Modified Echo Peak Correction for Radial Acquisition Regime (RADAR)
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概要
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Purpose: Because radial sampling imposes many limitations on magnetic resonance (MR) imaging hardware, such as on the accuracy of the gradient magnetic field or the homogeneity of B0, some correction of the echo signal is usually needed before image reconstruction. In our previous study, we developed an echo-peak-shift correction (EPSC) algorithm not easily affected by hardware performance. However, some artifacts remained in lung imaging, where tissue is almost absent, or in cardiac imaging, which is affected by blood flow. In this study, we modified the EPSC algorithm to improve the image quality of the radial aquisition regime (RADAR) and expand its application sequences. Methods: We assumed the artifacts were mainly caused by errors in the phase map for EPSC and used a phantom on a 1.5-tesla (T) MR scanner to investigate whether to modify the EPSC algorithm. To evaluate the effectiveness of EPSC, we compared results from T1- and T2-weighted images of a volunteers lung region using the current and modified EPSC. We then applied the modified EPSC to RADAR spin echo (SE) and RADAR balanced steady-state acquisition with rewound gradient echo (BASG) sequence. Results: The modified EPSC reduced phase discontinuity in the reference data used for EPSC and improved visualization of blood vessels in the lungs. Motion and blood flow caused no visible artifacts in the resulting images in either RADAR SE or RADAR BASG sequence. Conclusion: Use of the modified EPSC eliminated artifacts caused by signal loss in the reference data for EPSC. In addition, the modified EPSC was applied to RADAR SE and RADAR BASG sequences.
- 日本磁気共鳴医学会の論文
- 2009-12-01
著者
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Harada Junta
Department Of Radiology Jikei University Kashiwa Hospital
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Harada Junta
Department Of Radiology Jikei University School Of Medicine Kashiwa Hospital
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Harada Junta
Department Of Radiology
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TAKAHASHI Tetsuhiko
Application Development Department MRI System Division, Hitachi Medical Corporation
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Ito Taeko
Development Support Group Clinical Application Department Marketing Division Hitachi Medical Corpora
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TAKIZAWA Masahiro
Application Development Department, MRI System Division, Hitachi Medical Corporation
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ITAGAKI Hiroyuki
Application Development Department, MRI System Division, Hitachi Medical Corporation
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SHIMIZU Kanichirou
Department of Radiology, Jikei University School of Medicine, Kashiwa Hospital
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Takahashi Tetsuhiko
Application Development Department Mri System Division Hitachi Medical Corporation
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Takizawa Masahiro
Application Development Department Mri System Division Hitachi Medical Corporation
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Shimizu Kanichirou
Department Of Radiology Jikei University School Of Medicine Kashiwa Hospital
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Itagaki Hiroyuki
Application Development Department Mri System Division Hitachi Medical Corporation
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TAKAHASHI Tetsuhiko
Application Development Department, MRI System Division, Hitachi Medical Corporation
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