Reproducibility of total cerebral blood flow measurements using phase contrast magnetic resonance imaging

## Abstract Dynamic susceptibility contrast magnetic resonance imaging during bolus injection of gadolinium contrast agent is commonly used to investigate cerebral hemodynamics. The large majority of clinical applications of dynamic susceptibility contrast magnetic resonance imaging to date have re

## Abstract We used ^17^O NMR imaging techniques to measure the H~2~^17^O concentration in a 0.8‐ml voxel in the cat brain following injection of an arterial bolus of enriched H~2~^17^O and during inhalation of enriched ^17^O~2~. We also measured the H~2~^17^O concentration in arterial blood during

## Abstract ## Purpose To assess the intra‐ and interobserver agreement of commonly reported foot structure measurements in diabetic patients with neuropathy using magnetic resonance imaging (MRI). ## Materials and Methods In 23 neuropathic diabetic patients and five age‐matched healthy controls

The use of a phase mapping technique for detection of brain perfusion is described. The method was used in a patient with epilepsia partialis continua and displayed an area of abnormal perfusion in the frontal lobe during the ictal phase. Following improved treatment the perfusion pattern was near n

## Abstract In dynamic‐susceptibility contrast magnetic resonance perfusion imaging, the cerebral blood flow (CBF) is estimated from the tissue residue function obtained through deconvolution of the contrast concentration functions. However, the reliability of CBF estimates obtained by deconvolutio

## Abstract Quantitative determination of cerebral blood volume (CBV) is important for understanding brain physiology and pathophysiology. In this work, a novel approach is presented for accurate measurement of absolute CBV (aCBV) using vascular‐space‐occupancy (VASO) MRI, a blood‐nulling pulse seq