~1H磁共振波谱在脑胶质瘤放射治疗中的应用进展
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摘要
~1 H磁共振波谱(proton magnetic resonance spectroscopy~1 H-MRS)是一种基于化学位移原理,用以检测人体内组织或细胞生化代谢水平的无创性技术,其提供的代谢信息在脑胶质瘤的放射治疗中有重要的临床意义,有待逐渐成为脑胶质瘤放射治疗中常规检查的一部分。本文就~1 H-MRS在脑胶质瘤放射治疗中的应用进展进行综述。
Proton magnetic resonance spectroscopy(~1 H-MRS)is a non-invasive technology for detecting human tissue or cell biochemical metabolic level,based on the principle of chemical shift.It provides the metabolic information which has important clinical significance and gradually becomes part of the routine examination in radiation therapy of glioma.This paper reviews the progress in the application of proton magnetic resonance spectroscopy in radiation therapy of glioma.
Proton magnetic resonance spectroscopy(~1 H-MRS)is a non-invasive technology for detecting human tissue or cell biochemical metabolic level,based on the principle of chemical shift.It provides the metabolic information which has important clinical significance and gradually becomes part of the routine examination in radiation therapy of glioma.This paper reviews the progress in the application of proton magnetic resonance spectroscopy in radiation therapy of glioma.
引文
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[2]Pandey R,Caflisch L,Lodi A,et al.Metabolomic signature of brain cancer[J].MolecularCarcinogenesis,2017;56(11):2355-2371
[3]Xu YJ,Cui Y,Li HX,et al.Noninvasive evaluation of radiation-enhanced glioma cells invasiveness by ultra-high-field.1H-mrs in vitro[J].Magnetic Resonance Imaging,2016;34(8):1121-1127
[4]张强,李云霞,袁向珍.应用磁共振波谱成像对照病理免疫组化评价脑胶质瘤侵袭性的研究[J].内蒙古医科大学学报,2017;39(2):95-100
[5]Steffensmith EA,Shih JH,Hipp SJ,et al.Proton magnetic resonance spectroscopy predicts survival in children with diffuse intrinsic pontine glioma[J].J Neurooncol,2011;105(2):365-373
[6]Bradac O,Vrana J,Jiru F,et al.Recognition of anaplastic foci within low-grade gliomas using MR spectroscopy[J].British Journal of Neurosurgery,2014;28(5):631-636
[7]Sauwen N,Acou M,Cauter SV,et al.Comparison of unsupervised classification methods for brain tumor segmentation using multi-parametric MRI[J].Neuroimage Clin,2016;12(C):753-764
[8]Saha A,Ghosh SK,Roy C,et al.Demographic and clinical profile of patients with brain metastases:A retrospective study[J].Asian Journal of Neurosurgery,2013;8(3):157-161
[9]Mura C,Katz JE,Clarke SG,et al.Brain proton magnetic resonance spectroscopy[J].Neuroimaging Clin N Am,2013;23(3):359-380
[10]Wang Q,Zhang H,Zhang J,et al.The diagnostic performance of magnetic resonance spectroscopy in differentiating high-from low-grade gliomas:A systematic review and meta-analysis[J].European Radiology,2016;26(8):2670-2684
[11]Dou W,Zhang M,Zhang X,et al.Convex-envelope based automated quantitative approach to multi-voxel1H-mrs applied to brain tumor analysis[J].Plos One,2015;10(9):e0137850
[12]Rao PJ,Jyoti R,Mews PJ,et al.Preoperative magnetic resonance spectroscopy improves diagnostic accuracy in a series of neurosurgical dilemmas[J].British Journal of Neurosurgery,2013;27(5):646-653
[13]Posse S,Otazo R,Dager SR,et al.MR spectroscopic imaging:principles and recent advances[J].Journal of Magnetic Resonance Imaging,2013;37(6):1301-1325
[14]Guo J,Yao C,Chen H,et al.The relationship between cho/naa and glioma metabolism:implementation for margin delineation of cerebral gliomas[J].Acta Neurochirurgica,2012;154(8):1361-1370
[15]Rata M,Giles SL,Desouza NM,et al.Comparison of three reference methods for the measurement of intracellular pH using31P mrs in healthy volunteers and patients with lymphoma[J].NMR Biomed,2014;27(2):158-162
[16]Zhang J,Zhuang DX,Yao CJ,et al.Metabolic approach for tumor delineation in glioma surgery:3D MR spectroscopy image-guided resection[J].Journal of Neurosurgery,2016;124(6):1585-1593
[17]Zakaria R,Das K,Radon M,et al.Diffusion-weighted MRI characteristics of the cerebral metastasis to brain boundary predicts patient outcomes[J].BMC medical imaging,2014;14(1):26-30
[18]Nguyen ML,Willows B,Khan R,et al.The potential role of magnetic resonance spectroscopy in image-guided radiotherapy[J].Frontiers in Oncology,2014;4(4):91-97
[19]Kim TH,Yun TJ,Park CK,et al.Combined use of susceptibility weighted magnetic resonance imaging sequences and dynamic susceptibility contrast perfusion weighted imaging to improve the accuracy of the differential diagnosis of recurrence and radionecrosis in high-grade glioma patients[J].Oncotarget,2017;8(12):20340-20353
[20]Zhang Z,Zeng Q,Liu Y,et al.Assessment of the intrinsic radiosensitivity of glioma cells and monitoring of metabolite ratio changes after irradiation by14.7-T high-resolution1H mrs[J].NMR Biomed,2014;27(5):547-552
[21]Fudaba H,Shimomura T,Abe T,et al.Comparison of multiple parameters obtained on 3 T pulsed arterial spin-labeling,Diffusion tensor imaging,And mrs and the Ki-67labeling index in evaluating glioma grading[J].American Journal of Neuroradiology,2014;35(11):2091-2098
[22]Anselmi M,Catalucci A,Felli V,et al.Diagnostic accuracy of proton magnetic resonance spectroscopy and perfusion-weighted imaging in brain gliomas follow-up:a single institutional experience[J].Neuroradiol J,2017;30(3):240-25
[23]Shi W,Li F,Li H,et al.Evaluation of human glioma using in-vivo proton magnetic resonance spectroscopy combined with expression of cyclooxygenase-2:a preliminary clinical trial[J].Neuroreport,2017;28(7):414-420
[24]Server A,Josefsen R,Kulle B,et al.Proton magnetic resonance spectroscopy in the distinction of high-grade cerebral gliomas from single metastatic brain tumors[J].Acta Radiologica,2010;51(3):316-325