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PET影像中自动提取脑功能区的研究(英文) 被引量:4

Automatic extraction of functional area of brain in positron emission tomography images
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摘要 背景:正电子发射断层成像(positronemissiontomography,PET)是一种能获取放射性示踪剂在活体中分布密度的定量图像断层显像技术。利用PET图像研究脑功能常用感兴趣区法,但随机误差大;而扫描探针显微镜(scanningprobemicroscope,SPM)方法不适用于分析特定功能区。目的:建立从PET影像中自动提取脑部功能区的方法。设计:随机对照研究。地点和对象:健康志愿者共28例,来自于上海第二医科大学附属瑞金医院,男、女各14例,年龄为12~81岁。将志愿者随机分为光线刺激组和视觉屏蔽组,各为14例。干预:光刺激组在睁眼、静息状态下行PET检查,视觉屏蔽组在带眼罩、静息状态下行PET检查。主要观察指标:将PET脑部图像非线性配准于Talairach图谱,根据各功能区的坐标,提取出功能区,分析Broadmann17区和邻近区域的放射性计数值。结果:光刺激试验结果显示志愿者戴眼罩组与光刺激组的活动相比较,按α=0.05的检验水准进行进行两组间t检验,两组间Broad-mann17区放射性计数值差异有显著性意义(左脑P=0.0055;右脑P=0.0181),其他功能区差异无显著性意义。结论:基于图谱自动从PET图像中提取功能区的方法是有效的。 BACKGROUND:Positron emission tomography(PET) is a tomography imaging of quanti tative images technique that enables distributed density of a radioactive tracer in vivo to be obtained.The region of interesting method(ROI) is commonly used t o analyze brain function by PET image,but which may cause random errors.Scanning probe microscope(SPM) is not applicable to analyze the particular functional re gions of the image data. OBJECTIVE:To establish a method that can automatically extract the brain funct ional area from PET image. DESIGN:A randomly controlled study. SETTING and PARTICIPANTS:A total of 28 healthy volunteers(14 males,14 females) aged from 12 to 81 years old, who came from the Affiliated Ruijin Hospital of t he Second Medical University of Shanghai.The volunteers were randomly divided in to light stimulation group and visual shield group with 14 in each. INTERVENTIONS:The light stimulation group was examined with PET under the stat e of eyes opened and rest.The visual shield group was examined under the state o f eyes patched and rest. MAIN OUTCOME MEASURES:PET brain image was registered to the Talairach Atlas no nlinearly.The functional areas were extracted in terms of the coordinates,and th e radioactive counts of Broadmann 17 area and the other neighbor functional area s were analyzed. RESULTS:The Broadmann17 area had statistical significance in radioactive count s(Left cerebrum P=0.005 5;Right cerebrum P=0.018 1), and other functional areas had non-significant difference(P< 0.01),t-test between two groups(α=0.05) was done. CONCLUSION:The method of automatic functional area extraction in PET images,wh ich is based on the Talairch Atlas,is proved to be effective.
作者 张剑戈 郭万华 王成 江旭峰
机构地区 上海第二医科大学生物医学工程教研室 瑞金医院核医学科
出处 《中国临床康复》 CSCD 2004年第22期4632-4633,共2页 Chinese Journal of Clinical Rehabilitation
关键词 图像处理 计算机辅助 体层摄影术 发射型计算机
分类号 R74 [医药卫生—神经病学与精神病学]
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参考文献9

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同被引文献22

  • 1[1]Siebner HR, Limmer C, Peinemann A. Long-Term Consequences of Switching handedness: A Positron Emission Tomography Study on handwriting in "Converted" Left-Handers. J Neuroscience 2002; 7:2816-25
  • 2[2]Fox PT. Spatial normalization origins: Objectives, applications, and alternatives. Human Brain Mapping 1995; 3:161 -4
  • 3[3]Talairach J, Tournoux P. Coplanar stereotaxic atlas of the human brain. New York: Georg Thieme Verlag 1988:31 -6
  • 4[5]Wells WM, Viola P, Kikinis R, et al. Multi-modal volume registration by Maximization of mutual information. Medical Image Analysis 1996; 1:35 -51
  • 5[6]Ashburner J, Friston KJ. Voxel-based morphometry-the methods. Neurolmage 2000; 11:805 -21
  • 6[7]Victor M, Allan HR. Adams and Victor's principles of neurology. 7th ed. McGraw-Hill 2001: 47-67
  • 7Siebner HR, Limmer C, Peinemann A. Long-Term Consequences of Switching handedness: A Positron Emission Tomography Study on handwriting in "Converted" Left-Handers. J Neuroscience 2002; 7:2816-25.
  • 8Fox PT. Spatial normalization origins: Objectives, applications, and alternatives. Human Brain Mapping 1995; 3:161 -4.
  • 9Talairach J, Tournoux P. Coplanar stereotaxic atlas of the human brain. New York: Georg Thieme Verlag 1988:31 -6.
  • 10Wells WM, Viola P, Kikinis R, et al. Multi-modal volume registration by Maximization of mutual information. Medical Image Analysis 1996; 1:35 -51.

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中国临床康复
2004年 第22期

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