Department of Diagnostic and Interventional Radiology, Eberhard-Karls University, Hoppe-Seyler-Strasse 3, Tübingen 72076, Germany.
Department of Trauma and Reconstructive Surgery, BG Unfallklinik, Eberhard-Karls University, Tübingen, Germany.
AJR Am J Roentgenol. 2022 Feb;218(2):300-309. doi: 10.2214/AJR.21.26442. Epub 2021 Sep 15.
. Lower extremity external fixators have complex geometries that induce pronounced metal artifact on CT. Iterative metal artifact reduction (iMAR) algorithms help reduce such artifact, although no dedicated iMAR preset exists for external fixators. . The purpose of our study was to compare iMAR presets for CT examinations in terms of quantitative metal artifact burden and subjective image quality in patients with external fixators for complex lower extremity fractures. . This retrospective study included 72 CT examinations in 56 patients (20 women, 36 men; mean age, 56 ± 18 [SD] years) with lower extremity external fixators (regular, hybrid, or monotube). Examinations were reconstructed without iMAR (hereafter referred to as "noMAR") and with three iMAR presets (iMAR, iMAR, iMAR). A radiology resident quantified metal artifact burden using software. Two radiology residents independently assessed overall image quality and diagnostic confidence using 4-point scales (4 = excellent [highest quality or highest confidence]). Techniques were compared using Bonferroni-corrected post hoc tests. Interreader agreement was assessed by intraclass correlation coefficients (ICCs). A post hoc multinomial regression model was used for predicting overall image quality. . Mean quantitative metal artifact burden was 100,816 ± 45,558 for noMAR, 88,889 ± 44,028 for iMAR, 82,295 ± 41,983 for iMAR, and 81,956 ± 41,890 for iMAR. Overall image quality yielded an ICC of 0.94 or greater. Using pooled reader data, median overall image quality score for the regular fixator was 2 (noMAR), 3 (iMAR and iMAR), and 4 (iMAR); for the hybrid fixator, 1 (noMAR), 2 (iMAR), and 3 (iMAR and iMAR); and for the monotube fixator, 2 (noMAR), 3 (iMAR and iMAR), and 4 (iMAR). Metal artifact burden was lower and overall image quality was higher ( < .05) for iMAR and iMAR than noMAR and iMAR for all fixators (aside from image quality of iMAR and iMAR vs iMAR for regular fixators) but were not different (all, > .05) between iMAR and iMAR. Median diagnostic confidence was 4 for all fixators and reconstructions. Independent predictors of overall quality relative to noMAR were iMAR (odds ratio [OR] = 1.92-5.51), iMAR (OR = 5.56-31.10), and iMAR (OR = 7.07-38.21). All iMAR presets introduced new reconstruction artifacts for all examinations for both readers. . For the three fixator types, iMAR and iMAR achieved greatest metal artifact burden reduction and highest subjective image quality, although both introduced new reconstruction artifacts. . CT using the two identified iMAR presets may facilitate perioperative management of external fixators.
. 下肢外固定器具有复杂的几何形状,在 CT 上会产生明显的金属伪影。迭代金属伪影减少(iMAR)算法有助于减少这种伪影,尽管没有专门为外固定器设置的 iMAR 预设。. 我们的研究目的是比较 iMAR 预设在定量金属伪影负担和接受下肢外固定器复杂骨折 CT 检查的患者的主观图像质量方面的表现。. 这项回顾性研究纳入了 56 例患者(20 名女性,36 名男性;平均年龄 56 ± 18[SD]岁)72 次 CT 检查,患者均接受下肢外固定器(常规、混合或单管)治疗。检查采用无 iMAR(此后称为“noMAR”)和三种 iMAR 预设(iMAR、iMAR 和 iMAR)进行重建。一位放射科住院医师使用软件对金属伪影负担进行量化。两位放射科住院医师使用 4 分制(4 分=优秀[最高质量或最高信心])独立评估整体图像质量和诊断信心。采用 Bonferroni 校正的事后检验比较技术。使用组内相关系数(ICC)评估读者间的一致性。事后多项回归模型用于预测整体图像质量。. noMAR 的平均定量金属伪影负担为 100816 ± 45558,iMAR 为 88889 ± 44028,iMAR 为 82295 ± 41983,iMAR 为 81956 ± 41890。整体图像质量的 ICC 为 0.94 或更高。使用汇总读者数据,常规固定器的整体图像质量中位数评分分别为 2(noMAR)、3(iMAR 和 iMAR)和 4(iMAR);混合固定器为 1(noMAR)、2(iMAR 和 iMAR)和 3(iMAR 和 iMAR);单管固定器为 2(noMAR)、3(iMAR 和 iMAR)和 4(iMAR)。对于所有固定器(常规固定器的 iMAR 和 iMAR 与 iMAR 之间的图像质量除外),iMAR 和 iMAR 的金属伪影负担较低,整体图像质量较高(<0.05),而 iMAR 和 iMAR 之间无差异(所有,>0.05)。所有固定器和重建的诊断信心中位数均为 4。相对于 noMAR,整体质量的独立预测因素为 iMAR(比值比[OR]=1.92-5.51)、iMAR(OR=5.56-31.10)和 iMAR(OR=7.07-38.21)。两位读者都发现,所有检查的所有 iMAR 预设都引入了新的重建伪影。. 对于三种固定器类型,iMAR 和 iMAR 实现了最大的金属伪影减少和最高的主观图像质量,尽管两者都引入了新的重建伪影。. 使用两种鉴定的 iMAR 预设的 CT 可能有助于外固定器的围手术期管理。
