Abstract
BackgroundThe presence and extent of microvascular obstruction (MO) after acute myocardial infarction can be measured by first-pass gadolinium-enhanced perfusion cardiovascular magnetic resonance (CMR) or after gadolinium injection with early or late enhancement (EGE/LGE) imaging. The volume of MO measured by these three methods may differ because contrast agent diffusion into the MO reduces its apparent extent over time. Theoretically, first-pass perfusion CMR should be the most accurate method to measure MO, but this technique has been limited by lower spatial resolution than EGE and LGE as well as incomplete cardiac coverage. These limitations of perfusion CMR can be overcome using spatio-temporal undersampling methods. The purpose of this study was to compare the extent of MO by high resolution first-pass k-t SENSE accelerated perfusion, EGE and LGE.Methods34 patients with acute ST elevation myocardial infarction, treated successfully with primary percutaneous coronary intervention (PPCI), underwent CMR within 72 hours of admission. k-t SENSE accelerated first-pass perfusion MR (7 fold acceleration, spatial resolution 1.5 mm × 1.5 mm × 10 mm, 8 slices acquired over 2 RR intervals, 0.1 mmol/kg Gd-DTPA), EGE (1-4 minutes after injection with a fixed TI of 440 ms) and LGE images (10-12 minutes after injection, TI determined by a Look-Locker scout) were acquired. MO volume was determined for each technique by manual planimetry and summation of discs methodology.Resultsk-t SENSE first-pass perfusion detected more cases of MO than EGE and LGE (22 vs. 20 vs. 14, respectively). The extent of MO imaged by first-pass perfusion (median mass 4.7 g, IQR 6.7) was greater than by EGE (median mass 2.3 g, IQR 7.1, p = 0.002) and LGE (median mass 0.2 g, IQR 2.4, p = 0.0003). The correlation coefficient between MO mass measured by first-pass perfusion and EGE was 0.91 (p < 0.001).ConclusionThe extent of MO following acute myocardial infarction appears larger on high-resolution first-pass perfusion CMR than on EGE and LGE. Given the inevitable time delay between gadolinium administration and acquisition of either EGE or LGE images, high resolution first-pass perfusion imaging may be the most accurate method to quantify MO.
Highlights
The basic aim of reperfusion therapy in acute myocardial infarction (AMI) is to restore normal blood flow to the ischemic myocardium as quickly as possible
An intravenous bolus dose of 0.1 mmol/kg Gd-DTPA (Dimeglumine gadopentetate, Magnevist, Bayer Schering Health Care Limited, UK) was administered at a rate of 5 ml/s by a power injector (Medrad Spectris Solaris, Medrad, USA). k-t SENSE accelerated first-pass perfusion imaging was performed simultaneously with the injection of gadolinium, using the following imaging parameters: Fast gradient echo, repetition time (TR) 3.7 ms, echo time (TE) 1.0 ms, flip angle 15°, 7-fold k-t acceleration, 11 training profiles, spatial resolution 1.5 mm × 1.5 mm × 10 mm, field of view (FOV) range 350400 mm, 8 slices acquired in the left ventricular (LV) short axis over 2 RR intervals and no interslice gap
This study shows that in patients with recent AMI, successfully treated with primary percutaneous coronary intervention (PPCI), high-resolution first-pass perfusion cardiovascular magnetic resonance (CMR) identifies more cases of microvascular obstruction (MO) than EGE and LGE and that the extent of MO appears larger on first-pass perfusion than either EGE or LGE
Summary
The basic aim of reperfusion therapy in acute myocardial infarction (AMI) is to restore normal blood flow to the ischemic myocardium as quickly as possible. The presence and extent of microvascular obstruction (MO) after acute myocardial infarction can be measured by first-pass gadolinium-enhanced perfusion cardiovascular magnetic resonance (CMR) or after gadolinium injection with early or late enhancement (EGE/LGE) imaging. First-pass perfusion CMR should be the most accurate method to measure MO, but this technique has been limited by lower spatial resolution than EGE and LGE as well as incomplete cardiac coverage. These limitations of perfusion CMR can be overcome using spatio-temporal undersampling methods. The purpose of this study was to compare the extent of MO by high resolution first-pass k-t SENSE accelerated perfusion, EGE and LGE
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