数理医药学杂志
數理醫藥學雜誌
수리의약학잡지
JOURNAL OF MATHEMATICAL MEDICINE
2015年
1期
1-5,6
,共6页
蔡洁%周珂%熊刚强%陈兵
蔡潔%週珂%熊剛彊%陳兵
채길%주가%웅강강%진병
DARTEL%阿兹海默症%轻度认知功能障碍%磁共振成像%灰质%白质%基于体素的形态学分析
DARTEL%阿玆海默癥%輕度認知功能障礙%磁共振成像%灰質%白質%基于體素的形態學分析
DARTEL%아자해묵증%경도인지공능장애%자공진성상%회질%백질%기우체소적형태학분석
DARTEL%alzheimer’s disease%mild cognitive impairment%magnetic resonance imaging%gray matter%white matter%voxel-based morphometry
目的:利用MRI图像研究轻度认知功能障碍(MCI)、轻度阿尔茨海默病(AD)患者和健康对照组(HC)两两组间灰质和白质体积改变的特点。方法:利用DARTEL算法对14例AD患者(AD组)、21例MCI患者(MCI组)及23例健康对照组(HC组)的MRI图像(数据均来于于ADNI数据库)进行预处理,再对MCI组、AD组和HC组的全脑灰质和白质体积进行基于体素的统计学比较分析。结果:灰质变化:与HC组比较,AD组的双侧海马、海马旁回、杏仁核、丘脑、颞中回、尾状核及右侧岛叶、梭状回、前扣带皮层、舌回、内嗅皮层、左侧豆状壳核和顶下小叶等结构灰质体积萎缩。MCI组右侧海马、海马旁回、杏仁核、楔前叶、额上回、双侧额中回和豆状壳核等结构的灰质体积萎缩。AD组相较于MCI组在右侧海马、丘脑、楔叶的灰质体积萎缩。白质变化:与HC组比较,AD组双侧Extra-Nuclear、Sub-Gyral、胼胝体、前扣带回和右侧海马旁回白质体积萎缩。MCI组双侧海马旁回、右侧丘脑、Extra-Nuclear和左侧梭状回白质体积萎缩。AD组相较于MCI组在双侧Sub-Gyral、右侧前扣带回、左侧中央后回白质体积萎缩。结论:基于体素的MRI形态学测量能够客观揭示MCI和AD早期阶段的脑灰质和白质结构萎缩,对于AD的早期诊断和监测MCI向AD的转变提供了很好的依据和方法。
目的:利用MRI圖像研究輕度認知功能障礙(MCI)、輕度阿爾茨海默病(AD)患者和健康對照組(HC)兩兩組間灰質和白質體積改變的特點。方法:利用DARTEL算法對14例AD患者(AD組)、21例MCI患者(MCI組)及23例健康對照組(HC組)的MRI圖像(數據均來于于ADNI數據庫)進行預處理,再對MCI組、AD組和HC組的全腦灰質和白質體積進行基于體素的統計學比較分析。結果:灰質變化:與HC組比較,AD組的雙側海馬、海馬徬迴、杏仁覈、丘腦、顳中迴、尾狀覈及右側島葉、梭狀迴、前釦帶皮層、舌迴、內嗅皮層、左側豆狀殼覈和頂下小葉等結構灰質體積萎縮。MCI組右側海馬、海馬徬迴、杏仁覈、楔前葉、額上迴、雙側額中迴和豆狀殼覈等結構的灰質體積萎縮。AD組相較于MCI組在右側海馬、丘腦、楔葉的灰質體積萎縮。白質變化:與HC組比較,AD組雙側Extra-Nuclear、Sub-Gyral、胼胝體、前釦帶迴和右側海馬徬迴白質體積萎縮。MCI組雙側海馬徬迴、右側丘腦、Extra-Nuclear和左側梭狀迴白質體積萎縮。AD組相較于MCI組在雙側Sub-Gyral、右側前釦帶迴、左側中央後迴白質體積萎縮。結論:基于體素的MRI形態學測量能夠客觀揭示MCI和AD早期階段的腦灰質和白質結構萎縮,對于AD的早期診斷和鑑測MCI嚮AD的轉變提供瞭很好的依據和方法。
목적:이용MRI도상연구경도인지공능장애(MCI)、경도아이자해묵병(AD)환자화건강대조조(HC)량량조간회질화백질체적개변적특점。방법:이용DARTEL산법대14례AD환자(AD조)、21례MCI환자(MCI조)급23례건강대조조(HC조)적MRI도상(수거균래우우ADNI수거고)진행예처리,재대MCI조、AD조화HC조적전뇌회질화백질체적진행기우체소적통계학비교분석。결과:회질변화:여HC조비교,AD조적쌍측해마、해마방회、행인핵、구뇌、섭중회、미상핵급우측도협、사상회、전구대피층、설회、내후피층、좌측두상각핵화정하소협등결구회질체적위축。MCI조우측해마、해마방회、행인핵、설전협、액상회、쌍측액중회화두상각핵등결구적회질체적위축。AD조상교우MCI조재우측해마、구뇌、설협적회질체적위축。백질변화:여HC조비교,AD조쌍측Extra-Nuclear、Sub-Gyral、변지체、전구대회화우측해마방회백질체적위축。MCI조쌍측해마방회、우측구뇌、Extra-Nuclear화좌측사상회백질체적위축。AD조상교우MCI조재쌍측Sub-Gyral、우측전구대회、좌측중앙후회백질체적위축。결론:기우체소적MRI형태학측량능구객관게시MCI화AD조기계단적뇌회질화백질결구위축,대우AD적조기진단화감측MCI향AD적전변제공료흔호적의거화방법。
Objective: To study the pattern of volume changes of the whole brain’s gray matter and whiter matter within three groups:Healthy controls, the patients with Alzheimer’s desease (AD), Mild cognitive impairment (MCI). Methods: Fourteen patients with AD, twenty-one patients with MCI and twenty-three normal ageing volun-teers as control subjects from ADNI database are enrolled in the study. Gray volume and White volume difference of the whole brain were assessed using DARTEL method to make voxel-based morphometric comparison within three groups. Results: Changes of gray matter: The volume of bilateral hippocampus, parahippocampal gyrus, amygdala, thalamus, temporal_Mid, caudate, and right insula, fusiform, anterior cingulate cortex, lingual,entorhinal cortex, and left putamen, inferior parietal, etc. in the AD patient group is significantly smaller than that in the control group. The volume of right hippocampus, parahippocampal gyrus, amygdala, precuneus, inferior frontal gyrus, and bilateral middle frontal gyrus, putamen, etc. in the MCI patient group is significantly smaller than that in control group. The volume of right hippocampus , thalamus, Cuneus, etc. in the AD patient group is significantly smaller than that in MCI patient group.Changes of white matter:The volume of bilateral extra-nuclear, sub-gyral, corpus callosum, ante-rior cingulate cortex, and right parahippocampal gyrus, etc. is smaller in the AD patient group is significantly small-er than that in the control group. The volume of right parahippocampal gyrus, thalamus, Extra-Nuclear, and left fusiform, etc. in the MCI patient group is significantly smaller than that in control group. The volume of bilateral sub-gyral, right anterior cingulated, left postcentral etc. in the AD patient group is significantly smaller than that in MCI patient group.Conclusions: VBM can reveal widespread volumetric reduction of gray matter and white matter in AD and MCI with the advantage of objectivity. It is helpful in the early diagnosis of AD and is helpful to monitor the convertion from MCI to probable AD.
