摘要
热应变成像(thermal strain imaging,TSI)是一种利用超声回波时移的温度相关性进行成像的超声应用.它既具有超声安全、无创和实时成像的优点,又能够显示与其他超声成像方式不同的组织特征,具有良好的应用前景.热应变成像目前在生物医学领域主要应用于组织表征和温度监测两个方面.本综述介绍了热应变成像的基本原理,讨论了适用于临床的主要能量源,并通过回顾近几年热应变成像的研究成果和分析目前面临的局限与挑战,对热应变成像技术的发展进行了探讨和展望.
Thermal strain imaging(TSI) is an ultrasound application which exploits the temperature dependence of ultrasonic echo time shift to form thermal strain images. The basic principle of TSI for medical examinations is that tissue expands and ultrasonic propagation speed changes when the temperature in tissue raises by using a directed-energy source to heat, causing relative shifts in scatterer position. The local temporal gradient of scatterer shift is often called thermal strain and thermal strain images are formed by measuring and restructuring thermal strain. In order to optimize the energy transfer and heating efficiency, a highly controllable energy source is a critical part of the TSI system. Ultrasound is the dominant energy source because it is noninvasive, nonradiative and can greatly simplify the probe design and its integration with existing scanners. As thermal strain is closely related to tissue components and temperature, the applications of TSI in biomedical field are mainly focused on tissue characterization and temperature monitoring. Although the application of TSI has been extensively studied,TSI currently can not be applied in clinical trials mainly due to the obstruction of tissue motion. To reduce negative effects of tissue motion, various methods for motion compensation have been attempted and good results have been achieved. We have reasons to believe that TSI will be generally welcomed as a new noninvasive clinical application with the improvement of energy source and the appearance of more effective motion compensation methods.
作者
曾文龙
王梦玄
梁晓龙
戴志飞
ZENG Wen-Long;WANG Meng-Xuan;LIANG Xiao-Long;DAI Zhi-Fei(Department of Biomedical Engineering,College of Engineering,Peking University,Beijing 100871,China;Ultrasound Department,Peking University Third Hospital,Beijing 100191,China)
出处
《生物化学与生物物理进展》
SCIE
CAS
CSCD
北大核心
2018年第8期808-820,共13页
Progress In Biochemistry and Biophysics
基金
国家重大科研仪器研制项目(81727803)
国家重点研发计划纳米科技专项(2016YFA0201400)资助项目~~
关键词
热应变成像
超声
定向能量源
组织表征
温度监测
组织运动
thermal strain imaging
ultrasound
directed-energy source
tissue characterization
temperaturemonitoring
tissue motion