Impact of artificial intelligence assisted compressed sensing technique on scan time and image quality in musculoskeletal MRI – A systematic review

IF 2.5 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Radiography Pub Date : 2024-10-01 DOI:10.1016/j.radi.2024.08.012
Priyanka , R. Kadavigere , S. Nayak S , O. Chandran M , A. Shirlal , T. Pires , S. Pendem
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Abstract

Introduction

Magnetic Resonance Imaging (MRI) has revolutionized the diagnosis and treatment of musculoskeletal disorders. Parallel imaging (PI) and compressed sensing (CS) techniques reduce scan time, but higher acceleration factors decrease image quality. Artificial intelligence has enhanced MRI reconstructions by integrating deep learning algorithms. Therefore, the study aims to review the impact of Artificial intelligence-assisted compressed sensing (AI-CS) and acceleration factors on scan time and image quality in musculoskeletal MRI.

Methods

Database searches were completed across PubMed, Scopus, CINAHL, Web of Science, Cochrane Library, and Embase to identify relevant articles focusing on the application of AI-CS in musculoskeletal MRI between 2022 and 2024. We utilized the Preferred Reporting Items for Systematic Reviews and Meta-analysis guidelines to extract data from the selected studies.

Results

Nine articles were included for the final review, with a total sample size of 730 participants. Of these, seven articles were rated as high, while two articles were considered to be of moderate quality. MRI examination with AI-CS showed scan time reduction of 18.9–38.8% for lumbar spine, 38–40% for shoulder, 54–75% for knee and 53–63% for ankle.

Conclusions

AI-CS showed a significant reduction in scan time and improved image quality for 2D and 3D sequences in musculoskeletal MRI compared with PI and CS. Determining the optimal acceleration factor necessary to achieve images with higher image quality compared to traditional PI techniques is required before clinical implementation. Higher acceleration factors currently lead to reduced image scores, although advancements in AI-CS are expected to address the limitation.

Implications of practice

AI-CS in MRI improves patient care by shortening scan times, reducing patient discomfort and anxiety, and produces high quality images for accurate diagnosis.
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人工智能辅助压缩传感技术对肌肉骨骼磁共振成像扫描时间和图像质量的影响--系统综述。
简介磁共振成像(MRI)为肌肉骨骼疾病的诊断和治疗带来了革命性的变化。并行成像(PI)和压缩传感(CS)技术缩短了扫描时间,但较高的加速因子会降低图像质量。人工智能通过整合深度学习算法增强了核磁共振成像重建能力。因此,本研究旨在回顾人工智能辅助压缩传感(AI-CS)和加速因子对肌肉骨骼 MRI 扫描时间和图像质量的影响:我们在 PubMed、Scopus、CINAHL、Web of Science、Cochrane Library 和 Embase 等数据库中进行了检索,以确定 2022 年至 2024 年期间有关人工智能辅助压缩传感(AI-CS)在肌肉骨骼 MRI 中应用的相关文章。我们利用《系统综述和元分析首选报告项目》指南从所选研究中提取数据:最终审查共纳入了 9 篇文章,总样本量为 730 人。其中,7篇文章被评为高质量,2篇文章被评为中等质量。使用 AI-CS 进行磁共振成像检查显示,腰椎的扫描时间缩短了 18.9-38.8%,肩部缩短了 38-40%,膝关节缩短了 54-75%,踝关节缩短了 53-63%:与 PI 和 CS 相比,AI-CS 在肌肉骨骼 MRI 的二维和三维序列中显著缩短了扫描时间,提高了图像质量。在临床应用之前,需要确定必要的最佳加速因子,以获得比传统 PI 技术更高的图像质量。目前,较高的加速因子会导致图像评分降低,但 AI-CS 的进步有望解决这一限制:核磁共振成像中的 AI-CS 可缩短扫描时间,减少患者的不适感和焦虑感,并生成高质量图像以进行准确诊断,从而改善患者护理。
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来源期刊
Radiography
Radiography RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
4.70
自引率
34.60%
发文量
169
审稿时长
63 days
期刊介绍: Radiography is an International, English language, peer-reviewed journal of diagnostic imaging and radiation therapy. Radiography is the official professional journal of the College of Radiographers and is published quarterly. Radiography aims to publish the highest quality material, both clinical and scientific, on all aspects of diagnostic imaging and radiation therapy and oncology.
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