Turbo spin-echo sequences in magnetic resonance imaging of the brain: Physics and applications

Autor: Thomas Helmberger, Obletter N, Rainer Schmitt, Böhm-Jurkovic H, Claudia Fellner, F. Fellner
Rok vydání: 1994
Předmět:
Zdroj: Magma: Magnetic Resonance Materials in Physics, Biology, and Medicine. 2:51-59
ISSN: 1352-8661
DOI: 10.1007/bf01709800
Popis: Fast SE imaging provides considerable measure time reduction, high signal-to-noise ratios as well as similar contrast behavior compared to conventional SE sequences. Besides TR and TEeff, echo train length (ETL), interecho time τ, andκ-space trajectory determine image contrast and image quality in fast SE sequences. “True” proton density contrast (CSF hypointense) and not too strong T2 contrast are essential requirements in routine brain MRI. A Turbo SE sequence with very short echo train length (ETL=3), short TEeff and short interecho time (17 ms), and TR=2000 ms was selected for proton density contrast; a Turbo SE sequence with ETL=7, TEeff=90 ms, τ=22 ms, and TR=3250 ms was selected for T2-weighted images. Using both single-echo Turbo SE sequences yielded 50% measure time reduction compared to the conventional SE technique. Conventional SE and optimized Turbo SE sequences were compared in 150 patients resulting in very similar signal and contrast behavior. Furthermore, reduced flow artifacts in proton density—and especially in T2-weighted Turbo SE images—and better contrast of high-intensity lesions in proton density-weighted Turbo SE images were found. Slightly reduced edge sharpness—mainly in T2-weighted Turbo SE images—did not reduce diagnostic reliability. Differences between conventional and Turbo SE images concerning image contrast and quality are explained regarding special features of fast SE technique.
Databáze: OpenAIRE
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