MRI detects myocardial iron in the human heart

## Abstract In mammalian hearts the capillaries are closely aligned with the muscle fibers. We report our observation of a main‐field direction‐dependent contrast in MR spin‐echo (SE) images of the heart in the presence of Ferumoxtran‐10, an intravascular iron‐oxide nanoparticle contrast agent (CA)

## Abstract High‐speed STEAM MR images of the normal human heart were obtained from single cardiac cycles using a 2.0‐T whole‐body system equipped with conventional 10 mT m^−1^ gradients. The single‐shot 90°‐TE/2–90°‐TM‐(α‐TE/2‐Acq)~n~ pulse sequence acquires __n__ differently phase‐encoded stimula

## Abstract Flow‐suppressed FLASH MR images of the human heart have been recorded within a measuring time of 0.3 s using a 2.0‐T whole‐body research system (Siemens Magnetom) equipped with a conventional 10 mT m^−1^ gradient system. Subsecond imaging times have been achieved by reducing the repetit

## Abstract An intravascular iron‐based contrast agent was used as a sodium (^23^Na) MRI __T__~2~ relaxant in an effort to suppress the blood signal from the ventricular cavities in normal and infarcted canine myocardium in vivo. ^23^Na MRI signal decreases in blood were attributed to decreases in

## Abstract The potential of a phosphonate‐modified‐Gd‐DTPA for MR image enhancement of myocardial infarction has been demonstrated in imaging experiments on rats. The agent, 1‐hydroxy‐3‐aminopropane‐1, 1‐diphosphonate‐modified‐Gd‐DTPA (Gd‐DTPA‐HPDP) accumulates in two models of myocardial infarcti