Richard M Fleming, Matthew R Fleming, Tapan Chaudhuri, Andrew McKusick, William C Dooley and Charles Glover
Background: Scientifically published studies have demonstrated that all isotopes, including Sestamibi redistribute. Measurement of this redistribution using FMTVDM©â?? provides an accurate method for determining wash-in and washout.
Methods: Using FMTVDM©â?? 1040 human coronary arteries were studied to determine their wash-in and washout redistribution measured on a pixel-by-pixel basis. From FMTVDM©â?? the percent diameter stenosis (%DS) for each artery was determined. This %DS was then used to calculate coronary flow reserve (Calculated SFR) using a proprietary quadratic equation (QCFR©, FCFR©) previously derived from quantitative coronary arteriography (QCA) measurements. These calculated CFR values were then compared with the actual measured CFR obtained directly from QCA.
Results: The results of the calculated CFR from FMTVDM©â?? with that obtained by direct QCA measurement showed a regression analysis of y= (0.8758•x)+0.4291, where y=the QCFR© and x=the QCA measured CFR. The R2 value (coefficient of determination) for this demonstrated a strong relationship at 0.87582.
Conclusions: The use of the FMTVDM©â?? for measurement of isotope redistribution, including Sestamibi, provides an accurate quantitative method for determining both redistribution wash-in and redistribution washout, from which %DS can be calculated on a pixel-by-pixel basis. This %DS can then be used with the proprietary equation (QCFR©, FCFR©) to calculate the CFR directly from the MPI result using FMTVDM©â??. The implementation of this power tool, will provide for additional determination of the physiological effect of CAD without requiring additional QCA equipment and expertise costs, making QCFR© possible in most if not all hospitals with nuclear medicine departments.
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Nuclear Medicine & Radiation Therapy received 706 citations as per Google Scholar report