Heart failure is a global epidemic, and despite significant advances in specific disease-directed therapies and interventions over the past decade, outcomes following a diagnosis of clinically... Show moreHeart failure is a global epidemic, and despite significant advances in specific disease-directed therapies and interventions over the past decade, outcomes following a diagnosis of clinically apparent cardiac failure remain suboptimal. Patients with heart failure are typically treated according to how they are classified by one single parameter from echocardiography (heart ultrasound) known as __ejection fraction,__ which describes how strongly their heart is pumping with each heartbeat. However, the limitations of this measure as an absolute marker of the presence or absence of heart muscle dysfunction, the precursor of clinical heart failure, is being increasingly recognized. This thesis investigates newer, more sensitive imaging techniques using advanced ultrasound software that enable the measurement of myocardial mechanics, which provide a more direct assessment of the pumping ability, or contractility, of the muscle fibers in the heart. The aim of the present thesis was to explore the use of myocardial mechanics across the spectrum of heart failure, from identifying earlier covert abnormalities in heart function within patients at risk of heart disease but who have not yet manifested the disease, to estimating the burden of disease and prognosis in those with established dysfunction due to coronary artery disease, the most common cause of heart failure worldwide. In the clinical research settings studied, assessment of intrinsic rather than surrogate heart muscle contractility using these newer techniques succeeded in facilitating 1) earlier identification of subclinical (not yet apparent) disease in sarcoidosis, an important multi-systemic disease which causes heart failure, and 2) incremental risk stratification in patients with established myocardial dysfunction due to coronary artery disease. It is hoped these insights will ultimately lead to improved detection and prognosis for patients with all stages of cardiac muscle dysfunction. Show less
The presence of a decreased left ventricular (LV) function after myocardial infarction has demonstrated to be of considerable clinical importance. In this thesis, the role of 2D echocardiography to... Show moreThe presence of a decreased left ventricular (LV) function after myocardial infarction has demonstrated to be of considerable clinical importance. In this thesis, the role of 2D echocardiography to evaluate LV function in ischemic heart disease was investigated. In the first part of the thesis, recently introduced echocardiographic parameters to describe LV function were studied and their importance for prognosis after myocardial infarction was evaluated. In addition, in the second part of the thesis, the role for echocardiography in the decision making around advanced treatment options in heart failure such as cardiac resynchronization therapy (CRT) and cardiac surgery was explored. Show less
