摘要
本文以线性响应理论为基础,在有限元软件COMSOL中建立了基于大鼠肝癌的磁感应热疗(MFH)模型。通过对四氧化三铁(Fe_3O_4)、钴化铁(FeCo)、面心立方晶格铂化铁(fccFePt)和L10相铂化铁(L10FePt)共4种磁介质参数的分析,研究了弛豫机制下,磁介质半径的变化对损耗功率和温度场的影响。同时,提出了针对不同磁介质参数的优化方法,并对4种磁介质的适用场合给出建议。本文通过尽可能地提高磁介质的损耗功率,可以降低治疗时所需的磁介质剂量,从而减小对肿瘤组织周围正常组织的不良影响。本文结果可为应用于磁感应热疗的磁介质制备提供参考。
In this paper,we established magnetic fluid hyperthermia(MFH)model for rat tumor using the finite element software COMSOL based on the linear response theory.By analyzing four kinds of magnetic medium within relaxation mechanism,such as Fe3O4、FeCo、fccFePt and L10 FePt,we studied the influence of the change of magnetic medium radius on dissipation power and temperature field,respectively.At the same time,the optimization method for the parameters of several magnetic medium is proposed,and the applications of four kinds of magnetic medium are given as well.By increasing the dissipation power of the magnetic medium as much as possible,the dose of magnetic medium used in the treatment can be reduced,meanwhile,the adverse effects on health tissue surrounding the tumor will be minimized.The conclusions of this paper can provide reference for magnetic medium preparation applied to MFH.
作者
屈英佼
逯迈
刘曦
林燕平
QU Yingjiao;LU Mai;LIU Xi;LIN Yanping(Key Laboratory of Optoelectronic Technology and Intelligent Control of Ministry of Education,Lanzhou Jiaotong University,Lanzhou 730070,P.R.China)
出处
《生物医学工程学杂志》
EI
CAS
CSCD
北大核心
2019年第2期206-212,共7页
Journal of Biomedical Engineering
基金
国家自然科学基金资助项目(51867014
51567015
11564024)
关键词
肿瘤
磁感应热疗
磁介质
有限元分析
tumor
magnetic fluid hyperthermia
magnetic medium
finite element analysis
