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可控电磁暴露量的动物受照平台 被引量:1

In vivo animal irradiation platform with controllable electromagnetic irradiation dosimetry in animal's organs
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摘要 设计了用于射频电磁场生物效应研究的活体辐照平台。该平台包括动物器官电磁暴露量控制和微波源2个子系统。器官电磁暴露量控制系统的主要功能是,根据实验要求合理控制辐照系统使被辐照对象体内重要器官的电磁暴露剂量达到实验设定值。微波源提供功率稳定可调的辐照场。该辐照系统的主要特点是能够根据对象体内电磁暴露剂量的要求自动控制辐照场以满足实验要求,无须辐照后再作剂量分析。该辐照平台在辐照时即可知动物器官的电磁辐照剂量并可以提供电磁场均匀度较好的电磁辐照空间,将为电磁生物效应剂量学研究提供了可靠、方便的电磁辐照设备。 An in vivo animal irradiation platform was designed,which could be applied in the study on bioeffect of radio electromagnetic field.The platform consists of a control subsystem of irradiation dose in animal organ and a microwave irradiating source subsystem.The control subsystem could reasonably control the irradiation system and set the irradiation system so that the irradiation dose in animal organ reaches the experimental setting value.The microwave irradiating source subsystem could automatically control and adjust the irradiating field according to the required value of the organ irradiation dose.Using this platform,the dosimetry in animal organs could be shown in the display window during radiation experiment,the dosage analysis after radiation is not needed ; this platform also can provide uniform electromagnetic field.The platform provides reliable and convenient electromagnetic radiation equipment for the dosimetry study of electromagnetic bioeffect,which is necessary in animal experiments.
作者 张杰 王向晖 齐红新 陈树德 乔登江
机构地区 华东师范大学物理系
出处 《仪器仪表学报》 EI CAS CSCD 北大核心 2014年第4期866-871,共6页 Chinese Journal of Scientific Instrument
基金 国家973计划(2011CB503701)资助项目
关键词 动物器官电磁暴露量 活体动物 电磁辐照系统 electromagnetic irradiation dosimetry of animal's organs animal in vivo electromagnetic irradiation system
分类号 Q64 [生物学—生物物理学] TH77 [机械工程—精密仪器及机械]
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参考文献18

  • 1刘胜,张兰勇,于大泳,张利军.改进的Hilbert-Huang变换及在电磁辐射测量中的应用研究[J].仪器仪表学报,2010,31(10):2174-2179. 被引量:9
  • 2何明霞,郭帅.太赫兹波技术在药学上的应用研究[J].电子测量与仪器学报,2012,26(8):663-672. 被引量:12
  • 3MARINO A A, NILSEN E , FRILOT C. Nonlinear changes in brain electrical activity due to cell phone radiation [ J ]. Bioelectromagnetics, 2003, 24: 339-346.
  • 4VOLKOW N O, TOMASI D, WANG G J, et al. Effects of cell phone radiofrequency signal exposure on brain glucose metabolism [ J ]. Journal of American Medical Association, 2011, 305(23): 808-812.
  • 5REPACHOLI M H, LERCHL A, ROOSLI M, et al. Sys- tematic review of wireless phone use and brain cancer and other head tumors [ J ]. Bioelectromagnetics, 2012, 33 : 187-206.
  • 6ADAIR R K. Biophysical limits on athermal effects of RF and microwave radiation [ J ]. Bioelectromagnetics, 2003, 24 : 39-48.
  • 7SWICORD M , BALZANO Q. Has electromagnetic ener- gy in the band 0. 1 - 100 GHz useful medical applica- tions? A review of mechanisms and biological database of. fers dim prospects [ J ]. IEEE transactions on plasma science, 2008, 36(4): 1638-1649.
  • 8SHEEPARD A R, SWICORD M L, BALZANO Q. Quan- titative evaluations of mechanisms of radiofrequency inter- actions with biological molecules and processes [ J ]. Health physics, 2008, 95 (4) : 365-396.
  • 9JUUTILAINEN J, HOYTO A, KUMLIN T, et al. Review of possible modulation-dependent biological effects of radiofrequeney fields [ J ]. Bioeleetromagnetics, 2011, 32: 511-534.
  • 10BELYAEV I. Non-thermal biological effects of micro- waves [J]. Microwave Review, 2005, 11 (2) : 13-29.

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仪器仪表学报
2014年 第4期

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