardiomyopathy. This technology enables detailed assessment of myocardial function, structural changes, and interactions with other organ systems. Patients with heart failure exhibit greater structural brain alterations and higher dementia risks than the general population. Neural atrophy in nearly every region of medical limbic circuit has been observed in HF patients. Initial research showed a strong correlation between thalamic volumes and ventricular stroke volumes in healthy volunteers. The investigators plan to extend this study to heart failure (HF) patients using the same MRI methods to assess the connection between subcortical brain volumes and heart health. Additionally, the investigators will explore if HF patients experience a faster decline in these brain volumes than individuals with normal heart function.

– Objectives:

Primary: To access the correlation of cardiac structure and function to the subcortical volumes in patients with heart failure.

Secondary: To compare the correlation between cardiac structure and function and subcortical volumes in heart failure patients with that in participants with normal heart function.