Absolute quantification of perfusion using dynamic susceptibility contrast MRI: pitfalls and possibilities

## Purpose: To compare absolute cerebral blood flow (cbf) estimates obtained by model-free arterial spin labeling (asl) and dynamic susceptibility contrast mri (dsc-mri), corrected for partial volume effects (pves). ## Methods: Cbf was measured using dsc-mri and model-free asl (quantitative signa

## Abstract A quantitative analysis was undertaken to calibrate the perfusion quantification technique based on tracking the first pass of a bolus of a blood pool contrast agent. A complete simulation of the bolus passage, of the associated changes in the __T__~2~ and __T__ signals, and of the data

## Abstract ## Purpose: To use the contrast agent gadofosveset for absolute quantification of myocardial perfusion and compare it with gadobenate dimeglumine (Gd‐BOPTA) using a high‐resolution generalized autocalibrating partially parallel acquisition (GRAPPA) sequence. ## Materials and Methods:

## Abstract ## Purpose: To provide the first comparison of absolute renal perfusion obtained by arterial spin labeling (ASL) and separable compartment modeling of dynamic contrast‐enhanced (DCE) magnetic resonance imaging (MRI). Moreover, we provide the first application of the dual bolus approach

## Abstract ## Purpose To compare absolute cerebral blood flow (CBF) estimates obtained by dynamic susceptibility contrast MRI (DSC‐MRI) and Xe‐133 SPECT. ## Materials and Methods CBF was measured in 20 healthy volunteers using DSC‐MRI at 3T and Xe‐133 SPECT. DSC‐MRI was accomplished by gradient