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1 amine stress (5 to 10 microg . kg-1 . min-1) cine MRI, stress/rest tetrofosmin SPECT, and stress/redi
2 ignificantly less than those with VEC-DS and cine MRI.
3 s with heart failure underwent real-time and cine MRI in the standard short-axis orientation with a 1
4 hial artery dilatation were also assessed by cine MRI.
5 lity at the same locations was determined by cine MRI before and after revascularization in 41 patien
6 mes and ejection fraction were determined by cine MRI in 11 individuals.
7 r events and LV dimensions were evaluated by cine MRI.
8 -time MRI were compared to those obtained by cine MRI.
9 right ventricular stroke volumes provided by cine MRI ("gold standard").
10 ed significantly earlier by FastHARP than by cine MRI (9.5+/-5 versus 33+/-14 seconds, P<0.01).
11 opment of cardioCEST: A CEST-encoded cardiac cine MRI sequence was implemented on a 9.4T small animal
12 as compared with well-validated conventional cine MRI.
13 rofosmin (tetrofosmin) SPECT, and dobutamine cine MRI for identifying regions of reversible myocardia
14 ontrast-enhanced MRI and low-dose dobutamine cine MRI for evaluation of viability.
15 hed cardiovascular MRI (including dobutamine cine MRI and vasodilator perfusion MRI techniques) as an
16 f coronary angiography, electrocardiography, cine MRI, and creatine kinase measurements.
17                             Velocity-encoded cine MRI was used to measure pulmonary and aortic blood
18                                         Fast cine MRI can be used to assess left ventricular contract
19                                         Fast cine MRI with three-dimensional contrast-enhanced MRA pr
20                            Nonbreath-holding cine MRI was performed with ECG gating and respiratory c
21 -ventricular myocardial strain using a novel cine MRI based deformation registration algorithm (DRA)
22 derwent preoperative and early postoperative cine MRI for assessment of global left ventricular funct
23 ly (day 6) and late (6 months) postoperative cine MRI for global and regional functional assessment a
24 I were performed 3 days after the procedure; cine MRI was also done 10 and 28 days after the procedur
25                           In both protocols, cine-MRI was performed with the use of a 1.5-T clinical
26 ne and volumetric (cardiac short-axis stack) cine MRI and by biplane and volumetric (three-dimensiona
27 and function were assessed by using standard cine MRI sequences.
28                     At 3 days after surgery, cine MRI revealed reduced wall thickening in AI (5+/-6%
29 real-time MRI was significantly shorter than cine MRI (8.6 +/- 2.3 vs. 24.7 +/- 3.5 min, p < 0.001).
30   Seven patients with end-stage PH underwent cine MRI before and after SLT, and eight normal voluntee
31  RV reverts to more normal geometry, we used cine MRI and finite-element (FE) analysis to study patie
32 vivo contractile function was measured using cine MRI.
33 d before and after the intervention by using cine-MRI.
34  descending aorta measured by phase-velocity cine MRI (OR 1.68 for 100 mL/s(1.5) increase, P=0.018).
35 , second, the accuracy of QGS, compared with cine MRI, for determining left ventricular volumes and e
36 ight normal volunteers were also imaged with cine MRI.
37 d close correlation with those obtained with cine MRI (LVEDV: r = 0.985, p < 0.001; LVESV: r = 0.994,

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