Rapid Detection of Myocardial Infarction by Subsecond, Free-Breathing Delayed Contrast-Enhancement Cardiovascular Magnetic Resonance

doi:10.1161/CIRCULATIONAHA.106.635409

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Circulation. 2007;115:236-244
Published online before print January 2, 2007, doi: 10.1161/CIRCULATIONAHA.106.635409

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(Circulation. 2007;115:236-244.)
© 2007 American Heart Association, Inc.

Imaging

Rapid Detection of Myocardial Infarction by Subsecond, Free-Breathing Delayed Contrast-Enhancement Cardiovascular Magnetic Resonance

Burkhard Sievers, MD; Michael D. Elliott, MD; Lynne M. Hurwitz, MD; Timothy S.E. Albert, MD; Igor Klem, MD; Wolfgang G. Rehwald, PhD; Michele A. Parker, MS; Robert M. Judd, PhD; Raymond J. Kim, MD

From Duke Cardiovascular Magnetic Resonance Center (B.S., M.D.E., L.M.H., T.S.E.A., I.K., W.G.R., M.A.P., R.M.J., R.J.K.), Department of Medicine (B.S., M.D.E., T.S.E.A., I.K., M.A.P., R.M.J., R.J.K.), and Department of Radiology (L.M.H., R.M.J., R.J.K.), Duke University Medical Center, Durham, NC; and Siemens Medical Solutions, Chicago, Ill (W.G.R.).

Correspondence to Raymond Kim, MD, Duke Cardiovascular Magnetic Resonance Center, Duke DUMC-3934, Durham, NC 27710. E-mail Raymond.Kim{at}duke.edu

Received April 24, 2006; accepted October 19, 2006.

Background— An ultrafast, delayed contrast-enhancementcardiovascular magnetic resonance technique that can acquiresubsecond, "snapshot" images during free breathing (subsecond)is becoming widely available. This technique provides myocardialinfarction (MI) imaging with complete left ventricular coveragein <30 seconds. However, the accuracy of this technique isunknown.

Methods and Results— We prospectively compared subsecondimaging with routine breath-hold delayed contrast-enhancementcardiovascular magnetic resonance (standard) in consecutivepatients. Two cohorts with unambiguous standards of truth wereprespecified: (1) patients with documented prior MI (n=135)and (2) patients without MI and with low likelihood of coronarydisease (lowest Framingham risk category; n=103). Scans werescored masked to identity and clinical information. Sensitivity,specificity, and accuracy of subsecond imaging for MI diagnosiswere 87%, 96%, and 91%, respectively. Compared with the standardtechnique (98%, 100%, 99%), the subsecond technique had modestlyreduced sensitivity (P=0.0001), but specificity was excellent.Missed infarcts were generally small or subendocardial (87%).Overall, regional transmural extent of infarction scores werehighly concordant (2083/2294; 91%); however, 51 of 337 regions(15%) considered predominantly infarcted (>50% transmuralextent of infarction) by the standard technique were consideredviable ( $≤$ 25% transmural extent of infarction) by the subsecondtechnique. Quantitative analysis demonstrated moderately reducedcontrast-to-noise ratios for subsecond imaging between infarctand remote myocardium (12.0±7.2 versus 20.1±6.6;P<0.0001) and infarct and left ventricular cavity (–2.5±2.7versus 3.6±3.7; P<0.0001).

Conclusions— MI can be rapidly detected by subsecond delayedcontrast-enhancement cardiovascular magnetic resonance duringfree breathing with high accuracy. This technique could be consideredthe preferred approach in patients who are more acutely illor unable to hold their breath. However, compared with standardimaging, sensitivity is mildly reduced, and the transmural extentof infarction may be underestimated.

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