Warrington Christopher D, Feeney Daniel A, Ober Christopher P, Jessen Carl R, Steward Susan M, Armién Aníbal G, Fletcher Thomas F
Department of Veterinary Clinical Sciences, College of Veterinary Medicine, University of Minnesota, Saint Paul, MN 55108.
Am J Vet Res. 2013 Oct;74(10):1291-303. doi: 10.2460/ajvr.74.10.1291.
To determine relative concentrations of selected major brain tissue metabolites and their ratios and lobar variations by use of 3-T proton (hydrogen 1 [(1)H]) magnetic resonance spectroscopy (MRS) of the brain of healthy dogs.
10 healthy Beagles.
3-T (1)H MRS at echo times of 144 and 35 milliseconds was performed on 5 transverse slices and 1 sagittal slice of representative brain lobe regions. Intravoxel parenchyma was classified as white matter, gray matter, or mixed (gray and white) and analyzed for relative concentrations (in arbitrary units) of N-acetylaspartate (NAA), choline, and creatine (ie, height at position of peak on MRS graph) as well as their ratios (NAA-to-choline, NAA-to-creatine, and choline-to-creatine ratios). Peak heights for metabolites were compared between echo times. Peak heights for metabolites and their ratios were correlated and evaluated among matter types. Yield was calculated as interpretable voxels divided by available lobar voxels.
Reference ranges of the metabolite concentration ratios were determined at an echo time of 35 milliseconds (NAA-to-choline ratio, 1.055 to 2.224; NAA-to-creatine ratio, 1.103 to 2.161; choline-to-creatine ratio, 0.759 to 1.332) and 144 milliseconds (NAA-to-choline ratio, 0.687 to 1.788; NAA-to-creatine ratio, 0.984 to 2.044; choline-to-creatine ratio, 0.828 to 1.853). Metabolite concentration ratios were greater in white matter than in gray matter. Voxel yields ranged from 43% for the temporal lobe to 100% for the thalamus.
Metabolite concentrations and concentration ratios determined with 3-T (1)H MRS were not identical to those in humans and were determined for clinical and research investigations of canine brain disease.
通过使用3-T质子(氢1 [(1)H])磁共振波谱(MRS)对健康犬的大脑进行检测,以确定选定的主要脑组织代谢物的相对浓度及其比率以及脑叶差异。
10只健康的比格犬。
在代表性脑叶区域的5个横断切片和1个矢状切片上进行回波时间为144和35毫秒的3-T (1)H MRS。体素内实质被分类为白质、灰质或混合(灰质和白质),并分析N-乙酰天门冬氨酸(NAA)、胆碱和肌酸的相对浓度(以任意单位计)(即MRS图上峰值位置的高度)及其比率(NAA与胆碱的比率、NAA与肌酸的比率以及胆碱与肌酸的比率)。比较回波时间之间代谢物的峰值高度。在不同物质类型之间对代谢物的峰值高度及其比率进行相关性分析和评估。产量计算为可解释体素除以可用脑叶体素。
在回波时间为35毫秒(NAA与胆碱的比率为1.055至2.224;NAA与肌酸的比率为1.103至2.161;胆碱与肌酸的比率为0.759至1.332)和144毫秒(NAA与胆碱的比率为0.687至1.788;NAA与肌酸的比率为0.984至2.044;胆碱与肌酸的比率为0.828至1.853)时确定了代谢物浓度比率的参考范围。白质中的代谢物浓度比率高于灰质。体素产量范围从颞叶的43%到丘脑的100%。
用3-T (1)H MRS测定的代谢物浓度和浓度比率与人类不同,其用于犬类脑部疾病的临床和研究调查。
