摘要
定量磁共振成像技术近年来已广泛用于各个疾病的研究之中,最佳定量磁共振成像技术的应用将会对疾病的早期诊断和治疗产生更好的帮助。本文从成像原理出发对目前常见定量技术进行分类,介绍了化学交换饱和转移技术、化学位移同反相位技术、磁共振波谱、定量磁敏感图、弛豫率成像等技术的原理以及研究进展,最后对各个技术进行汇总分析。结果表明磁共振定量技术种类繁多,定量物质种类广泛。且部分定量磁共振成像技术之间存在交叉,一种技术可定量多种物质,多种技术可用于一种与疾病相关的物质定量研究。尽管目前有相关研究对定量同一物质的多种技术进行比较,但比较结果仍需进一步探索。本文的分析结果便于了解常见定量磁共振成像技术及其研究进展,可为临床诊疗研究提供可借鉴的依据。
Quantitative magnetic resonance imaging has been widely used in the study of various diseases in recent years.The best application of quantitative magnetic resonance imaging will be helpful for early diagnosis and treatment.In this paper,several common quantitative MRI imaging techniques are classified according to the imaging principle.The principles and research progress of chemical exchange saturation transfer,chemical shift imaging,magnetic resonance spectrum,quantitative susceptibility mapping,and relaxation rate mapping technique are introduced.Finally,this paper analyzed the research progress.The analysis results show that there are many kinds of quantitative magnetic resonance imaging techniques and quantitative substances.Moreover,some quantitative magnetic resonance imaging techniques are overlapping.One technology can quantify multiple substances,and many technologies can be used for quantitative research of a disease-related substance.Although relevant studies have been carried out to compare various techniques for quantifying the same substance,the comparison results still need to be further explored.This paper's analysis results are convenient to understand the standard quantitative magnetic resonance imaging technology and its research progress and provide a reference basis for clinical diagnosis and treatment research.
作者
罗明芳
孙振博
荣康
李祥林
LUO Mingfang;SUN Zhenbo;RONG Kang;LI Xianglin(School of Medical Imaging,Binzhou Medical University,Yantai 264003,China)
出处
《分子影像学杂志》
2020年第4期572-576,共5页
Journal of Molecular Imaging
基金
山东省重点研发计划项目(2018YFJH0501)
山东省重点研发计划项目(2018GSF118156)。
关键词
定量磁共振成像
化学交换饱和转移
化学位移
定量磁化率成像
弛豫时间
quantitative magnetic resonance imaging
chemical exchange saturation transfer
chemical shift
quantitative susceptibility mapping
relaxation time
