磁共振成像
磁共振成像
자공진성상
Chinese Journal of Magnetic Resonance Imaging
2015年
11期
860-865
,共6页
张慧%王梦星%张凯华%张记磊%孟卫霞%杜小霞
張慧%王夢星%張凱華%張記磊%孟衛霞%杜小霞
장혜%왕몽성%장개화%장기뢰%맹위하%두소하
儿童青少年%反应抑制%磁共振成像%额下回%发育%错误监测
兒童青少年%反應抑製%磁共振成像%額下迴%髮育%錯誤鑑測
인동청소년%반응억제%자공진성상%액하회%발육%착오감측
Children and adolescents%Response inhibition%Magnetic resonance imaging%Inferior frontal gyrus%Development%Error processing
目的:运用功能MRI (functional magnetic resonance imaging,fMRI)技术以及经典实验范式Go/NoGo任务,探讨儿童青少年运动反应抑制(motor response inhibition)与错误监测(error processing)能力的发展。材料与方法42名儿童青少年(8~17岁)在执行Go/NoGo任务的同时,进行fMRI数据采集。使用SPSS和SPM8软件进行数据分析,并提取反应抑制关键脑区额下回与年龄作相关分析。结果随着年龄的增长,反应时间缩短,反应正确率提高。fMRI数据表明:对于成功反应抑制,在8~15岁期间,额下回激活强度与年龄呈显著正相关。然而,青春期后期额下回激活强度增加趋于平缓。对于错误监测,右侧额下回激活强度与年龄呈显著正相关。结论这些数据表明,额下回是反应抑制重要脑区之一,其在青春期前期随年龄而逐渐发育,青春期后期发育趋于平缓而逐渐成熟,接近成人水平。
目的:運用功能MRI (functional magnetic resonance imaging,fMRI)技術以及經典實驗範式Go/NoGo任務,探討兒童青少年運動反應抑製(motor response inhibition)與錯誤鑑測(error processing)能力的髮展。材料與方法42名兒童青少年(8~17歲)在執行Go/NoGo任務的同時,進行fMRI數據採集。使用SPSS和SPM8軟件進行數據分析,併提取反應抑製關鍵腦區額下迴與年齡作相關分析。結果隨著年齡的增長,反應時間縮短,反應正確率提高。fMRI數據錶明:對于成功反應抑製,在8~15歲期間,額下迴激活彊度與年齡呈顯著正相關。然而,青春期後期額下迴激活彊度增加趨于平緩。對于錯誤鑑測,右側額下迴激活彊度與年齡呈顯著正相關。結論這些數據錶明,額下迴是反應抑製重要腦區之一,其在青春期前期隨年齡而逐漸髮育,青春期後期髮育趨于平緩而逐漸成熟,接近成人水平。
목적:운용공능MRI (functional magnetic resonance imaging,fMRI)기술이급경전실험범식Go/NoGo임무,탐토인동청소년운동반응억제(motor response inhibition)여착오감측(error processing)능력적발전。재료여방법42명인동청소년(8~17세)재집행Go/NoGo임무적동시,진행fMRI수거채집。사용SPSS화SPM8연건진행수거분석,병제취반응억제관건뇌구액하회여년령작상관분석。결과수착년령적증장,반응시간축단,반응정학솔제고。fMRI수거표명:대우성공반응억제,재8~15세기간,액하회격활강도여년령정현저정상관。연이,청춘기후기액하회격활강도증가추우평완。대우착오감측,우측액하회격활강도여년령정현저정상관。결론저사수거표명,액하회시반응억제중요뇌구지일,기재청춘기전기수년령이축점발육,청춘기후기발육추우평완이축점성숙,접근성인수평。
Objective:To investigate the development of motor response inhibition and error processing abilities in children and adolescents using functional magnetic resonance imaging (fMRI) in combination with a Go/NoGo task. Materials and Methods: Forty-two children and adolescents, ranging in age from 8 to 17, took part in this experiment, while behavioral and fMRI data were collected. The data were analyzed using SPM8 and SPSS, and then correlation analysis was done between age and the inferior frontal gyrus, a key area for motor response inhibition. Results:The results showed that reaction time was decreased with age, while accuracy was increased with age during the Go/NoGo task. We investigated that the activation of the inferior frontal gyrus was increased signiifcantly with age in 8—15 year-old subjects during response inhibition. Furthermore, we observed that the activation of the inferior frontal gyrus reached a peak platform in the late adolescence. And the activation of right inferior frontal gyrus was increased signiifcantly with age during error processing. Conclusions:These data suggest that the inferior frontal gyrus plays an important role in motor response inhibition. The inferior frontal gyrus may develop with age in early adolescence, and then reach a peak platform in late adolescence, when it is mature and close to adult level.