期刊文献+

探讨符合线路SPECT配置针孔准直器进行小动物高能成像的可行性 被引量:1

Discussion on the Feasibility of Small Animal High-Energy Imaging Using Coincidence SPECT with a Pinhole Collimator
下载PDF
导出
摘要 目的探讨符合线路SPECT配置针孔准直器进行小动物高能成像的可行性。方法 1点源试验。将14.8 MBq的99Tcm、131I和18F三种核素的点源分别置于针孔准直器表面中心轴线不同距离处,采集点源图像并计算分辨率;2小鼠成像。首先采集小鼠的99Tcm和18F-FDG平面图像,次日采集小鼠的18F-FDG符合线路断层融合影像。结果 99Tcm的点源图像清晰、无伪影;131I和18F点源周围均存在少量透射和散射伪影,图像边缘有较明显的环形透射伪影。三种核素点源分辨率均随距离增加而下降,在距离探头30 mm位置,99Tcm、131I和18F的点源分辨率FWHM分别为4.3、5.2、7.4 mm,分辨率FWTM分别为7.1、10.1、14.5 mm。其中,18F分辨率FWHM为7.2 mm,优于SPECT的系统分辨率10 mm。经过模拟放大2.5倍后,小鼠的高、低能影像均较清晰,环形伪影位于有效视野之外。小鼠符合线路18F-FDG的影像不清晰。结论在对分辨率要求不高的场合,符合线路SPECT配置低能针孔准直器进行小动物高能成像是可行的。 Objective This study was aimed to explore the feasibility of small animal high-energy imaging using coincidence SPECT(Single-Photon Emission Computerized Tomography) with a pinhole collimator.Methods First,the point sources of 14.8MBq's three radionuclides(99Tcm,131 I and 18F) were placed at different distances from the central axis of the pinhole collimator respectively.Images of point sources were acquired to calculate their resolutions.Then,99 Tcm and 18F-FDG images of mice were acquired respectively.The coincidence images of the mouse were acquired on the second day.Results The images of 99 Tcm point source were clear without artifacts; however,there were minor penetration and scattered artifacts in 131 I and 18 F images.Additionally,both images had significant circular penetration artifacts in their edges.Resolutions of 99 Tcm,131 I and 18 F were declined with the distance increased.At the distance of 30 mm from the pinhole collimator,their FWHM(Full-Widths-at-Half-Maximum) and FWTM(Full-Widths-at-Tenth-Maximum) resolutions were 4.3,5.2,7.4 mm and 7.1,10.1,14.5 mm respectively.The FWHM resolution of 18 F showed advantages over the resolution of the images acquired by SPECT.After being zoomed in 2.5 times,both the high-energy and low-energy mice images were clear with the ring artifacts outside the effective field of view.Coincidence 18F-FDG images of the mouse were not clear.Conclusion The coincidence SPECT with the lowenergy pinhole collimator can be used for small animal high-energy imaging if there was no restriction on the resolution of images.
出处 《中国医疗设备》 2015年第3期38-41,共4页 China Medical Devices
关键词 符合线路SPECT 针孔准直器 小动物成像 18F-FDG成像 coincidence single-photon emission-computerized tomography pinhole collimator small animal imaging 18F-FDG imaging
  • 相关文献

参考文献9

  • 1Mitchell GS,Cherry SR.A high sensitivity small animal SPECT system[J].Phys Med Biol,2009,54(5):1291-1305.
  • 2Kim JS,Lee JS,Im KC,et al.Performance measurement of themicroPET focus 120 scanner[J]J Nucl Med,2007,48(9):1527- 1535.
  • 3黄勇,孙明山,安里奎.伊萨吉尔雷,布鲁斯.长谷川.小动物SPECT-CT装置的研发[J].医疗设备信息,2007,22(9):4-6. 被引量:1
  • 4陈绍亮,赵军,石洪成,刘兴党,吴春英.第51届美国核医学年会概况[J].中华核医学杂志,2004,24(6):382-383. 被引量:4
  • 5孟庆乐,杨瑞,曹艳,王自正,李少华,邵国强.SPECT/CT融合显像在^(99)Tc^m-MIBI甲状腺亲肿瘤显像中的应用[J].中国医疗设备,2014,29(2):121-122. 被引量:5
  • 6马天予,周荣,吴朝霞,刘亚强,王石,金永杰.基于Monte Carlo模拟设计MicroSPECT针孔准直器[J].清华大学学报(自然科学版),2007,47(z1):933-936. 被引量:3
  • 7Rowland DJ,Cherry SR.Small-animal preclinical nuclear medicine instrumentation and methodology[J].Semin Nucl Med,2008,38(3):209-222.
  • 8Tenney CR,Tornai MP,Smith MF,et al.Uranium pinhole collimators for 511-keV photon SPECT imaging of small volumes[J].IEEE Transactions on Nuclear Science,2001,48 (4): 1483-1489.
  • 9Zeniya T,Watabe H,Aoi T,et al.Use of a compact pixellated gamma camera for small animal pinhole SPECT imaging[J].AnnNucl Med,2006,20(6):409 - 416.

二级参考文献24

  • 1陈正国,王自正,姚薇萱,王峰,曹艳,孟庆乐,李红梅.^(99m)Tc-MIBI亲肿瘤显像与甲状腺球蛋白测定判断甲状腺冷结节良恶性的价值[J].江苏医药,2005,31(4):318-318. 被引量:8
  • 2叶千春,王淑侠,乔穗宪,唐安戊,何建军.^(99)Tc^m-MIBI甲状腺显像鉴别甲状腺结节良恶性再认识[J].中华核医学杂志,2006,26(4):209-210. 被引量:16
  • 3[1]Schramm N U,Ebel G,Engeland U,et al.High-resolution SPECT using multipinhole collimation[J].IEEE Trans Nucl Sci,2003,50:315-320.
  • 4[2]Beekman F J,Vastenhouw B.Design and simulation of a high-resolution stationary SPECT system for small animals[J].Phys Med Biol,2004,49:4579-4592.
  • 5[3]Stolin A V,Majewski S,williams M B,et al.Characterization of imaging gamma detectors for use in small animal SPECT[C]//IEEE Nuclear Science Symposium Conference Record.Portland,Oregon USA:IEEE Press,2003.2085-2089.
  • 6[4]Briesmeister J F.MCNP-A General Monte Carlo N-Particle Transport Code,Version 4C[R].LA-13709-M,Los Atamos,NM:Los Alamos National Laboratory,2000.
  • 7[5]Song T Y,Choi Y,Chung Y H,et al.Optimization of pinhole collimator for stoatl animal SPECT using Monte Carlo simulation[C]//2002 IEEE NUCLEAR SCIENCE SYMPOSIUM,CONFERENCE RECORD.Norfolk,Virginia USA:IEEE Press,2003.811-815.
  • 8王荣福.核医学[M].2版.北京:北京大学医学出版社,2009:129-149.
  • 9B.H.Hasegawa,et al.,Dual-modality inaging of function and physiology[J],Acad Radio 19 (2002),pp.1305□1321.
  • 10A.Goertzen.Design of a Simultaneous Combined PET-CT Imaging System for Mouse Imaging.in HiRes 2001:High Resolution Imaging in Small Animals:Instrumentation,Applications and Animal Handling[C],September 9-11,2001.

共引文献9

同被引文献11

引证文献1

二级引证文献5

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部