Longitudinal mapping of mouse cerebral blood volume with MRI

## Abstract A method is described for multislice EPISTAR that perfectly compensates magnetization transfer effects. lnflowing arterial spins are labeled with a 360° adiabatic pulse. Two control tags are applied sequentially at the same location as the labeling pulse, each with a 180° adiabatic puls

## Abstract Dynamic susceptibility contrast MRI (DSC‐MRI) is the current standard for the measurement of Cerebral Blood Flow (CBF) and Cerebral Blood Volume (CBV), but it is not suitable for the measurement of Extraction Flow (EF) and may not allow for absolute quantification. The objective of this

## Abstract Regional cerebral arterial blood volume (CBVa) and blood flow (CBF) can be quantitatively measured by modulation of tissue and vessel (MOTIVE) signals, enabling separation of tissue signal from blood. Tissue signal is selectively modulated using magnetization transfer (MT) effects. Bloo

## Abstract ## Purpose To develop a new method of measuring quantitative regional cerebral blood volume (CBV) using epochs of hyperoxia as an intravenous contrast agent with T2\*‐weighted MRI. ## Materials and Methods Images were acquired from six subjects (four male, two female, mean age 29 ± 3

The purpose of this study was to investigate the dependence of contrast-to-noise ratio (CNR) on the dose and rate of sprodiamide injection in magnetic resonance relative cerebral blood volume (rCBV) imaging. rCBV maps for 35 normal volunteers were constructed from dynamic MR image sets acquired with

## Abstract The development of anti‐angiogenic therapies for tumors has led to a demand for imaging‐based surrogate markers of the angiogenic process. The utility of such markers is highly dependent on their test‐retest reproducibility. This paper presents a formal assessment of the reproducibility