潍坊医学院学报
濰坊醫學院學報
유방의학원학보
JOURNAL OF WEIFANG MEDICAL COLLEGE
2013年
4期
304-305
,共2页
魏秀红%王孟春%卢国华%王昊
魏秀紅%王孟春%盧國華%王昊
위수홍%왕맹춘%로국화%왕호
认知功能障碍,轻度%认知功能%磁共振波谱%感统训练
認知功能障礙,輕度%認知功能%磁共振波譜%感統訓練
인지공능장애,경도%인지공능%자공진파보%감통훈련
Mild cognitive impairment%Cognition function%Magnetic Resonance Spectrum%Sensory integration training
目的探讨感统训练对轻度认知功能障碍(MCI)老年人氢质子磁共振波谱(1H-MRS)的影响。方法将入选的16例60~70岁的MCI老年人,在课题组人员指导下进行感统训练半年,每周5d,训练前后分别进行MRI扫描,比较其N-乙酰天门冬氨酸(NAA)/肌酸(Cr),胆碱(Cho)/Cr,肌醇(mI)/Cr的差别。结果训练前后海马区NAA/Cr和mI/Cr水平有显著性差异,训练后NAA/Cr水平较训练前升高,mI/Cr水平较训练前明显降低(P<0.05);训练前后Cho/Cr水平差异无显著性(P>0.05)。结论感统训练能改变脑内海马区代谢产物的浓度,使NAA/Cr,mI/Cr改变。
目的探討感統訓練對輕度認知功能障礙(MCI)老年人氫質子磁共振波譜(1H-MRS)的影響。方法將入選的16例60~70歲的MCI老年人,在課題組人員指導下進行感統訓練半年,每週5d,訓練前後分彆進行MRI掃描,比較其N-乙酰天門鼕氨痠(NAA)/肌痠(Cr),膽堿(Cho)/Cr,肌醇(mI)/Cr的差彆。結果訓練前後海馬區NAA/Cr和mI/Cr水平有顯著性差異,訓練後NAA/Cr水平較訓練前升高,mI/Cr水平較訓練前明顯降低(P<0.05);訓練前後Cho/Cr水平差異無顯著性(P>0.05)。結論感統訓練能改變腦內海馬區代謝產物的濃度,使NAA/Cr,mI/Cr改變。
목적탐토감통훈련대경도인지공능장애(MCI)노년인경질자자공진파보(1H-MRS)적영향。방법장입선적16례60~70세적MCI노년인,재과제조인원지도하진행감통훈련반년,매주5d,훈련전후분별진행MRI소묘,비교기N-을선천문동안산(NAA)/기산(Cr),담감(Cho)/Cr,기순(mI)/Cr적차별。결과훈련전후해마구NAA/Cr화mI/Cr수평유현저성차이,훈련후NAA/Cr수평교훈련전승고,mI/Cr수평교훈련전명현강저(P<0.05);훈련전후Cho/Cr수평차이무현저성(P>0.05)。결론감통훈련능개변뇌내해마구대사산물적농도,사NAA/Cr,mI/Cr개변。
Objective To investigate the effcet of sensory integration training on H magnetic resonance spectroscopy (H-MRS) in patients with mild cognitive impairment .Methods Sixteen elderly aged 60~70 years old with MCI received sensory integration training for five days a week for six months guided by members of research group .MRI scanning was performed before and after the training in order to compare the differences of the ratios between NAA/Cr,Cho/Cr and mI/Cr.Results There were significant difference between the levels of NAA/Cr and mI/Cr in hippocampus before and after the training .NAA/Cr level after the training was higher than before ,thus mI/Cr level af-ter the training was lower than before with statistical significance (P<0.05).There were no statistical significance of Cho/Cr level before and after the training(P>0.05).Conclusion Sensory integration training can change the concentration of the metabolites in hippocampus and convert the ratios of NAA/Cr and mI/Cr.