中国医学影像技术
中國醫學影像技術
중국의학영상기술
CHINESE JOURNAL OF MEDICAL IMAGING TECHNOLOGY
2010年
3期
439-443
,共5页
伊慧明%周媛%张权%张翀%何雅娜%陈静%蒋田仔%张云亭
伊慧明%週媛%張權%張翀%何雅娜%陳靜%蔣田仔%張雲亭
이혜명%주원%장권%장충%하아나%진정%장전자%장운정
岛叶%词语联想%正激活%负激活%功能连接
島葉%詞語聯想%正激活%負激活%功能連接
도협%사어련상%정격활%부격활%공능련접
Insula%Word generation%Activation%Deactivation%Functional connectivity
目的 采用功能磁共振成像(fMRI)研究岛叶在执行词语联想任务时的激活状态,分析岛叶不同部位在语言功能中的作用.方法 对28名(男15名,女13名)健康被试者行fMRI研究,试验内容为组块设计的词语联想任务和静息态扫描.采用SPM 5和REST 1.3软件进行数据处理和统计分析.计算岛叶前部和后部与全脑其他体素之间的功能连接系数,并比较功能连接的差异.结果 双侧岛叶前部为正激活脑区,后部为负激活脑区.与左侧岛叶前部有功能连接的区域包括右侧岛叶前部、右侧岛叶后部、辅助运动区(SMA)、左侧颞上回、左侧额中回、左侧额上回、左侧顶下小叶、中扣带回、右侧纹状体和右侧额下回.与左侧岛叶后部有功能连接的区域包括右侧岛叶后部、左侧岛叶前部、右侧颞上回、中扣带回、右侧中央前回及右侧纹状体.与右侧岛叶前部有功能连接的区域包括SMA、左侧额下回、右侧顶下小叶、左侧顶下小叶、左侧颞上回、右侧中央前回、右侧纹状体、中扣带回、左侧额中回、左侧纹状体、右侧额中回、右侧额下回及左侧颞横回.与右侧岛叶后部有功能连接的区域包括右侧中央前回、左侧颞上回、左侧岛叶前部、左侧岛叶后部、右侧缘上回及左侧扣带回.结论 岛叶前部与后部的功能连接区域有一定差异,分别以不同方式参与语言任务的完成,左侧岛叶前部在语言功能中的作用可能更为重要.
目的 採用功能磁共振成像(fMRI)研究島葉在執行詞語聯想任務時的激活狀態,分析島葉不同部位在語言功能中的作用.方法 對28名(男15名,女13名)健康被試者行fMRI研究,試驗內容為組塊設計的詞語聯想任務和靜息態掃描.採用SPM 5和REST 1.3軟件進行數據處理和統計分析.計算島葉前部和後部與全腦其他體素之間的功能連接繫數,併比較功能連接的差異.結果 雙側島葉前部為正激活腦區,後部為負激活腦區.與左側島葉前部有功能連接的區域包括右側島葉前部、右側島葉後部、輔助運動區(SMA)、左側顳上迴、左側額中迴、左側額上迴、左側頂下小葉、中釦帶迴、右側紋狀體和右側額下迴.與左側島葉後部有功能連接的區域包括右側島葉後部、左側島葉前部、右側顳上迴、中釦帶迴、右側中央前迴及右側紋狀體.與右側島葉前部有功能連接的區域包括SMA、左側額下迴、右側頂下小葉、左側頂下小葉、左側顳上迴、右側中央前迴、右側紋狀體、中釦帶迴、左側額中迴、左側紋狀體、右側額中迴、右側額下迴及左側顳橫迴.與右側島葉後部有功能連接的區域包括右側中央前迴、左側顳上迴、左側島葉前部、左側島葉後部、右側緣上迴及左側釦帶迴.結論 島葉前部與後部的功能連接區域有一定差異,分彆以不同方式參與語言任務的完成,左側島葉前部在語言功能中的作用可能更為重要.
목적 채용공능자공진성상(fMRI)연구도협재집행사어련상임무시적격활상태,분석도협불동부위재어언공능중적작용.방법 대28명(남15명,녀13명)건강피시자행fMRI연구,시험내용위조괴설계적사어련상임무화정식태소묘.채용SPM 5화REST 1.3연건진행수거처리화통계분석.계산도협전부화후부여전뇌기타체소지간적공능련접계수,병비교공능련접적차이.결과 쌍측도협전부위정격활뇌구,후부위부격활뇌구.여좌측도협전부유공능련접적구역포괄우측도협전부、우측도협후부、보조운동구(SMA)、좌측섭상회、좌측액중회、좌측액상회、좌측정하소협、중구대회、우측문상체화우측액하회.여좌측도협후부유공능련접적구역포괄우측도협후부、좌측도협전부、우측섭상회、중구대회、우측중앙전회급우측문상체.여우측도협전부유공능련접적구역포괄SMA、좌측액하회、우측정하소협、좌측정하소협、좌측섭상회、우측중앙전회、우측문상체、중구대회、좌측액중회、좌측문상체、우측액중회、우측액하회급좌측섭횡회.여우측도협후부유공능련접적구역포괄우측중앙전회、좌측섭상회、좌측도협전부、좌측도협후부、우측연상회급좌측구대회.결론 도협전부여후부적공능련접구역유일정차이,분별이불동방식삼여어언임무적완성,좌측도협전부재어언공능중적작용가능경위중요.
Objective To study the activated status of insula during the performance of word generation task, and to explore the function of different part of insula with functional MRI (fMRI). Methods Twenty-eight subjects were recruited in this study (male 15, female 13), all of them underwent block-designed fMRI with word generation tasks and resting-state scan. SPM 5 and REST 1.3 were used to process the data. Bilateral anterior insula and posterior insula were selected as seeds to calculate the connectivity coefficiency with other voxels, and differences between the anterior and the posterior insula were compared. Results Bilateral anterior insula was significantly activated, while bilateral posterior insula was significantly deactivated. The functional connectivity areas with left anterior insula included right anterior insula, right posterior insula, supplementary motor area (SMA), left superior temporal gyrus, left middle frontal gyrus, left superior frontal gyrus, left inferior parietal lobe, middle cingulate gyrus, right striatum and right inferior frontal gyrus. The functional connectivity areas with left posterior insula included right posterior insula, left anterior insula, right superior temporal gyrus, middle cingulate gyrus, right precentral gyrus and right striatum. The functional connectivity areas with right anterior insula included SMA, left inferior frontal gyrus, right inferior parietal lobe, left inferior parietal lobe, left superior temporal gyrus, right precentral gyrus, right striatum, middle cingulate gyrus, left middle frontal gyrus, left striatum, right middle frontal gyrus, right inferior frontal gyrus and left transverse temporal gyrus. The functional connectivity areas with right posterior insula included right precentral gyrus, left superior temporal gyrus, left anterior insula, left posterior insula, right supramarginal gyrus and middle cingulate gyrus. Conclusion Anterior insula and posterior insula are functionally connected with different areas, and concerned with the language function in different manners. Left lateral anterior insula may play an important role in the language function.