T2 and T2* mapping in cardiac MRI provide quantitative assessments of myocardial tissue, with T2 detecting edema and inflammation, and T2* measuring tissue iron from hemorrhage or overload.
T2 and T2* mapping in cardiac MRI provide quantitative visualization of myocardial tissue changes, specifically edema/inflammation and iron overload/hemorrhage, respectively.
Cardiac imaging is progressing from simple imaging of heart structure and function to techniques visualizing and measuring underlying tissue biological changes that can potentially define disease and therapeutic options. These techniques exploit underlying tissue magnetic relaxation times: T1, T2 and T2*. Initial weighting methods showed myocardial heterogeneity, detecting regional disease. Current methods are now fully quantitative generating intuitive color maps that do not only expose regionality, but also diffuse changes – meaning that between-scan comparisons can be made to define disease (compared to normal) and to monitor interval change (compared to old scans). T1 is now familiar and used clinically in multiple scenarios, yet some technical challenges remain. T2 is elevated with increased tissue water – edema. Should there also be blood troponin elevation, this edema likely reflects inflammation, a key biological process. T2* falls in the presence of magnetic/paramagnetic materials – practically, this means it measures tissue iron, either after myocardial hemorrhage or in myocardial iron overload. This review discusses how T2 and T2⁎ imaging work (underlying physics, innovations, dependencies, performance), current and emerging use cases, quality assurance processes for global delivery and future research directions.
Topriceanu et al. (Sat,) conducted a review in Myocardial disease (edema, inflammation, iron overload). T2 and T2* mapping and weighted imaging was evaluated. T2 and T2* mapping in cardiac MRI provide quantitative assessments of myocardial tissue, with T2 detecting edema and inflammation, and T2* measuring tissue iron from hemorrhage or overload.
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