Physiological principles for the design of hepatic contrast agents

## Abstract NMR spectroscopy of intracellularly located ^133^Cs has been used to monitor the uptake of Gd‐EOB‐DTPA by the isolated rat liver. As shown by ^31^P spectroscopy, accumulation of ^133^Cs ions in hepatocytes does not produce detectable effects on the metabolism. The hepatic internalizatio

## Abstract ## Purpose To compare the performance of three physiologically‐based pharmacokinetic (PBPK) models for predicting gadolinium contrast agent concentration‐time curves (Gd‐CTCs) obtained in superior sagittal sinus (SSS), cerebral cortex, and psoas muscle. ## Materials and Methods Three

With a recently described rat model technique for direct hepatic injection of tumor cells for imaging research, there were concerns that the injection itself might produce lesions detectable with magnetic resonance (MR) imaging, thereby producing false-positive results. To examine this possibility,

## 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 A lipid‐encapsulated perfluorocarbon nanoparticle molecular imaging contrast agent that utilizes a paramagnetic chemical exchange saturation transfer (PARACEST) chelate is presented. PARACEST agents are ideally suited for molecular imaging applications because one can switch the contras