肌肉骨骼 CT 上的金属伪影减少：一项体模和临床研究。

Metal artifact reduction on musculoskeletal CT: a phantom and clinical study.

机构信息

Health Faculty, Oslo Metropolitan University, Pilestredet 48, 0130, Oslo, Norway.

Department of Radiology and Nuclear Medicine, Oslo University Hospital, Oslo, Norway.

出版信息

Eur Radiol Exp. 2023 Jul 31;7(1):46. doi: 10.1186/s41747-023-00354-9.

DOI:10.1186/s41747-023-00354-9

PMID:37524994

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10390408/

Abstract

BACKGROUND

Artifacts caused by metal implants are challenging when undertaking computed tomography (CT). Dedicated algorithms have shown promising results although with limitations. Tin filtration (Sn) in combination with high tube voltage also shows promise but with limitations. There is a need to examine these limitations in more detail. The purpose of this study was to investigate the impact of different metal artefact reduction (MAR) algorithms, tin filtration, and ultra-high-resolution (UHR) scanning, alone or in different combinations in both phantom and clinical settings.

METHODS

An ethically approved clinical and phantom study was conducted. A modified Catphan® phantom with titanium and stainless-steel inserts was scanned with six different MAR protocols with tube voltage ranging from 80 to 150 kVp. Other scan parameters were kept identical. The differences (∆) in mean HU and standard deviation (SD) in images, with and without metal, were measured and compared. In the clinical study, three independent readers performed visual image quality assessments on eight different protocols using retrospectively acquired images.

RESULTS

Iterative MAR had the lowest ∆HU and ∆SD in the phantom study. For images of the forearm, the soft tissue noise for Sn-based 150-kVp UHR protocol with was significantly higher (p = 0.037) than for single-energy MAR protocols. All Sn-based 150-kVp protocols were rated significantly higher (p < 0.046 than the single-energy MAR protocols in the visual assessment.

CONCLUSIONS

All Sn-based 150-kVp UHR protocols showed similar objective MAR in the phantom study, and higher objective MAR and significantly improved visual image quality than single-energy MAR.

RELEVANCE STATEMENT

Images with less metal artifacts and higher visual image quality may be more clinically optimal in CT examination of musculoskeletal patients with metal implants.

KEY POINTS

• Metal artifact reduction algorithms and Sn filter combined with high kVp reduce artifacts. • Metal artifact reduction algorithms introduce new artifacts in certain metals. • Sn-based protocols alone may be considered as low metal artifact protocols.

摘要

背景

在进行计算机断层扫描（CT）时，金属植入物引起的伪影是一个挑战。专用算法虽然具有一定的局限性，但已经显示出了有前景的结果。锡过滤（Sn）与高管电压相结合也显示出了一定的前景，但也存在局限性。需要更详细地研究这些局限性。本研究的目的是调查不同的金属伪影减少（MAR）算法、锡过滤和超高分辨率（UHR）扫描，单独或不同组合，在体模和临床环境中的影响。

方法

进行了一项经过伦理批准的临床和体模研究。使用带有钛和不锈钢插件的改良 Catphan®体模，在管电压为 80 至 150 kVp 的范围内扫描六种不同的 MAR 协议。其他扫描参数保持相同。测量并比较有和没有金属时图像中平均 HU 和标准差（SD）的差异（∆）。在临床研究中，三位独立的读者使用回顾性采集的图像对八种不同的协议进行了独立的视觉图像质量评估。

结果

迭代 MAR 在体模研究中具有最低的 ∆HU 和 ∆SD。对于前臂图像，Sn 基 150 kVp UHR 协议的软组织噪声明显高于（p=0.037）单能 MAR 协议。在视觉评估中，所有 Sn 基 150 kVp 协议的评分均显著高于（p<0.046）单能 MAR 协议。

结论

在体模研究中，所有 Sn 基 150 kVp UHR 协议均显示出相似的客观 MAR，并且客观 MAR 和视觉图像质量得到了显著提高，优于单能 MAR。

临床相关性

在对有金属植入物的肌肉骨骼患者进行 CT 检查时，具有较少金属伪影和更高视觉图像质量的图像可能在临床上更具优势。

要点

•金属伪影减少算法和 Sn 过滤器与高 kVp 相结合可减少伪影。•金属伪影减少算法在某些金属中引入了新的伪影。•单独的 Sn 基协议可能被认为是低金属伪影协议。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d488/10390408/e85f63754d54/41747_2023_354_Fig1_HTML.jpg

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肌肉骨骼 CT 上的金属伪影减少：一项体模和临床研究。

Metal artifact reduction on musculoskeletal CT: a phantom and clinical study.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

RELEVANCE STATEMENT

KEY POINTS

背景

方法

结果

结论

临床相关性

要点

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