Accurate estimation of pharmacokinetic contrast-enhanced dynamic MRI parameters of the prostate

## Abstract The so‐called “Kety model” is a two‐compartment pharmacokinetic model describing tumor perfusion kinetics. Its parameters, the transendothelial transfer constant (__K__^__trans__^), extravascular extracellular volume fraction (υ~__e__~), and microvascular plasma volume fraction (υ~__p__

## Abstract The accuracy and precision of two major approaches for analyzing dynamic MRI data from the first passage of a Gd‐DTPA contrast bolus are examined, using a Monte Carlo simulation. Method 1 fits the contrast concentration curve of the first pass to a two‐compartment kinetic model to deter

Truncated singular value decomposition (TSVD) is an effective method for the deconvolution of dynamic contrast-enhanced MRI. Two robust methods for the selection of the truncation threshold on a pixel-by-pixel basis--generalized cross validation (GCV) and the L-curve criterion (LCC)--were optimized

## Abstract Myocardial blood flow varies during the cardiac cycle in response to pulsatile changes in epicardial circulation and cyclical variation in myocardial tension. First‐pass assessment of myocardial perfusion by dynamic contrast‐enhanced MRI is one of the most challenging applications of MR

## Abstract In previous papers relative signal intensity increase was used as a quantitative assessment parameter for contrast uptake in contrastenhanced MRI. However, relative signal intensity increase does not only reflect contrast uptake but depends also on tissue parameters (native __T__~1~ rel