In vivo imaging of extracellular pH using 1H MRSI

## Abstract In order to study the aging process (i.e., silicone migration, fat infiltration) of silicone (polydimethylsiloxane, PDMS) based biomaterials in living subjects by NMR imaging a hybrid ^1^H selective excitation and saturation chemical shift imaging technique (IR/CHESS‐CSSE) has been deve

With signal‐to‐noise ratio enhancements on the order of 10,000‐fold, hyperpolarized MRSI of metabolically active substrates allows the study of both the injected substrate and downstream metabolic products __in vivo__. Although hyperpolarized [1‐^13^C]pyruvate, in particular, has been used to demons

## Abstract ## Background and Objectives The ability to correctly visualize the architectural arrangement of microvasculature is valuable to many diverse fields in medicine. In this study, we applied photoacoustics (PA) to obtain high‐resolution images of submillimeter blood vessels. ## Study Des

## Abstract Excitation by conventional B~1~ pulses in surface coil chemical‐shift imaging experiments yields resonance intensities that vary greatly with position. B~1~ compensated semi‐selective pulses overcome much of this problem. These pulses are employed for excitation and refocusing in ^1^H N

## Abstract __In vivo__ assessment of the outcome of cancer therapy is hampered by the paucity of imaging probes that target tumors specifically and noninvasively. The importance of such probes increases with the continuous development of chemotherapeutics and the necessity to evaluate their effect

## Abstract This paper describes a rapid and accurate method for meassuring __T__~1~ __in vivo__ using an echo‐planar imaging version of the Look‐Locher sequence. __T__~1~ values from 76 to 1330 ms have been measured in 3 s with a mean accuracy of 4.6%.