使用新型算法和机器学习减少髋关节和肩关节植入物的CT金属伪影:一项成对和网络荟萃分析的系统评价
CT metal artefact reduction for hip and shoulder implants using novel algorithms and machine learning: A systematic review with pairwise and network meta-analyses.
作者信息
Amadita K, Gray F, Gee E, Ekpo E, Jimenez Y
机构信息
Discipline of Medical Imaging Science, Faculty of Medicine and Health, University of Sydney, NSW 2006, Australia.
出版信息
Radiography (Lond). 2025 Jan;31(1):36-52. doi: 10.1016/j.radi.2024.10.009. Epub 2024 Nov 6.
INTRODUCTION
Many tools have been developed to reduce metal artefacts in computed tomography (CT) images resulting from metallic prosthesis; however, their relative effectiveness in preserving image quality is poorly understood. This paper reviews the literature on novel metal artefact reduction (MAR) methods targeting large metal artefacts in fan-beam CT to examine their effectiveness in reducing metal artefacts and effect on image quality.
METHODS
The PRISMA checklist was used to search for articles in five electronic databases (MEDLINE, Scopus, Web of Science, IEEE, EMBASE). Studies that assessed the effectiveness of recently developed MAR method on fan-beam CT images of hip and shoulder implants were reviewed. Study quality was assessed using the National Institute of Health (NIH) tool. Meta-analyses were conducted in R, and results that could not be meta-analysed were synthesised narratively.
RESULTS
Thirty-six studies were reviewed. Of these, 20 studies proposed statistical algorithms and 16 used machine learning (ML), and there were 19 novel comparators. Network meta-analysis of 19 studies showed that Recurrent Neural Network MAR (RNN-MAR) is more effective in reducing noise (LogOR 20.7; 95 % CI 12.6-28.9) without compromising image quality (LogOR 4.4; 95 % CI -13.8-22.5). The network meta-analysis and narrative synthesis showed novel MAR methods reduce noise more effectively than baseline algorithms, with five out of 23 ML methods significantly more effective than Filtered Back Projection (FBP) (p < 0.05). Computation time varied, but ML methods were faster than statistical algorithms.
CONCLUSION
ML tools are more effective in reducing metal artefacts without compromising image quality and are computationally faster than statistical algorithms. Overall, novel MAR methods were also more effective in reducing noise than the baseline reconstructions.
IMPLICATIONS FOR PRACTICE
Implementation research is needed to establish the clinical suitability of ML MAR in practice.
引言
已经开发了许多工具来减少计算机断层扫描(CT)图像中由金属假体产生的金属伪影;然而,人们对它们在保持图像质量方面的相对有效性了解甚少。本文回顾了针对扇束CT中大型金属伪影的新型金属伪影减少(MAR)方法的文献,以研究它们在减少金属伪影方面的有效性以及对图像质量的影响。
方法
使用PRISMA清单在五个电子数据库(MEDLINE、Scopus、Web of Science、IEEE、EMBASE)中搜索文章。对评估最近开发的MAR方法对髋关节和肩关节植入物的扇束CT图像有效性的研究进行了综述。使用美国国立卫生研究院(NIH)工具评估研究质量。在R中进行荟萃分析,无法进行荟萃分析的结果进行叙述性综合。
结果
共审查了36项研究。其中,20项研究提出了统计算法,16项使用了机器学习(ML),有19种新型比较器。对19项研究的网络荟萃分析表明,递归神经网络MAR(RNN-MAR)在不影响图像质量(对数比值比4.4;95%置信区间-13.8-22.5)的情况下,在减少噪声方面更有效(对数比值比20.7;95%置信区间12.6-28.9)。网络荟萃分析和叙述性综合表明,新型MAR方法比基线算法更有效地减少噪声,23种ML方法中有5种比滤波反投影(FBP)显著更有效(p<0.05)。计算时间各不相同,但ML方法比统计算法更快。
结论
ML工具在不影响图像质量的情况下更有效地减少金属伪影,并且在计算上比统计算法更快。总体而言,新型MAR方法在减少噪声方面也比基线重建更有效。
对实践的启示
需要进行实施研究以确定ML MAR在实践中的临床适用性。
Zotero 插件