Designing a compact MRI motion phantom
Even today, dealing with motion artifacts in magnetic resonance imaging (MRI) is a challenging task. Image corruption due to spontaneous body motion complicates diagnosis. In this work, an MRI phantom for rigid motion is presented. It is used to generate motion-corrupted data, which can serve for ev...
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De Gruyter
2016-09-01
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| Series: | Current Directions in Biomedical Engineering |
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| Online Access: | https://doi.org/10.1515/cdbme-2016-0104 |
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doaj-5f1c67db7e5d41da80c12b91cece3fe02021-09-06T19:19:23ZengDe GruyterCurrent Directions in Biomedical Engineering2364-55042016-09-012147147410.1515/cdbme-2016-0104cdbme-2016-0104Designing a compact MRI motion phantomSchmiedel Max0Moeller Anita1Koch Martin A.2Mertins Alfred3Medical Engineering Science, Ratzeburger Allee 160 23562 Lübeck, GermanyInstitute for Signal Processing, Ratzeburger Allee 160 23562 Lübeck, GermanyInstitute of Medical Engineering, Ratzeburger Allee 160 23562 Lübeck, GermanyInstitute for Signal Processing, Ratzeburger Allee 160 23562 Lübeck, GermanyEven today, dealing with motion artifacts in magnetic resonance imaging (MRI) is a challenging task. Image corruption due to spontaneous body motion complicates diagnosis. In this work, an MRI phantom for rigid motion is presented. It is used to generate motion-corrupted data, which can serve for evaluation of blind motion compensation algorithms. In contrast to commercially available MRI motion phantoms, the presented setup works on small animal MRI systems. Furthermore, retrospective gating is performed on the data, which can be used as a reference for novel motion compensation approaches. The motion of the signal source can be reconstructed using motor trigger signals and be utilized as the ground truth for motion estimation. The proposed setup results in motion corrected images. Moreover, the importance of preprocessing the MRI raw data, e.g. phase-drift correction, is demonstrated. The gained knowledge can be used to design an MRI phantom for elastic motion.https://doi.org/10.1515/cdbme-2016-0104motion artifactsmotion phantommri |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Schmiedel Max Moeller Anita Koch Martin A. Mertins Alfred |
| spellingShingle |
Schmiedel Max Moeller Anita Koch Martin A. Mertins Alfred Designing a compact MRI motion phantom Current Directions in Biomedical Engineering motion artifacts motion phantom mri |
| author_facet |
Schmiedel Max Moeller Anita Koch Martin A. Mertins Alfred |
| author_sort |
Schmiedel Max |
| title |
Designing a compact MRI motion phantom |
| title_short |
Designing a compact MRI motion phantom |
| title_full |
Designing a compact MRI motion phantom |
| title_fullStr |
Designing a compact MRI motion phantom |
| title_full_unstemmed |
Designing a compact MRI motion phantom |
| title_sort |
designing a compact mri motion phantom |
| publisher |
De Gruyter |
| series |
Current Directions in Biomedical Engineering |
| issn |
2364-5504 |
| publishDate |
2016-09-01 |
| description |
Even today, dealing with motion artifacts in magnetic resonance imaging (MRI) is a challenging task. Image corruption due to spontaneous body motion complicates diagnosis. In this work, an MRI phantom for rigid motion is presented. It is used to generate motion-corrupted data, which can serve for evaluation of blind motion compensation algorithms. In contrast to commercially available MRI motion phantoms, the presented setup works on small animal MRI systems. Furthermore, retrospective gating is performed on the data, which can be used as a reference for novel motion compensation approaches. The motion of the signal source can be reconstructed using motor trigger signals and be utilized as the ground truth for motion estimation. The proposed setup results in motion corrected images. Moreover, the importance of preprocessing the MRI raw data, e.g. phase-drift correction, is demonstrated. The gained knowledge can be used to design an MRI phantom for elastic motion. |
| topic |
motion artifacts motion phantom mri |
| url |
https://doi.org/10.1515/cdbme-2016-0104 |
| work_keys_str_mv |
AT schmiedelmax designingacompactmrimotionphantom AT moelleranita designingacompactmrimotionphantom AT kochmartina designingacompactmrimotionphantom AT mertinsalfred designingacompactmrimotionphantom |
| _version_ |
1717778695881490432 |