使用新一代低场磁共振成像改善金属抑制：生物仿真体可行性研究

Improved metal suppression using new generation low-field MRI: a biophantom feasibility study.

作者信息

Luitjens Johanna, Ziegeler Katharina, Yoon Daehyun, Gassert Felix, Bhattacharjee Rupsa, Manatrakul Rawee, Ngarmsrikam Chotigar, Becker Amy, Yang Yang, Joseph Gabby B, Su Pan, Itriago-Leon Pedro, Majumdar Sharmila, Link Thomas M

机构信息

Department of Radiology and Biomedical Imaging, University of California San Francisco, 185 Berry Street, San Francisco, CA, 94158, USA.

Department of Radiology, University Hospital, LMU, Marchioninistraße 15, 81377, Munich, Germany.

出版信息

Skeletal Radiol. 2025 May;54(5):1093-1099. doi: 10.1007/s00256-024-04809-x. Epub 2024 Oct 4.

DOI:10.1007/s00256-024-04809-x

PMID:39365346

Abstract

OBJECTIVE

Novel 0.55 MRI scanners have the potential to reduce metal artifacts around orthopedic implants. The purpose of this study was to compare metal artifact size and depiction of anatomy between 0.55 T and 3.0 T MRI in a biophantom.

MATERIALS AND METHODS

Steel and titanium screws were implanted in 12 porcine knee specimens and imaging at 0.55 T and 3 T MRI was performed using the following sequences: turbo spin-echo (TSE), TSE with view angle tilting (VAT), and slice encoding for metal artifact correction (SEMAC) with proton-density (PD) and T2-weighted short-tau inversion-recovery (T2w-STIR) contrasts. Artifacts were measured, and visualization of anatomy (cartilage, bone, growth plates, cruciate ligaments) was assessed and compared between groups.

RESULTS

Metal artifacts were significantly smaller at 0.55 T. The smallest artifact sizes were achieved with SEMAC at 0.55 T for both PD and T2w-STIR sequences; corresponding relative size reductions vs. 3.0 T were 78.7% and 79.4% (stainless steel) and 45.3% and 1.4% (titanium). Depiction of anatomical structures was superior at 0.55 T.

CONCLUSION

Substantial reduction of artifact size resulting in superior depiction of anatomical structures is possible on novel 0.55 T MRI systems. Further clinical studies are required to elucidate patient-relevant advantages.

摘要

目的

新型0.55 T磁共振成像（MRI）扫描仪有可能减少骨科植入物周围的金属伪影。本研究的目的是在生物仿真模型中比较0.55 T和3.0 T MRI的金属伪影大小及解剖结构显示情况。

材料与方法

将钢钉和钛钉植入12个猪膝关节标本中，然后使用以下序列在0.55 T和3 T MRI上进行成像：快速自旋回波（TSE）、视角倾斜（VAT）的TSE以及质子密度（PD）和T2加权短反转时间反转恢复（T2w-STIR）对比的金属伪影校正切片编码（SEMAC）。测量伪影，并评估和比较两组之间解剖结构（软骨、骨、生长板、交叉韧带）的可视化情况。

结果

0.55 T时金属伪影明显更小。对于PD和T2w-STIR序列，0.55 T时使用SEMAC获得的伪影尺寸最小；与3.0 T相比，不锈钢对应的相对尺寸减小分别为78.7%和79.4%，钛为45.3%和1.4%。0.55 T时解剖结构的显示更好。

结论

新型0.55 T MRI系统可大幅减少伪影尺寸，从而更好地显示解剖结构。需要进一步的临床研究来阐明与患者相关的优势。

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使用新一代低场磁共振成像改善金属抑制：生物仿真体可行性研究

Improved metal suppression using new generation low-field MRI: a biophantom feasibility study.

作者信息

机构信息

出版信息

OBJECTIVE

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的

材料与方法

结果

结论

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