T1-Weighted MR imaging of the brain using a fast inversion recovery pulse sequence

## Abstract A 34% change in signal intensity correlated with visual stimulation was observed in the occipital lobes of three normal volunteers examined with MRI at 0.15 T using fluid attenuated inversion recovery pulse sequences. Similar results were observed at 1.0 T. A double difference technique

## Abstract TOMROP is a multiple readout single inversion‐recovery sequence which may potentially allow the measurement of multi‐exponential T~1~ recoveries __in vivo__ by NMR imaging. It is shown that several important modifications must be made to this sequence to permit T~1~ to be measured accur

## Abstract It is shown that the maximum average‐data‐collection‐speed (ADCS) of multisection 2D hybrid‐RARE sequences is independent of __TR__ and __TE__~__eff__~, and a monotonically increasing function of echo‐train‐length (ETL). This result was used in the design of an optimized __T__~1~‐weight

## Abstract ## Purpose To investigate the relationship between the degree of contrast enhancement in fluid‐attenuated inversion recovery (FLAIR) sequences and tumor signal intensity on T2‐weighted images. ## Materials and Methods A total of 96 patients suspected of having brain tumors were exami

## Abstract A pulse sequence is presented which allows one to perform an inversion–recovery experiment for __T__~1~ determination on quadrupolar nuclei in the presence of acoustic ringing. The sequence is based on a modification of the reference baseline subtraction −90° pulse sequence. Some exampl

## Abstract The fast spin‐echo (FSE) sequence is frequently used as a fast data‐readout technique in conjunction with other pulse sequence elements, such as in fluid‐attenuated inversion‐recovery (FLAIR) and double inversion‐recovery (DIR) sequences. In order to implement those pulse sequences, an