Ehman E C, Rossman P J, Kruse S A, Sahakian A V, Glaser K J
Department of Radiology, Mayo Clinic, Rochester, MN 55905, USA.
Phys Med Biol. 2008 Feb 21;53(4):925-35. doi: 10.1088/0031-9155/53/4/007. Epub 2008 Jan 23.
Magnetic resonance elastography (MRE) has been demonstrated to have potential as a clinical tool for assessing the stiffness of tissue in vivo. An essential step in MRE is the generation of acoustic mechanical waves within a tissue via a coupled mechanical driver. Motivated by an increasing volume of human imaging trials using MRE, the objectives of this study were to audit the vibration amplitude of exposure for our IRB-approved human MRE studies, to compare these values to a conservative regulatory standard for vibrational exposure and to evaluate the applicability and implications of this standard for MRE. MRE displacement data were examined from 29 MRE exams, including the liver, brain, kidney, breast and skeletal muscle. Vibrational acceleration limits from a European Union directive limiting occupational exposure to whole-body and extremity vibrations (EU 2002/44/EC) were adjusted for time and frequency of exposure, converted to maximum displacement values and compared to the measured in vivo displacements. The results indicate that the vibrational amplitudes used in MRE studies are below the EU whole-body vibration limit, and the EU guidelines represent a useful standard that could be readily accepted by Institutional Review Boards to define standards for vibrational exposures for MRE studies in humans.
磁共振弹性成像(MRE)已被证明有潜力成为一种评估体内组织硬度的临床工具。MRE的一个关键步骤是通过耦合机械驱动器在组织内产生声机械波。鉴于使用MRE的人体成像试验数量不断增加,本研究的目的是审核我们经机构审查委员会(IRB)批准的人体MRE研究的暴露振动幅度,将这些值与振动暴露的保守监管标准进行比较,并评估该标准对MRE的适用性和影响。我们检查了来自29项MRE检查的位移数据,这些检查涉及肝脏、大脑、肾脏、乳房和骨骼肌。根据欧盟一项限制职业性全身和肢体振动暴露的指令(EU 2002/44/EC)中的振动加速度限值,针对暴露时间和频率进行了调整,转换为最大位移值,并与体内测量的位移进行比较。结果表明,MRE研究中使用的振动幅度低于欧盟全身振动限值,并且欧盟指南是一个有用标准,机构审查委员会可以很容易地接受该标准,以定义人体MRE研究的振动暴露标准。