Clinical feasibility of single‐shot fluid‐attenuated inversion recovery with wide inversion recovery pulse designed to reduce cerebrospinal fluid and motion artifacts for evaluation of uncooperative patients in acute stroke protocol

Clinical feasibility of single‐shot fluid‐attenuated inversion recovery with wide inversion recovery pulse designed to reduce cerebrospinal fluid and motion artifacts for evaluation of uncooperative patients in acute stroke protocol

Fluid‐attenuated inversion recovery (FLAIR) imaging is a key sequence for stroke assessment. Motion artifact reduction with short acquisition time is still challenging, but necessary in the magnetic resonance (MR) stroke protocol, especially for uncooperative patients suspected of stroke. The aim of...

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Veröffentlicht in:Journal of magnetic resonance imaging 2021-06, Vol.53 (6), p.1833-1838
Hauptverfasser: Kubota, Yoshihiro, Yokota, Hajime, Sakai, Takayuki, Yoneyama, Masami, Ohira, Kenji, Uno, Takashi
Format: Artikel
Sprache:eng
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Cerebrospinal fluid
Evaluation
Feasibility
fluid‐attenuated inversion recovery
Inversion
Magnetic resonance
Magnetic resonance imaging
motion artifact reduction
Rank tests
Recovery
Statistical analysis
Statistical tests
Stroke
vessel hyperintensity sign
Vessels
wide inversion recovery pulse
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container_end_page 1838
container_issue 6
container_start_page 1833
container_title Journal of magnetic resonance imaging
container_volume 53
creator Kubota, Yoshihiro
Yokota, Hajime
Sakai, Takayuki
Yoneyama, Masami
Ohira, Kenji
Uno, Takashi
description Fluid‐attenuated inversion recovery (FLAIR) imaging is a key sequence for stroke assessment. Motion artifact reduction with short acquisition time is still challenging, but necessary in the magnetic resonance (MR) stroke protocol, especially for uncooperative patients suspected of stroke. The aim of this study is to investigate the feasibility of modified single‐shot FLAIR with wide inversion recovery pulses for use in stroke patients. This is a prospective study, which included 30 patients clinically suspected of stroke who were examined by MR stroke protocol from January 2018 to September 2018. A 1.5 T, multi‐shot‐turbo spin‐echo (TSE) conventional FLAIR, and single‐shot‐TSE‐FLAIR with wide inversion recovery pulse were used. Modified single‐shot FLAIR was obtained for 30 patients with suspected stroke who moved during conventional FLAIR scan. Motion artifacts were randomly and independently scored using a 5‐grade scale by three radiologists in blinded fashion. Whether the FLAIR vessel hyperintensity sign was present was visually evaluated. Statistical tests included Wilcoxon‐signed rank test and weighted Cohen's kappa statistics. The motion artifact score was significantly lower in single‐shot FLAIR than in conventional FLAIR (0.37 ± 0.56 vs. 1.83 ± 1.18; p 
doi_str_mv 10.1002/jmri.27483
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Motion artifact reduction with short acquisition time is still challenging, but necessary in the magnetic resonance (MR) stroke protocol, especially for uncooperative patients suspected of stroke. The aim of this study is to investigate the feasibility of modified single‐shot FLAIR with wide inversion recovery pulses for use in stroke patients. This is a prospective study, which included 30 patients clinically suspected of stroke who were examined by MR stroke protocol from January 2018 to September 2018. A 1.5 T, multi‐shot‐turbo spin‐echo (TSE) conventional FLAIR, and single‐shot‐TSE‐FLAIR with wide inversion recovery pulse were used. Modified single‐shot FLAIR was obtained for 30 patients with suspected stroke who moved during conventional FLAIR scan. Motion artifacts were randomly and independently scored using a 5‐grade scale by three radiologists in blinded fashion. Whether the FLAIR vessel hyperintensity sign was present was visually evaluated. 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Motion artifact reduction with short acquisition time is still challenging, but necessary in the magnetic resonance (MR) stroke protocol, especially for uncooperative patients suspected of stroke. The aim of this study is to investigate the feasibility of modified single‐shot FLAIR with wide inversion recovery pulses for use in stroke patients. This is a prospective study, which included 30 patients clinically suspected of stroke who were examined by MR stroke protocol from January 2018 to September 2018. A 1.5 T, multi‐shot‐turbo spin‐echo (TSE) conventional FLAIR, and single‐shot‐TSE‐FLAIR with wide inversion recovery pulse were used. Modified single‐shot FLAIR was obtained for 30 patients with suspected stroke who moved during conventional FLAIR scan. Motion artifacts were randomly and independently scored using a 5‐grade scale by three radiologists in blinded fashion. Whether the FLAIR vessel hyperintensity sign was present was visually evaluated. 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source Wiley Online Library Journals Frontfile Complete
subjects Cerebrospinal fluid
Evaluation
Feasibility
fluid‐attenuated inversion recovery
Inversion
Magnetic resonance
Magnetic resonance imaging
motion artifact reduction
Rank tests
Recovery
Statistical analysis
Statistical tests
Stroke
vessel hyperintensity sign
Vessels
wide inversion recovery pulse
title Clinical feasibility of single‐shot fluid‐attenuated inversion recovery with wide inversion recovery pulse designed to reduce cerebrospinal fluid and motion artifacts for evaluation of uncooperative patients in acute stroke protocol
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