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KMID : 0858520150190020076
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Journal of the Korean Society of Magnetic Resonance in Medicine
2015 Volume.19 No. 2 p.76 ~ p.87
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Effect of Manganese Content on the Magnetic Susceptibility of Ferrous-Manganese Alloys: Correlation between Microstructure on X-Ray Diffraction and Size of the Low-Intensity Area on MRI
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Youn Sung-Won
Kim Moon-Jung
Yi Seoung-Hoon
Ahn Hyun-Jin
Park Kwan-Kyu
Lee Jong-Min
Lee Young-Cheol
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Abstract
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Purpose: There is an ongoing search for a stent material that produces a reduced susceptibility artifact. This study evaluated the effect of manganese (Mn) content on the MRI susceptibility artifact of ferrous-manganese (Fe-Mn) alloys, and investigated the correlation between MRI findings and measurements of Fe-Mn microstructure on X-ray diffraction (XRD).
Materials and Methods: Fe-Mn binary alloys were prepared with Mn contents varying from 10% to 35% by weight (i.e., 10%, 15%, 20%, 25%, 30%, and 35%; designated as Fe-10Mn, Fe-15Mn, Fe-20Mn, Fe-25Mn, Fe-30Mn, and Fe-35Mn, respectively), and their microstructure was evaluated using XRD. Three-dimensional spoiled gradient echo sequences of cylindrical specimens were obtained in parallel and perpendicular to the static magnetic field (B0). In addition, T1-weighted spin echo, T2-weighted fast spin echo, and T2*-weighted gradient echo images were obtained. The size of the low-intensity area on MRI was measured for each of the Fe-Mn binary alloys prepared.
Results: Three phases of ¥á'-martensite, ¥ã-austenite, and ¥å-martensite were seen on XRD, and their composition changed from ¥á'-martensite to ¥ã-austenite and/or ¥å-martensite, with increasing Mn content. The Fe-10Mn and Fe-15Mn specimens comprised ¥á'-martensite, the Fe-20Mn and Fe-25Mn specimens comprised ¥ã+¥å phases, and the Fe-30Mn and Fe-35Mn specimens exhibited a single ¥ã phase. The size of the low-intensity areas of Fe-Mn on MRI decreased relative to its microstructure on XRD with increasing Mn content.
Conclusion: Based on these findings, proper conditioning of the Mn content in Fe-Mn alloys will improve its visibility on MR angiography, and a Mn content of more than 25% is recommended to reduce the magnetic susceptibility artifacts on MRI. A reduced artifact of Fe-Mn alloys on MRI is closely related to the paramagnetic constitution of ¥ã-austenite and/or ¥å-martensite.
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KEYWORD
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Stent, Ferro-manganese alloy, Manganese, Magnetic resonance angiography, Artifact, X-ray diffraction
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