The regional myocardial flow and flow reserve (MFR) have been assessed using compartmental analysis of Gd-enhanced MRI first-pass data in 7 patients with atypical chest pain, and in 15 patients with previous transmural myocardial infarction. The FE product (Flow /spl times/ Extraction coefficient), derived from the modified KeTy equation, has been measured in the regions corresponding to the Tetrofosmine-SPECT fixed defect and in the remote normal regions. The FE product at rest and hyperhemic FE product were similar in healed revascularised tissues (70.5/spl plusmn/15.6 and 112.5/spl plusmn/19.5 ml/mn/100 g respectively) and in the normal myocardium (76.2/spl plusmn/18.3 and 142.2/spl plusmn/33.0 respectively). In contrast the FE index (48.8/spl plusmn/15.2 and 60.7/spl plusmn/18.0 respectively, p<0.01 versus the two previous groups) and the MFR (1.27/spl plusmn/0.20 vs. 1.91/spl plusmn/0.29 in normal regions) were reduced in healed fibrotic tissues when the infarct-related artery remained occluded. Myocardial flow reserve maps allowed the authors to identify correctly the regions corresponding to an occluded infarct-related artery.
[1]
Egill Rostrup,et al.
Capillary transfer constant of Gd‐DTPA in the myocardium at rest and during vasodilation assessed by MRI
,
1998,
Magnetic resonance in medicine.
[2]
R. Wilson,et al.
Myocardial perfusion reserve: assessment with multisection, quantitative, first-pass MR imaging.
,
1997,
Radiology.
[3]
F. Prato,et al.
Quantification of myocardial blood flow and extracellular volumes using a bolus injection of Gd‐DTPA: Kinetic modeling in canine ischemic disease
,
1992,
Magnetic resonance in medicine.