[1]林艳,饶海冰,吴仁华.1H-MRS定量测定脑代谢物的研究[J].国际放射医学核医学杂志,2005,29(2):85-88.
 LIN Yan,RAO Hai-bing,WU Ren-hua.Investigation of quantitative measurement of brain metabolite concentration using 1H nuclear magnetic resonance spectroscopy[J].International Journal of Radiation Medicine and Nuclear Medicine,2005,29(2):85-88.
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1H-MRS定量测定脑代谢物的研究(/HTML)
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《国际放射医学核医学杂志》[ISSN:1673-4114/CN:12-1381/R]

卷:
29
期数:
2005年第2期
页码:
85-88
栏目:
放射医学
出版日期:
1900-01-01

文章信息/Info

Title:
Investigation of quantitative measurement of brain metabolite concentration using 1H nuclear magnetic resonance spectroscopy
作者:
林艳 饶海冰 吴仁华
515041 汕头, 汕头大学医学院第二附属医院放射科
Author(s):
LIN Yan RAO Hai-bing WU Ren-hua
Department of Radiology, The Second Affiliated Hospital, Shantou University Medical College, Shantou 515041, China
关键词:
磁共振氢频谱比率内标准外标准脑代谢物
Keywords:
proton magnetic resonance spectroscopyratiointernal referenceexternal referencebrainmetabolite
分类号:
R445.2
摘要:
磁共振频谱(magnetic resonance spectroscopy,MRS)是利用核磁共振基本成像原理及其化学位移和自旋耦合现象,在活体上无创伤地测定能量代谢和体内化学物的一种检测技术,为疾病诊断和治疗提供有价值的信息。长期以来,MRS分析的脑代谢物检测结果以代谢物之间的比率来表达,但不可靠,近年来应用内标准和装有标准脑代谢物的外标准来获得脑代谢物的绝对浓度。在临床MRS应用中,代谢物绝对浓度的分析较比率分析有更多优点。本文就MRS的基本原理及1H-MRS定量测定脑代谢物浓度的方法作一综述。
Abstract:
Magnetic resonance spectroscopy based on the principles of magnetic resonance, the chemi-cal shift, and spin coupling is a technique that allows examination of the metabolites and biochemical nature in vivo without the need for invasive procedures. Non-invasive detection of metabolite concentration using MR spectroscopy can provide valuable information in diagnosis and treatment of diseases. In localized brain MR spectroscopy, the measurement results of brain metabolites had often been expressed as ratios rather than as absolute concentration; however, drawbacks of ratios have been mentioned in the literature. More recently MR spectroscopists have paid attention to acquire absolute concentrations using internal reference or external reference filled with brain metabolites. Concerning metabolite analysis in clinical MR spectroscopy studies, absolute concentrations have advantages over metabolite ratios. This article reviewed the principle of MRS and its methods in quantitative measurement of brain metabolite concentrations.

参考文献/References:

1 Li BS, Wang H, Gonen O. Metabolite ratios to assumed stable creatine level may confound the quantification of proton brain MR spectroscopy[J]. Magn Reson Imaging, 2003, 21(8):923-928.
2 Vermathen P, Capizzano AA, Maudsley AA. Administration and 1H MRS detection of histidine in human brain:application to in vivo pH measurement[J]. Magn Reson Med, 2000, 43(5):665-675.
3 Tong Z, Yamaki T, Harada K, et al. In vivo quantification of the metabolites in normal brain and brain tumors by proton MR spectroscopy using water as an internal standard[J]. Magn Reson Imaging,2004, 22(7):1017-1024.
4 Silverstone PH, Donnell T, Ulrich M, et al. Dextro-amphetamine increases phosphoinositol cycle activity in volunteers:an MRS study[J]. Hum Psychopharmacol, 2002,17(7):321-327.
5 Wu RH, Donnell T, Ulrich M, et al. Brain choline concentrations may not be altered in euthymic bipolar disorder patients chronically treated with either lithium or sodium valporate[J]. Ann Gen Hosp Psychiatry, 2004, 3(1):13.
6 Shen J, Douglas L, Rothman, et al. In vivo GABA editing using a novel doubly selective multiple quantum filter[J]. Magn Reson Med,2002, 47(3):447-454.
7 Donnell T, Rotzinger S, Nakashima TT, et al. Chronic lithium and sodium valproate both decrease the concentration of myo-inositol and increase the concentration of inositol monophosphates in rat brain[J]. Eur Neuropsychopharmacol, 2003, 13(3):199-207.
8 Sager TN, Laursen H, Fink-Jensen A, et al. N-acetylaspartate distribution in rat brain striatum during acute brain ischemia[J]. J Cereb Blood Flow Metab, 1999, 19(2):164-172.
9 Wu RH, Silverstone P, Rao HB, et al. Quantitative measurement of brain metabolite concentrations using PRESS sequence at 3T[J].Radiology, 2002, 225(p):667.
10 Kimura T, Sako K, Gotoh T, et al. In vivo single-voxel proton MR spectroscopy in brain lesion with ring-like enhancement[J]. NMR Biomed, 2001, 14(6):339-349.
11 Simister RJ, Mclean MA, Barker GJ, et al. Proton MRS reveals frontal lobe metabolite abnormalities in idiopathic generalized epilepsy[J]. Neurology, 2003, 61(7):897-902.
12 Seeger U, Klose U, Mader I, et al. Parameterized evaluation of macromolecules and lipids in proton MR spectroscopy of brain diseases[J]. Magn Reson Med, 2003, 49(1):19-28.
13 Mclean MA, Woermann FG, Barker GJ, et al. Quantitative analysis of short echo time 1H-MRSI of cerebral gray and white matter[J].Magn Reson Med, 2000, 44(3):401-411.
14 Hajek M, Burian M, Dezortova M. Application of LC-model for quality control and quantitative in vivo 1H-MR spectroscopy by short echo time STEAM sequence[J]. Magn Reson Materials Phy Bio 1 Med,2000, 10(1):6-17.
15 Mclean MA, Busza AL, Wald LL, et al. In Vivo GABA+ Measurement at 1.5T using a PRESS-localized double quantum filter[J].Magn Reson Med, 2002, 48(2):233-241.
16 Tyson RL, Gallagher C, Sutherland GR. 13C-labeled substrates and the cerebral metabolic compartmentalization of acetate and lactate[J]. Brain Res, 2003, 992(1):43-52.
17 Gruetter R, Seaquist ER, Kim SG, et al. Localized in vivo 13C-NMR of glutamate metabolism in the human brain:initial results at 4 tesla[J]. Dev Neurosci, 1998, 20(4-5):380-388.

备注/Memo

备注/Memo:
收稿日期:2004-11-30。
基金项目:国家自然科学基金资助项目(30270379/C010511)
更新日期/Last Update: 1900-01-01