MRI studies of first-pass contrast enhancement with polylysine-Gd-DTPA and myocardial tagging using spatial modulation of magnetization (SPAMM) were performed to assess the feasibility of a combined regional myocardial blood flow and 2D deformation exam. Instrumented closed-chest dogs were imaged at a baseline control state (Cntl) followed by two interventions: moderate coronary stenosis (St) achieved by partial occlusion of the left anterior descending (LAD) and moderate coronary stenosis with dobutamine loading (StD). Hypoperfusion of the anterior region (ANT) of the myocardium (LAD distribution) relative to the posterior wall (POS) based on the upslope of the signal intensity time curve from the contrast-enhanced MR images was demonstrated only with dobutamine loading (ANT:POS Cntl = 1.077 +/- 0.15 versus ANT:POS StD = 0.477 +/- 0.11, P < 0.03) and was confirmed with radiolabeled microspheres measurements (ANT:POS Cntl = 1.18 +/- 0.2 ml/min/g versus ANT:POS StD = 0.44 +/- 0.1 ml/min/g; P < 0.002). Significant changes in regional myocardial shortening were only seen in the StD state (P < 0.02); the anterior region showed impaired myocardial shortening with dobutamine loading (P = NS), whereas the nonaffected POS region showed a marked increase in shortening when compared with Cntl (Cntl = 0.964 +/- 0.02 versus StD = 0.884 +/- 0.03; P < 0.001). These results demonstrate that an integrated quantitative assessment of regional myocardial function and semiquantitative assessment of myocardial blood flow can be performed noninvasively with ultrafast MRI.
Recorded performance of segments between implanted ultrasonic crystals placed at midwall position of the left ventricle reportedly depends almost exclusively on midwall function and alignment with fibers. Accordingly, one would expect the ratio between performance of a segment perpendicular to midwall fiber direction (transverse) and a parallel segment (longitudinal) to be constant and independent of changes in preload, afterload, and the inotropic state. We tested this hypothesis by implanting cross-oriented crystal pairs in nine open-chest cats and studied their performance during preload and afterload changes with and without isoproterenol infusion. Fiber orientation across the ventricular wall was determined by serial histological sectioning. The ratio between performance of transverse and longitudinal segments (trans/long) changed with interventions. Increased end-diastolic pressure leads to increased segment performances as well as trans/long. Inotropic stimulation produced increased sensitivity to preload changes both for individual segment performances and for trans/long. These results suggest that longitudinal segments represent the function of midwall fibers, whereas transverse segments may well represent the function of sub-endocardial fibers, which run closer to this orientation. Thus trans/long provides a way to quantify nonuniformity of local myocardial contraction.
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