Methods for quantitative assessment of tissue microcirculation using dynamic contrast-enhanced MR imaging

## Abstract ## Purpose To determine the appropriate concentration for quantitative assessment of dynamic contrast‐enhanced pulmonary MR imaging. ## Materials and Methods A total of 40 consecutive patients with small bronchioalveolar carcinoma underwent perfusion single‐photon emission tomography

## Purpose: To differentiate prostate carcinoma from healthy peripheral zone and central gland using quantitative dynamic contrast-enhanced (dce) magnetic resonance (mr) imaging and two-dimensional (1)h mr spectroscopic imaging (mrsi) combined into one clinical protocol. ## Materials and methods:

## Abstract Bone metastases of 16 prostate cancer patients were scanned twice 1 week apart by dynamic contrast enhanced (DCE) –MRI at 2‐s resolution using a two‐dimensional gradient‐echo pulse sequence. With a multiple reference tissue method (MRTM), the local tissue arterial input function (AIF) w

## Abstract ## Purpose To evaluate the diagnostic accuracy of a combination of dynamic contrast‐enhanced MR imaging (DCE‐MRI) and diffusion‐weighted MR imaging (DWI) in characterization of enhanced mass on breast MR imaging and to find the strongest discriminators between carcinoma and benignancy.

## 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

## Abstract The purpose of this paper was to evaluate the use of dynamic gadopentetate dimeglumine‐enhanced, breath‐hold spoiled gradient‐recalled (SPGR) MR imaging with cardiac compensation (CMON) compared to spin‐echo MR imaging in patients with thoracic malignancy. We retrospectively reviewed MR