A novel Cardiac MRI sequence, developed by Dr. Maria Altbach (Double Inversion radial fast Spin Echo T2 mapping), has been tested clinically. It demonstrated a high sensitivity to the heart muscle swelling ("edema") in different types of heart injury, including heart attacks. The investigators propose to use T2-Map methodology in patients with acute heart attacks and to compare value of this method with other clinical and imaging parameters in predicting short-term (30 day) clinical outcomes of these patients. If successful, the project will provide an effective risk-stratification tool to identify patients with heart attack as a result of atherosclerotic disease, who require more aggressive therapeutic approach and closer follow-up after initial hospitalization.
In the initial feasibility project, a novel Cardiac MRI sequence (Double Inversion radial fast Spin Echo T2 mapping)developed by Dr. Maria Altbach at the University of Arizona, has been tested clinically. It demonstrated a high sensitivity to the heart muscle swelling ("edema") in different types of heart injury, including heart attacks. The investigators have successfully tested the reproducibility of the new method in a series of healthy volunteers. The Phase I study revealed a robust clinical performance of the T2-Map sequence in multiple cardiac disorders. Based on these promising results, presented on several international Cardiac Imaging meetings, the investigators propose to use T2-Map methodology in patients with acute heart attacks and to compare value of this method with other clinical and imaging parameters in predicting short-term (30 day) clinical outcomes of these patients. If successful, the project will provide an effective risk-stratification tool to identify patients with heart attack as a result of atherosclerotic disease, who require more aggressive therapeutic approach and closer follow-up after initial hospitalization.
Study Type
OBSERVATIONAL
University of Arizona
Tucson, Arizona, United States
Correlation of the estimated infarct and jeopardized myocardium size on T2 MRI images, Delayed Enhancement MRI, and combined functional/Delayed Enhancement MRI.
T2 mapping has been tested clinically and demonstrated a high sensitivity to the heart muscle swelling ("edema") in different types of heart injury, including heart attacks. This project will assess the estimated infarct and jeopardized myocardium size based on T2 Map as compared to Delayed Enhancement MRI, combined functional and Delayed Enhancement MRI, and clinical data of the patients
Time frame: 2 years
Number of participants with regional wall motion abnormalities in greater than 2 segments on in-house echocardiogram and LVEF<50%.
T2 mapping data will be compared to other variables in a multivariable regression model predicting cardiac events (LV dysfunction (LVEF \<50%) on predischarge echocardiogram.
Time frame: 2 years
Correlation of the infarct and jeopardized myocardium size to outcome measures (recurrent chest pain, new heart attack, post-MI arrhythmias, heart failure, rehospitalization and death) 30 days post hospital discharge.
Correlation of the infarct and jeopardized myocardium size using the different modalities to to outcome measures (recurrent chest pain, new heart attack, post-MI arrhythmias, heart failure, rehospitalization and death).
Time frame: 2 years
Correlation of the infarct and jeopardized myocardium size to clinical data
Correlation of the infarct and jeopardized myocardium size to clinical data, including Age at hospitalization, Gender, Race; History of hypertension, Diabetes, Coronary Artery Disease, COPD, Right Ventrical Hypertrophy, Congestive Heart Failure, ventricular arrhythmia, syncope, sudden death, Chronic Kidney Disease, End Stage Renal Disease, Pulmonary Hypertension, Heart Surgery (CABG, valve, etc.), PCI (PTCA, stent), MI, cardiac cath, Hyperlipidemia, Smoking, Claudication, Systemic Disease, Other Pulmonary Disease; or Family History of Heart Disease
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Time frame: 2 years