利用图像质量转移对低场磁共振成像中癫痫病灶可视化增强的评估:发展中国家临床应用潜力的初步调查。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Matteo Figini, Hongxiang Lin, Felice D'Arco, Godwin Ogbole, Maria Camilla Rossi-Espagnet, Olalekan Ibukun Oyinloye, Joseph Yaria, Donald Amasike Nzeh, Mojisola Omolola Atalabi, David W Carmichael, Judith Helen Cross, Ikeoluwa Lagunju, Delmiro Fernandez-Reyes, Daniel C Alexander
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引用次数: 0

摘要

目的:低场(LF)磁共振成像扫描仪在许多中低收入国家很常见,但与高场(HF)扫描仪相比,它们提供的图像空间分辨率和对比度较差。图像质量转移(IQT)是一种机器学习框架,用于在高质量参考的基础上增强图像,最近已应用于低场磁共振成像。在本研究中,我们旨在评估与低频磁共振成像扫描相比,IQT 是否能改善癫痫患儿的病灶可视化:在 0.36T (低频)和 1.5T 扫描仪(高频)上采集了 12 名临床诊断为顽固性癫痫的患者(5 至 18 岁,7 名男性)的 T1 加权、T2 加权和 FLAIR 图像。低频图像经过 IQT 增强。七名放射科医生对正常灰质(GM)和白质(WM)的区分以及 LF、HF 和 IQT 增强图像中致痫病灶的扩展和定义进行了盲法评估:在独立评估图像时,IQT输出的T1、T2和FLAIR图像的GM-WM分化得分分别比LF高26%、高17%和低12%。病变定义得分比 LF 低 8-34%,但并排观察图像时,FLAIR 和 T1 的病变定义得分比 LF 高 3%。擅长 HF 的放射科医生对 IQT 图像的评分高于擅长 LF 的放射科医生:结论:IQT 总体上改善了图像质量评估。对 IQT 增强图像的病理评估受到对 HF/IQT 图像外观熟悉程度的影响。这些初步结果表明,IQT 可对没有高频磁共振成像的神经放射学实践产生重要影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Evaluation of epilepsy lesion visualisation enhancement in low-field MRI using image quality transfer: a preliminary investigation of clinical potential for applications in developing countries.

Evaluation of epilepsy lesion visualisation enhancement in low-field MRI using image quality transfer: a preliminary investigation of clinical potential for applications in developing countries.

Purpose: Low-field (LF) MRI scanners are common in many Low- and middle-Income countries, but they provide images with worse spatial resolution and contrast than high-field (HF) scanners. Image Quality Transfer (IQT) is a machine learning framework to enhance images based on high-quality references that has recently adapted to LF MRI. In this study we aim to assess if it can improve lesion visualisation compared to LF MRI scans in children with epilepsy.

Methods: T1-weighted, T2-weighted and FLAIR were acquired from 12 patients (5 to 18 years old, 7 males) with clinical diagnosis of intractable epilepsy on a 0.36T (LF) and a 1.5T scanner (HF). LF images were enhanced with IQT. Seven radiologists blindly evaluated the differentiation between normal grey matter (GM) and white matter (WM) and the extension and definition of epileptogenic lesions in LF, HF and IQT-enhanced images.

Results: When images were evaluated independently, GM-WM differentiation scores of IQT outputs were 26% higher, 17% higher and 12% lower than LF for T1, T2 and FLAIR. Lesion definition scores were 8-34% lower than LF, but became 3% higher than LF for FLAIR and T1 when images were seen side by side. Radiologists with expertise at HF scored IQT images higher than those with expertise at LF.

Conclusion: IQT generally improved the image quality assessments. Evaluation of pathology on IQT-enhanced images was affected by familiarity with HF/IQT image appearance. These preliminary results show that IQT could have an important impact on neuroradiology practice where HF MRI is not available.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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