由正畸钢丝引起的磁共振成像易感伪影。

IF 2.9 2区 医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE
Yuri Iwamoto, Hiroaki Shimamoto, Doaa Felemban, Tomoyuki Terai, Sven Kreiborg, Sanjay M Mallya, Fan-Pei Gloria Yang, Chihiro Tanikawa, Shumei Murakami
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引用次数: 0

摘要

目的评估正畸钢丝在磁共振成像中产生的磁感应伪影,以及钢丝特性和磁共振成像序列对伪影大小的影响:将弓形正畸钢丝[4 种不锈钢 (SS)、1 种钴铬合金 (CC)、13 种钛合金 (Ti)]嵌入聚酯模型中,并使用带有 8 通道相控阵线圈的 1.5 T 超导磁体扫描仪进行扫描。根据美国材料与试验协会(ASTM)F2119-07 标准,使用 T1 加权自旋回波(SE)和梯度回波(GRE)序列对所有导线进行扫描。此外,还使用其他八种序列对模型进行了扫描。使用 ASTM F2119-07 定义和 OsiriX 软件测量了伪影。根据金属成分、导线长度、导线数量、导线厚度和成像序列等因素分析了伪影体积:结果:使用 SE/GRE 时,所有 SS 金属丝产生的黑/白伪影体积明显大于 CC 和 Ti 金属丝(P 结论:SS 金属丝产生的黑/白伪影体积明显大于 CC 和 Ti 金属丝(P 结论:SS 金属丝产生的黑/白伪影体积明显大于 CC 和 Ti 金属丝):铁磁/顺磁正畸钢丝会因局部磁场均匀性的改变而产生伪影。SS 型钢丝产生的伪影最大,其次是 CC 和 Ti 钢丝。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
MRI susceptibility artefacts caused by orthodontic wire.

Objectives: To evaluate magnetic susceptibility artefacts produced by orthodontic wires on MRI and the influence of wire properties and MRI image sequences on the magnitude of the artefact.

Methods: Arch form orthodontic wires [four stainless steels (SS), one cobalt chromium (CC) alloy, 13 titanium (Ti) alloys] were embedded in a polyester phantom, and scanned using a 1.5-T superconducting magnet scanner with an eight-channel phased-array coil. All wires were scanned with T1-weighted spin echo (SE) and gradient echo (GRE) sequences according to the American Society for Testing and Materials (ASTM) F2119-07 standard. The phantom also scanned other eight sequences. Artefacts were measured using the ASTM F2119-07 definition and OsiriX software. Artefact volume was analysed according to metal composition, wire length, number of wires, wire thickness, and imaging sequence as factors.

Results: With SE/GRE, black/white artefacts volumes from all SS wires were significantly larger than those produced by CC and Ti wires (P < .01). With the GRE, the black artefacts volume was the highest with the SS wires. With the SE, the black artefacts volume was small, whereas white artefacts were noticeable. The cranio-caudal extent of the artefacts was significantly longer with SS wires (P < .01). Although a direct relationship of wire length, number of wires, and wire thickness with artefact volume was noted, these factors did not influence artefact extension in the cranio-caudal direction.

Conclusions: Ferromagnetic/paramagnetic orthodontic wires create artefacts due to local alteration of magnetic field homogeneity. The SS-type wires produced the largest artefacts followed by CC and Ti.

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来源期刊
CiteScore
5.60
自引率
9.10%
发文量
65
审稿时长
4-8 weeks
期刊介绍: Dentomaxillofacial Radiology (DMFR) is the journal of the International Association of Dentomaxillofacial Radiology (IADMFR) and covers the closely related fields of oral radiology and head and neck imaging. Established in 1972, DMFR is a key resource keeping dentists, radiologists and clinicians and scientists with an interest in Head and Neck imaging abreast of important research and developments in oral and maxillofacial radiology. The DMFR editorial board features a panel of international experts including Editor-in-Chief Professor Ralf Schulze. Our editorial board provide their expertise and guidance in shaping the content and direction of the journal. Quick Facts: - 2015 Impact Factor - 1.919 - Receipt to first decision - average of 3 weeks - Acceptance to online publication - average of 3 weeks - Open access option - ISSN: 0250-832X - eISSN: 1476-542X
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