View clinical trials related to Remodeling, Ventricular.
Filter by:The American Heart Association announces that exercise training should be considered for all stable cardiac patients (Class I, Level A). Therefore, exercise is an important issue for cardiac patients. It has also been reported that high-intensity interval training (HIIT) brings benefits on reversal of cardiac remodeling and long-term survival for HF patients. This study explores high-intensity interval training (HIIT) effects on long-term survivals in heart failure (HF) patients, diagnosed according to the Framingham criteria. This retrospective cohort study is going to analyze HF patients diagnosed between January 1, 2009 and May 31, 2022 in a tertiary care hospital. All HF patients underwent the multidisciplinary disease management program (MDP) in the hospital were initially surveyed. Participants were further categorized into HF with reduced ejection fraction (HFrEF) (left ventricle ejection fraction [LVEF]<40%), HF with mildly reduced EF (HFmrEF) (LVEF>=40% and LVEF< 50%), and HF with preserved EF (HFpEF) ( LVEF>=50%) based on the initial 2-D echocardiography. Participants will be further divided into HIIT+MDP or MDP only in each group based on patient preference. Age, sex, body height, body weight, disease duration, etiology for HF, co-morbidities, and medication were documented during follow-up (F/U). B-type natriuretic peptide, natriuretic peptide (BNP), cardiopulmonary exercise test (CPET) for peak oxygen consumption (VO2peak) and 2-D echocardiography for LV geometry were repeatedly assessed during follow-up. The end-point is the death of the patients or the date of May 31, 2022. All mortality causes and overall survival rates will be determined at the end of F/U. HIIT effects on long-term survival (Kaplan-Meier survival curve) for patients with different heart failure phenotypes will be estimated by log rank test. Continuous variables between different groups were analyzed by student t-test, while continuous variables before and after HIIT within groups were assessed by paired t-test. Other non-continuous variables such as sex, and co-morbidities were compared by chi-square test.
Sodium-glucose cotransporter 2 (SGLT2) inhibitors have demonstrated cardiovascular and renal protection in patients with type 2 diabetes (T2D); however, the underlying mechanism remains unclear. We hypothesized that SGLT2 inhibitor will improve the ketone metabolism compared to dipeptidyl Peptidase-4 (DPP4) inhibitor. And we will also evaluate the association between ketone metabolism and cardiac remodeling evaluated by echocardiography. We will randomly assign 122 people with T2DM to receive dapagliflozin 10mg or gemigliptin 50mg. The primary endpoint are changes in acetoacetate, total ketone, beta-hydroxybutyric acid, left ventricular (LV) mass index, and LV global longitudinal strain during 6 months follow-up. This study may provide robust evidence of the thrifty substrate hypothesis for cardiovascular protection of SGLT2 inhibitors.
Patients with anterior wall AMI treated by PCI will undergo, after successful revascularization of the infarct artery, measurement of the left ventricular pressure, and femoral angiogram. Patients with elevated LV pressure and adequate femoral access will be randomized to standard pharmacological treatment of AMI vs. mechanical unloading by Impella-CP (on top of the standard treatment) for 36-48 hours. LV unloading will be guided by measurement of PCWP by Swan-Ganz catheter. On the day 4-7, and at 3 months after the AMI, the patients will undergo SPECT and 3D-echocardiography to assess ventricular remodeling and extent of the post-infarct scar. The patients will be followed for at least 12 months for the occurrence of heart failure and adverse cardiovascular events. The study will test the hypothesis, whether the LV mechanical unloading after PCI will attenuate post-infarct scar and cardiac remodeling.
Patients with HOCM and severe LVOT obstruction can remain asymptomatic while significant cellular and structural changes of the heart (adverse remodeling) may occur preceding heart failure and rhythm disorders. Hence, preventing adverse remodeling through LVOT desobstruction may have significant impact on cardiac function and geometry in this particular population, as it is in symptomatic patients. The investigators will assess functional and structural characteristics of the myocardium in asymptomatic vs. symptomatic patients with severe LVOT obstruction before and after PTSMA, using advanced imaging studies with LGE-CMR and echocardiography.
Subsequent to the loss of myocardium post-myocardial infarction (MI), the affected ventricle undergoes some dynamic structural and functional changes known as remodeling. Cardiac remodeling progresses into heart failure (HF). In this revolutionized percutaneous coronary intervention (PCI) era, the incidence of post-MI HF due to cardiac remodeling remains high. Current standard therapeutic interventions, for HF, aimed solely at correcting a low cardiac output do not necessarily impede HF progression. Recently, doxycycline was found to have an additional biological effect aside from their antimicrobial actions. From several experimental studies and clinical trials, doxycycline showed MMP inhibition activities that can prevent ventricular remodeling. This study aims to evaluate the role of doxycycline in cardiac remodeling prevention post-MI. Our hypothesis is that a better heart function will be observed in STEMI patients who receive a short period of doxycycline administration post-PCI.