270 research outputs found

    Left ventricular remodeling and function in ischemic heart disease and aortic valve disease

    Get PDF
    Background: Cardiac remodeling is a broad term that refers to structural and functional alterations of the heart in response to chronic changes in loading conditions or left ventricular (LV) contractile performance. Different loading conditions will affect the heart in different ways, some leading to impaired heart function, symptoms of heart failure, or even death. However, the process of remodeling may not be permanent. If the heart is relieved of the underlying cause of the remodeling, the heart function and structure may normalize in a process referred to as reverse remodeling. The complex interplay of factors that determine the process of reverse remodeling is not fully elucidated. Cardiac remodeling can be evaluated by many different diagnostic modalities, but the most widely used diagnostic tool is two-dimensional echocardiography (2DE). In recent years, three-dimensional echocardiography (3DE) has emerged with possible advantages in the assessment of LV volume and function. The thesis aimed to evaluate 3DE in the assessment of LV function and remodeling, and to study different aspects of remodeling in response to pressure and volume overload in patients with aortic stenosis (AS) and aortic regurgitation (AR), respectively. Methods: Studies I and II investigated patients with ischemic heart disease (n = 15 and n = 32, respectively). In Study I, the assessments of LV volume and ejection fraction (EF) were compared using 3DE, cardiac magnetic resonance (CMR), and single-photon emission computer tomography (SPECT). Study II compared the performance of 2DE, contrast-enhanced 2DE, 3DE, and contrast-enhanced 3DE in the assessment LV volumes and EF, using CMR as a reference standard. In Studies III and IV, 65 patients with severe AR and 120 patients with severe AS, respectively, were examined using 2DE and 3DE before and at one year after aortic valve replacement (AVR). In Study III, LV volumes, systolic and diastolic LV function, and left atrial strain (LAS) were analyzed to identify predictors of impaired LV reverse remodeling in AR. Study IV assessed LV functional indices, including 2D global longitudinal strain (GLS) and 3D strain, to assess predictors of incomplete reverse remodeling in AS. Results and conclusions: There were significant differences among 3DE, SPECT and CMR regarding the measurement of LV volumes. However, the estimation of EF showed good agreement. 3DE was more accurate and showed more favorable reproducibility than 2DE for the assessment of EF and LV volumes. Contrast enhancement improved accuracy and reproducibility for both 2DE and 3DE. One-third of patients with AR had signs of impaired LV diastolic function. After AVR, diastolic LV functional indices improved, LV and left atrial (LA) volumes decreased, and indices of LA function increased. LA conduit strain had an incremental prognostic value for the prediction of impaired LV functional and structural recovery. In patients with AS, AVR was associated with a decrease in LV mass, an improvement in 2D GLS, and a decrease in LV twist. 2D GLS and left ventricular mass index were predictive of incomplete reverse remodeling during the follow-up period. 3D GLS did not add discriminatory or predictive information over 2D GLS
    • …
    corecore