View clinical trials related to Myocardial Fibrosis.
Filter by:Injury to the heart, which may occur following a heart attack or owing to the mechanical effect of high blood pressure, leads to scarring (fibrosis) of the heart muscle. Fibrosis of the muscle can cause impaired pumping of the heart, which can lead to heart failure, and the abnormal conduction of electrical signals through the heart. This may in turn lead to abnormal, potentially fatal, heart rhythms. Currently, scarring of the heart muscle cannot be reversed and is generally progressive. A previous clinical study found that participants who received injections of immunomodulatory progenitor cells (iMP cells, "Heartcel") showed a reversal of heart muscle scarring when the cells were injected into heart muscle during coronary artery bypass graft (CABG) surgery. However, the previous trial was a small scale study and did not have a control group. The aim of this study is to perform a larger scale investigation with 50 participants compared to the previous trial of 11, and split the 50 participants into two groups - a test group and a control group, so that a direct comparison may be made between the two groups.
This study is part of a research project in which new ultrasound-based techniques will be examined to improve clinical decision making for patients with aortic stenosis. These patients could develop increased amounts of myocardial fibrosis. This fibrosis is associated with the patients' prognosis. Fibrosis can be evaluated with magnetic resonance imaging (MRI), which unfortunately is quite expensive and not easily available. Ultrasound-based parameters will be developed for the assessment of the amounts of myocardial fibrosis, especially in the left ventricle. Then it will be examined whether these parameters can predict the patients magnitude of fibrosis and check for association with the patients prognosis. MRI will serve as a gold standard for quantification of myocardial fibrosis. The new echocardiographic techniques and parameters are expected to provide new insights in the interplay between aortic stenosis and left ventricular function, and to ultimately improve the care for patients with aortic stenosis. The present study's objectives are: - Quantify the level of myocardial fibrosis in mild, moderate, and severe aortic stenosis compared with a healthy population. - Evaluate the patients outcome after one and three year of follow-up
The association of T1-mapping (both native and ECV) and strain analysis of LV and RV by CMR will be assessed. Results from strain analysis will be investigated in terms of their prognostic value.
Aortic stenosis is the most common heart valve disease requiring intervention in high income countries. It is characterised by progressive valvular thickening, and restriction as well is hypertrophy and fibrosis of the left ventricle in response to pressure overload. The pathological processes in the left ventricle that ultimately result in heart failure and death are incompletely understood. Further elucidation of these processes and how they correlate with novel blood biomarkers may help us design new treatments and optimise the timing of surgical intervention. In brief, recruited patients with severe aortic stenosis and scheduled to undergo valve replacement surgery will be invited for some simple tests (blood sampling, ECG, echocardiogram). A septal myocardial biopsy will be taken at the time of surgery and the disease valve retained. These will be examined histologically and pathological changes compared with results obtained from ECG, echocardiogram and blood tests.
This is a single center prospective longitudinal exercise training study and will enroll approximately 50 Fontan patients and 20 controls of a similar age, gender, BMI and physical activity level between the ages of 10-40 years. Participants will undergo an MRI of the Fontan circulation. This will include imaging of the heart, lung and liver. This will include specific imaging for tissue characterization and assessment of myocardial fibrosis, liver fibrosis and disproportionate pulmonary blood flow. The investigators will then draw blood (approximately 10 ml) for assessment of serum biomarkers and circulating microRNAs of interest. The participants will undergo exercise testing and will then start a 3-6 month long cardiac rehabilitation program. After the 3-6 month study period the participants will return back for a follow up and repeat all the testing completed at enrollement.
This is a cross-sectional pilot study. The investigators seek to obtain early information pertaining to the relationship between measurements of myocardial perfusion reserve and myocardial fibrosis after receipt of Anthracycline-based chemotherapy (≥2 years prior).
This study aims to understand the onset an functional consequences of left ventricular interstitial fibrosis in patients with chronic kidney disease (stage 2 to 5), as well as assess whether transplantation results in a regression of cardiac fibrosis.Thus all patients will undergo: 1) a cardiac magnetic resonance imaging (MRI) scan to assess cardiac function and measure left ventricular interstitial fibrosis; 2) a cardiopulmonary stress echocardiogram to understand the functional consequences of fibrosis and rule out any underlying ischaemic heart disease; 3) a 24 hour holter monitor and electrocardiogram (ECG) to assess whether these patients are at higher risk of arrhythmia.
This study evaluates whether a preoperative assessment of myocardial contractile reserve by tissue Doppler Imaging and myocardial fibrosis by cardiac magnetic resonance imaging (MRI) can enhance the patient selection and risk stratification to transcatheter aortic valve implantation.
In this study, investigators plan to test two potential mechanisms contributing to diastolic dysfunction among asymptomatic persons with HIV who are on cART. The first proposed mechanism is that heightened systemic immune activation/inflammation in HIV contributes to myocardial inflammation, which in turn promotes myocardial fibrosis. The second mechanism is that ectopic fat deposition (increased visceral adiposity) in HIV relates to increased intramyocardial lipid content, which in turn contributes to diastolic dysfunction. Both HIV positive and HIV-negative participants will undergo cardiac MRI/ MRS imaging studies for evaluation of myocardial fibrosis, myocardial inflammation, and intramyocardial lipid content. Traditional markers of CVD risk, inflammatory markers/immune, hormonal markers, and markers of myocardial stretch/injury will be assessed in relation to cardiac MRI/MRS outcomes. Additionally, a small subset of participants with HIV will undergo longitudinal evaluations to assess effects of a clinically prescribed hormonal therapy on myocardial structure and function.
Myocardial fibrosis is recognized as the pathologic entity of extracellular matrix remodeling. Diffuse, reactive fibrosis is increasingly recognized in a variety of conditions despite the absence of ischemia. Regardless of the etiology, fibrosis leads to increased myocardial stiffness thereby promoting cardiac dysfunction. This dysfunction may present clinically with symptoms of cardiac failure although this is often a subclinical disease. Various imaging modalities and collagen biomarkers have been used as surrogate markers to assess the presence, extent, and turnover of myocardial fibrosis. Techniques using echocardiography, cardiac magnetic resonance, and nuclear imaging have been developed to detect early features of systolic and diastolic left ventricular dysfunction and impaired contractile reserve. Further identification of diffuse reactive fibrosis may be possible with evolving cardiac magnetic resonance and molecular techniques. The goal of this protocol is to validate cardiac magnetic resonance imaging as a new tool for fibrosis quantification against histology as standard of reference.