北京教育学院学报:自然科学版
北京教育學院學報:自然科學版
북경교육학원학보:자연과학판
Journal of Beijing Institute of Education
2011年
2期
18-23
,共6页
杜培锋%杨剑%吕胜富%钟宁
杜培鋒%楊劍%呂勝富%鐘寧
두배봉%양검%려성부%종저
静息态fMRI%低频振幅(Amplitude%of%Low%Frequency%Fluctuation,ALFF)%静息态脑区
靜息態fMRI%低頻振幅(Amplitude%of%Low%Frequency%Fluctuation,ALFF)%靜息態腦區
정식태fMRI%저빈진폭(Amplitude%of%Low%Frequency%Fluctuation,ALFF)%정식태뇌구
resting-state fMRI%ALFF%resting-state brain regions
静息态脑区的活动处于一种相对稳定的状态。但是,静息态机能性磁共振成像(functional Magnetic Resonance Imaging,fMRI)实验中,被试者可能会受到各种噪声的影响,因此,统计分析所得到的静息态脑区的活动强度和体素数都可能受此影响。为了更进一步研究静息态脑区的活动特点,分别对16名被试采集了8′14″的静息态fMRI数据,将这些数据按照时间等分为5个部分,对每个部分分别采用低频振幅方法进行分析。实验结果显示:楔前叶和后扣带皮层包含活动体素的个数随时间变化较小,处于一种相对稳定的状态;额内侧皮层和顶下小叶中活动体素个数随时间变化差异较大,处于不是很稳定的状态。实验结果表明,静息态脑区中,楔前叶和后扣带皮层对于外界噪声的干扰不敏感,额内侧皮层和顶下小叶对于外界噪声比较敏感。
靜息態腦區的活動處于一種相對穩定的狀態。但是,靜息態機能性磁共振成像(functional Magnetic Resonance Imaging,fMRI)實驗中,被試者可能會受到各種譟聲的影響,因此,統計分析所得到的靜息態腦區的活動彊度和體素數都可能受此影響。為瞭更進一步研究靜息態腦區的活動特點,分彆對16名被試採集瞭8′14″的靜息態fMRI數據,將這些數據按照時間等分為5箇部分,對每箇部分分彆採用低頻振幅方法進行分析。實驗結果顯示:楔前葉和後釦帶皮層包含活動體素的箇數隨時間變化較小,處于一種相對穩定的狀態;額內側皮層和頂下小葉中活動體素箇數隨時間變化差異較大,處于不是很穩定的狀態。實驗結果錶明,靜息態腦區中,楔前葉和後釦帶皮層對于外界譟聲的榦擾不敏感,額內側皮層和頂下小葉對于外界譟聲比較敏感。
정식태뇌구적활동처우일충상대은정적상태。단시,정식태궤능성자공진성상(functional Magnetic Resonance Imaging,fMRI)실험중,피시자가능회수도각충조성적영향,인차,통계분석소득도적정식태뇌구적활동강도화체소수도가능수차영향。위료경진일보연구정식태뇌구적활동특점,분별대16명피시채집료8′14″적정식태fMRI수거,장저사수거안조시간등분위5개부분,대매개부분분별채용저빈진폭방법진행분석。실험결과현시:설전협화후구대피층포함활동체소적개수수시간변화교소,처우일충상대은정적상태;액내측피층화정하소협중활동체소개수수시간변화차이교대,처우불시흔은정적상태。실험결과표명,정식태뇌구중,설전협화후구대피층대우외계조성적간우불민감,액내측피층화정하소협대우외계조성비교민감。
Activity of resting-state brain regions is considered to be in a relatively stable state.However,resting-state functional magnetic resonance imaging(fMRI) experiments are probably affected by various noise,the activity intensity and the numbers of voxels in resting-state activity brain regions maybe affected.This study will investigate activation characteristics of the resting-state activity brain regions,to address the issue,16 subjects participate the functional MRI experiment,8 minutes and 14 seconds scan for each subject,then,the whole fMRI time serial were divided into 5 parts,each of which was analyzed by amplitude of low frequency fluctuation(ALFF) method.The results show that the numbers of activity voxels in precuneus and posterior cingulate cortex have slight changes over time,and the two brain regions are in a relatively stable state,whereas the number of activity voxels in medial frontal cortex and inferior parietal lobule are different over time,in a unstable state.The results suggest that medial frontal cortex and inferior parietal lobule are sensitive to noise,precuneus and posterior cingulate cortex are not.
