磁共振成像
示踪剂
可视化
核磁共振
计算机科学
医学
物理
放射科
人工智能
核物理学
作者
Hiroyuki Kameda,Naoya Kinota,Daisuke Kato,Tomoyuki Fujii,Taisuke Harada,Yuji Komaki,Hiroyuki Sugimori,Tomohiro Onodera,Moyoko Tomiyasu,Takayuki Obata,Kohsuke Kudo
标识
DOI:10.1097/rli.0000000000001021
摘要
Abstract Magnetic resonance imaging (MRI) is a crucial imaging technique for visualizing water in living organisms. Besides proton MRI, which is widely available and enables direct visualization of intrinsic water distribution and dynamics in various environments, MR-WTI (MR water tracer imaging) using 17 O-labeled water has been developed, benefiting from the many advancements in MRI software and hardware that have substantially improved the signal-to-noise ratio and made possible faster imaging. This cutting-edge technique allows the generation of novel and valuable images for clinical use. This review elucidates the studies related to MRI water tracer techniques centered around 17 O-labeled water, explaining the fundamental principles of imaging and providing clinical application examples. Anticipating continued progress in studies involving isotope-labeled water, this review is expected to contribute to elucidating the pathophysiology of various diseases related to water dynamics abnormalities and establishing novel imaging diagnostic methods for associated diseases.
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