Relationship of Elevated 23 Na Magnetic Resonance Image Intensity to Infarct Size After Acute Reperfused Myocardial Infarction

Abstract

Background—Elevated ²³Na MR image intensity after acute myocardial infarction has previously been shown to correspond to high tissue [Na⁺] and loss of myocardial viability. In this study, we explored the potential of in vivo ²³Na MRI to assess infarct size and investigated possible mechanisms for elevated ²³Na image intensity. Methods and Results—Thirteen dogs and 8 rabbits underwent in situ coronary artery occlusion and reperfusion and were imaged by ²³Na MRI. For anatomically matched left ventricular short-axis cross sections (n=46), infarct size measured by in vivo ²³Na MRI correlated well with triphenyltetrazolium chloride staining (r=0.87, y=0.92x+3.37, P23Na image intensity was observed in infarcted myocardium (206±37% of remote in dogs, PPP=NS). High-resolution ex vivo imaging revealed that regions of elevated ²³Na image intensity appeared to be identical to those of infarcted regions (r=0.97, y=0.92x+1.52, P+] was elevated (89±12 versus 37±9 mmol/L in control tissue, 156±60% increase, PPPPConclusions—Elevated ²³Na MR image intensity in vivo measures infarct size after reperfused infarction in both a large and a small animal model. The mechanism of elevated ²³Na image intensity is probably intracellular sodium accumulation secondary to loss of myocyte ionic homeostasis.