Advancing clinical MRI exams with artificial intelligence: Japan's contributions and future prospects.

IF 2.1 4区 医学
Shohei Fujita, Yasutaka Fushimi, Rintaro Ito, Yusuke Matsui, Fuminari Tatsugami, Tomoyuki Fujioka, Daiju Ueda, Noriyuki Fujima, Kenji Hirata, Takahiro Tsuboyama, Taiki Nozaki, Masahiro Yanagawa, Koji Kamagata, Mariko Kawamura, Akira Yamada, Takeshi Nakaura, Shinji Naganawa
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引用次数: 0

Abstract

In this narrative review, we review the applications of artificial intelligence (AI) into clinical magnetic resonance imaging (MRI) exams, with a particular focus on Japan's contributions to this field. In the first part of the review, we introduce the various applications of AI in optimizing different aspects of the MRI process, including scan protocols, patient preparation, image acquisition, image reconstruction, and postprocessing techniques. Additionally, we examine AI's growing influence in clinical decision-making, particularly in areas such as segmentation, radiation therapy planning, and reporting assistance. By emphasizing studies conducted in Japan, we highlight the nation's contributions to the advancement of AI in MRI. In the latter part of the review, we highlight the characteristics that make Japan a unique environment for the development and implementation of AI in MRI examinations. Japan's healthcare landscape is distinguished by several key factors that collectively create a fertile ground for AI research and development. Notably, Japan boasts one of the highest densities of MRI scanners per capita globally, ensuring widespread access to the exam. Japan's national health insurance system plays a pivotal role by providing MRI scans to all citizens irrespective of socioeconomic status, which facilitates the collection of inclusive and unbiased imaging data across a diverse population. Japan's extensive health screening programs, coupled with collaborative research initiatives like the Japan Medical Imaging Database (J-MID), enable the aggregation and sharing of large, high-quality datasets. With its technological expertise and healthcare infrastructure, Japan is well-positioned to make meaningful contributions to the MRI-AI domain. The collaborative efforts of researchers, clinicians, and technology experts, including those in Japan, will continue to advance the future of AI in clinical MRI, potentially leading to improvements in patient care and healthcare efficiency.

利用人工智能推进临床磁共振成像检查:日本的贡献与未来展望。
在这篇叙述性综述中,我们回顾了人工智能(AI)在临床磁共振成像(MRI)检查中的应用,尤其关注日本在这一领域的贡献。在综述的第一部分,我们介绍了人工智能在优化磁共振成像过程不同方面的各种应用,包括扫描方案、患者准备、图像采集、图像重建和后处理技术。此外,我们还探讨了人工智能在临床决策中日益增长的影响力,尤其是在分割、放射治疗规划和报告辅助等领域。通过强调在日本进行的研究,我们突出了日本在核磁共振成像领域对人工智能发展的贡献。在综述的后半部分,我们强调了日本在磁共振成像检查中开发和实施人工智能的独特环境。日本的医疗保健领域有几个关键因素,共同为人工智能的研发创造了肥沃的土壤。值得注意的是,日本是全球人均磁共振成像扫描仪密度最高的国家之一,确保了检查的普及。日本的国民健康保险制度发挥着举足轻重的作用,它为所有公民提供核磁共振成像扫描,而不论其社会经济地位如何,这有利于在不同人群中收集全面、公正的成像数据。日本广泛的健康检查计划,再加上日本医学影像数据库(J-MID)等合作研究计划,使日本能够汇集和共享大量高质量的数据集。凭借其技术专长和医疗基础设施,日本完全有能力在 MRI-AI 领域做出有意义的贡献。包括日本在内的研究人员、临床医生和技术专家的共同努力将继续推动人工智能在临床核磁共振成像领域的未来发展,从而有可能改善患者护理和医疗保健效率。
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来源期刊
Japanese Journal of Radiology
Japanese Journal of Radiology Medicine-Radiology, Nuclear Medicine and Imaging
自引率
4.80%
发文量
133
期刊介绍: Japanese Journal of Radiology is a peer-reviewed journal, officially published by the Japan Radiological Society. The main purpose of the journal is to provide a forum for the publication of papers documenting recent advances and new developments in the field of radiology in medicine and biology. The scope of Japanese Journal of Radiology encompasses but is not restricted to diagnostic radiology, interventional radiology, radiation oncology, nuclear medicine, radiation physics, and radiation biology. Additionally, the journal covers technical and industrial innovations. The journal welcomes original articles, technical notes, review articles, pictorial essays and letters to the editor. The journal also provides announcements from the boards and the committees of the society. Membership in the Japan Radiological Society is not a prerequisite for submission. Contributions are welcomed from all parts of the world.
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