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Radiological Physics and Technology
Published in: Radiological Physics and Technology 2/2013

01-07-2013

Whole-brain black-blood imaging with magnetization-transfer prepared spin echo-like contrast: a novel sequence for contrast-enhanced brain metastasis screening at 3T

Authors: Masami Yoneyama, Masanobu Nakamura, Takashi Tabuchi, Atsushi Takemura, Makoto Obara, Satoshi Tatsuno, Seishi Sawano

Published in: Radiological Physics and Technology | Issue 2/2013

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Abstract

In contrast-enhanced (CE) brain metastasis screening, coexistence of enhanced blood vessel suppression and higher tumor-to-parenchyma contrast may improve radiologists’ performances in detecting brain metastases compared with conventional sequences. In this study, we propose a new scheme, allowing both suppression of blood signals and improvement of tumor-to-parenchyma contrast, using motion-sensitized driven equilibrium prepared 3D low-refocusing flip-angle turbo spin echo (TSE) (“magnetization transfer prepared spin echo”-like contrast volume examination: MATLVE) for brain metastasis screening at 3.0 T, and we compare MATLVE to conventional three-dimensional (3D)-gradient recalled echo (GRE) and 3D-TSE sequences. With the use of MATLVE, the signal intensity of CE blood decreased substantially. Furthermore, the contrast ratio of tumor-to-white matter was significantly higher than in either conventional 3D-GRE or 3D-TSE. MATLVE can be used for 3D volumetric post-CE black-blood imaging, and it may be effective in detecting small brain metastases by selectively enhancing tumor signals while suppressing blood signals.
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Metadata
Title
Whole-brain black-blood imaging with magnetization-transfer prepared spin echo-like contrast: a novel sequence for contrast-enhanced brain metastasis screening at 3T
Authors
Masami Yoneyama
Masanobu Nakamura
Takashi Tabuchi
Atsushi Takemura
Makoto Obara
Satoshi Tatsuno
Seishi Sawano
Publication date
01-07-2013
Publisher
Springer Japan
Published in
Radiological Physics and Technology / Issue 2/2013
Print ISSN: 1865-0333
Electronic ISSN: 1865-0341
DOI
https://doi.org/10.1007/s12194-013-0216-3

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