Rempp Hansjörg, Martirosian Petros, Boss Andreas, Clasen Stephan, Kickhefel Antje, Kraiger Markus, Schraml Christina, Claussen Claus, Pereira Philippe, Schick Fritz
Diagnostic and Interventional Radiology, University Hospital of Tübingen, Tübingen, Germany.
MAGMA. 2008 Sep;21(5):333-43. doi: 10.1007/s10334-008-0139-x. Epub 2008 Sep 2.
The objective of this study was to evaluate breathing influence on precision in temperature determination by using the proton resonance frequency (PRF) shift method depending on the location in abdominal organs at 0.2 and 1.5 T.
Phase images were acquired with gradient echo sequences in a total of 12 volunteers at 1.5 and 0.2 T. Different examination protocols were performed (each 8 measurements with (1) in-/expiration, (2) free breathing, (3) under breathhold, (4) with breathing belt triggering, and (5) with navigator triggering (integrated in MR signal acquisition). Regions of interest were placed on liver and kidneys, and the resulting phase differences between the measurements were transformed into corresponding temperature differences.
Precision significantly varied depending on the liver segment or location in the kidney. Gating techniques were found better than breathhold techniques and clearly better than non-gated examinations. The most precise approach reached a standard deviation of 2.0 degrees C under continuous breathing when navigator gating was used at 1.5 T.
PRF temperature measurement is feasible even for moving organs in the abdomen at 0.2 and 1.5 T. The location of the target region and the required precision of the measurements should direct the choice of examination mode.
本研究的目的是评估在0.2和1.5T磁场强度下,根据腹部器官位置,利用质子共振频率(PRF)偏移法测定温度时呼吸对精度的影响。
在1.5T和0.2T磁场强度下,对12名志愿者采用梯度回波序列采集相位图像。执行了不同的检查方案(每种方案进行8次测量,分别为(1)吸气/呼气、(2)自由呼吸、(3)屏气、(4)呼吸带触发以及(5)导航器触发(集成于磁共振信号采集中))。在肝脏和肾脏上放置感兴趣区域,并将测量结果之间的相位差转换为相应的温度差。
精度根据肝脏节段或肾脏位置的不同有显著差异。门控技术优于屏气技术,且明显优于非门控检查。在1.5T磁场强度下使用导航器门控时,最精确的方法在连续呼吸情况下的标准差为2.0℃。
即使在0.2和1.5T磁场强度下,PRF温度测量对于腹部移动器官也是可行的。目标区域的位置和测量所需的精度应指导检查模式的选择。
