1) magnetic inductive hyperthermia
肿瘤磁感应热疗
1.
Objective: The objective of this paper is to research the biocompatibility of self-prepared gilded Ni-Cu thermoseed, which has the potential application in tumor magnetic inductive hyperthermia.
结论:从实验目前的研究结果来看,自制的镀金镍-铜热籽具有良好的生物相容性,在肿瘤磁感应热疗方面具有良好的应用前景。
2) hyperthermia treatment of tumor
肿瘤磁热治疗
3) magnetic-induction hyperthermia
磁感应热疗
1.
At the present, the study on tumor magnetic-induction hyperthermia is very hot, and that magnetic-induction hyperthermia treatment planning system is important content, its theory and technology including medical image standard, image processing, computer graphics, visualization, biomedicine, software engineering and so on.
针对已研制的磁感应热疗样机系统,研究适用其使用的治疗计划系统,就其关键技术和计划理论包括医学影像存储与通信标准DICOM3。
2.
At the present, the study on magnetic-induction hyperthermia is a important branch of tumor hyperthermia method, and that clinical hyperthermia facility development as the research platform is a important contents, its theory and technology including medical image standard, image processing, biomedicine, software engineering, information technology and automatization, and so on.
本论文针对国内首次研制成功的磁感应热疗临床机系统,就其关键技术和理论包括励磁电源设计、谐振电容与电感结构设计、磁芯设计以及电控系统设计等作了详细地阐述、分析和相关实验。
4) tumor hyperthermia
肿瘤热疗
1.
Preparation and characterization of Mn-Zn ferrite nanoparticles for tumor hyperthermia;
肿瘤热疗用锰锌铁氧体纳米粒的制备及表征
2.
Preparation and characterization of Mn-Zn ferrite magnetic nanoparticles for tumor hyperthermia;
肿瘤热疗用锰锌铁氧体磁性纳米粒的制备及表征
3.
Preparation and characterization of Fe_3O_4 nano-magnetic particles for tumor hyperthermia;
肿瘤热疗用Fe_3O_4磁性纳米粒的制备及表征
5) Hyperthermia
[英][,haipə'θə:miə] [美][,haɪpɚ'θɝmɪə]
肿瘤热疗
1.
Development of thermal dosimeter for hyperthermia;
肿瘤热疗热剂量仪的研制
2.
Applied Study of Thermal Dosimeter for Hyperthermia;
肿瘤热疗热剂量仪的应用研究
3.
Study on Method and Key Technique of Tissue Temperature Estimation in Hyperthermia;
肿瘤热疗中组织温度场测量方法及关键技术研究
6) Hyperthermic oncology
肿瘤热疗
1.
WT5”BZ]The concept of effective therapeutic volume (defined as the volume in which temperatures are in the range of 41~45 ℃) is offen used to test the heating properties in the clinics of hyperthermic oncology.
模拟计算结果与相应的等效肌肉体模实验及热疗临床经验相符 ,将为肿瘤热疗临床常用的微波偶极子辐射器的研制和治疗方案制定提供依
2.
During the hyperthermic oncology, the heat distribution which means the specific absorption rate (SAR) and temperature patterns show the heating abilities of the hyperthermic applicators.
本文以比吸收率和温度分布图形说明三维成像技术在肿瘤热疗中的应用。
补充资料:磁感应强度
磁感应强度 magnetic induction 描述磁场强弱和方向的基本物理量。是矢量,常用符号B表示。 点电荷q以速度v在磁场中运动时受到力f 的作用。在磁场给定的条件下,f的大小与电荷运动的方向有关 。当v 沿某个特殊方向或与之反向时,受力为零;当v与此 特殊方向垂直时受力最大,为fm。fm与|q|及v成正比,比值 与运动电荷无关,反映磁场本身的性质,定义为磁感应强度的大小,即。B的方向定义为:由正电荷所受最大力fm的方向转向电荷运动方向 v 时 ,右手螺旋前进的方向 。定义了B之后,运动电荷在磁场 B 中所受的力可表为 f = qv×B,此即洛伦兹力公式。 除利用洛伦兹力定义B外,也可以根据电流元Idl在磁场中所受安培力df=Idl×B来定义B,或根据磁矩m在磁场中所受力矩M=m×B来定义B,三种定义,方法雷同,完全等价。 在国际单位制(SI)中,磁感应强度的单位是特斯拉,简称特(T)。在高斯单位制中,磁感应强度的单位是高斯(Gs ),1T=104Gs。由于历史的原因,与电场强度E对应的描述磁场的基本物理量被称为磁感应强度B,而另一辅助量却被称为磁场强度H,名实不符,容易混淆。通常所谓磁场,均指的是B。 |
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参考词条