Human brain tumors: spectral patterns detected with localized H-1 MR spectroscopy.
about
In vivo magnetic resonance spectroscopy: basic methodology and clinical applicationsSerial evaluation of patients with brain tumors using volume MRI and 3D 1H MRSI.1H MR spectroscopy of brain tumours and masses.Studies of human tumors by MRS: a review.Use of high-resolution volumetric MR spectroscopic imaging in assessing treatment response of glioblastoma to an HDAC inhibitorIntracranial pyogenic abscess: imaging diagnosis utilizing recent advances in computed tomography and magnetic resonance imaging.Evaluation of accumulated mucopolysaccharides in the brain of patients with mucopolysaccharidoses by (1)H-magnetic resonance spectroscopy before and after bone marrow transplantation.Hyperpolarized 13C magnetic resonance metabolic imaging: application to brain tumorsImplementation of 3 T lactate-edited 3D 1H MR spectroscopic imaging with flyback echo-planar readout for gliomas patientsDifferences between spinocerebellar ataxias and multiple system atrophy-cerebellar type on proton magnetic resonance spectroscopySerial magnetic resonance spectroscopy reveals a direct metabolic effect of cediranib in glioblastoma.Leveraging metabolomics to assess the next generation of temozolomide-based therapeutic approaches for glioblastomasThe merit of proton magnetic resonance spectroscopy in the longitudinal assessment of spinocerebellar ataxias and multiple system atrophy-cerebellar type.Localised 1H-MR spectroscopy for metabolic characterisation of diffuse and focal brain lesions in patients infected with HIV.Localized in vivo 1H magnetic resonance spectroscopy and in vitro analyses of heterogeneous brain tumors.1H MR spectroscopy in patients with metastatic brain tumors: a multicenter study.Correlation between choline level and Gd-DTPA enhancement in patients with brain metastases of mammary carcinoma.Incorporating lactate/lipid discrimination into a spectroscopic imaging sequence.In vivo quantitation of metabolite concentrations in the brain by means of proton MRS.1H MR spectroscopy detection of lipids and lactate in metastatic brain tumors.1H chemical shift imaging reveals loss of brain tumor choline signal after administration of Gd-contrast.Improved solvent suppression and increased spatial excitation bandwidths for three-dimensional PRESS CSI using phase-compensating spectral/spatial spin-echo pulses.Non-invasive detection of 2-hydroxyglutarate in IDH-mutated gliomas using two-dimensional localized correlation spectroscopy (2D L-COSY) at 7 Tesla.The use of hyperpolarized carbon-13 magnetic resonance for molecular imaging.Lipid biomarkers of glioma cell growth arrest and cell death detected by 1 H magic angle spinning MRS.Proton MRS imaging in the follow-up of patients with suspected low-grade gliomas.In vivo proton MR spectroscopy of human gliomas: definition of metabolic coordinates for multi-dimensional classification.Current perspectives in gliomas.Pattern recognition approaches in biomedical and clinical magnetic resonance spectroscopy: a review.Nuclear magnetic resonance spectroscopy of cancer.A rare case of gliomatosis cerebri presenting as dementia.A rapid method for direct detection of metabolic conversion and magnetization exchange with application to hyperpolarized substrates.Prognostic factors for patients with gliomatosis cerebri: retrospective analysis of 17 consecutive cases.31P magnetic resonance spectroscopic imaging with polarisation transfer of phosphomono- and diesters at 3 T in the human brain: relation with age and spatial differences.Magnetic resonance spectroscopic imaging in the era of pseudoprogression and pseudoresponse in glioblastoma patient management.Correlations between in vivo (1)H MRS and ex vivo (1)H HRMAS metabolite measurements in adult human gliomas.Evaluation of female intrapelvic tumors by clinical proton MR spectroscopy.Phosphorus-31 MR spectroscopy of normal adult human brain and brain tumours.Utility of proton MR spectroscopy in the diagnosis of radiologically atypical intracranial meningiomas.1H-MRSI of radiation effects in normal-appearing white matter: dose-dependence and impact on automated spectral classification.
P2860
Q30482507-C18BF649-0983-4439-85BC-C6019271C161Q30579563-7F0868FB-6BFC-421F-99E2-600FFC782F12Q30814521-80D2D9AD-7244-4026-97A0-CA774755E061Q30833628-B39D13B9-DBF7-490C-9644-9C6344CB254DQ30838169-3DD4BBFD-5BC5-43EB-B4DD-3FABD6AEC212Q30953899-72B99835-A737-4C14-AC11-156B0EB7D78AQ32067140-81C5455C-0D90-4B46-A044-E699174B8034Q34132735-E6B48DC2-CBDF-47AC-9795-5716894019AFQ34440284-8510ADEB-A61C-4295-B377-8365A0C513F9Q34464660-F777AC11-CFC2-4D41-8CF7-BA5A2753910DQ35022254-1761BECB-901C-42C5-8504-DDDC4434B6DCQ35171890-65A0BB63-0787-41E7-85A8-3D221490EEC9Q36003277-DD3AC648-B01C-4E45-A54A-3D95C656B77BQ36318124-ADAB0FEC-E8A0-4B78-813B-B8E953AC60E9Q36688896-8F2D28D1-A9C5-494B-9EE5-AFE853A09C75Q36691490-8C627066-1F09-4870-A9EE-B6DA18BB6591Q36710813-AE26E259-1F92-4C49-8282-6B6E0293C2D7Q36769251-C5CA4D19-2EEB-4FC2-B653-0FE46BD7BBB2Q36815363-B81C188C-70E3-42AC-87F3-A37E81359F41Q36828907-4993A32D-062F-447A-851B-01C98223F5A1Q36842739-0637FA4F-34EF-4FE7-B8DC-4E69A4A9BFA5Q36874217-03032B55-1B10-45E7-B95C-C5CEE7CFA54AQ37278758-99F3DD40-1562-433C-969D-949D11FA3A3BQ38947519-675C3839-4377-44A5-BE55-91BC6F5DE077Q39381545-2B8B75FD-4016-4787-92B5-9572686FE30EQ40392774-5E081C39-C6F4-49D2-B9D9-098FA7DFB29DQ40978170-180BF48E-6160-4417-9EDB-2D5299BE951BQ41611838-559E7173-00DE-42BB-9892-56A39D9A0876Q41668595-FC626212-F6FA-4F3B-9CF2-CAF32EFF751EQ41735511-700CE926-306E-47BC-A851-088DF3FF2595Q41791549-0980C7CF-621A-41EA-B9D7-6DEDF1C5965CQ42132383-6981999B-23A9-4ED3-9EE5-BCB39B557B47Q42752134-AAEC56D7-E432-438F-9E66-8F4766E22057Q42952871-E1B243A4-8EAA-4C06-90CE-D240AC9E03DEQ43088100-8D1F7A2A-779C-4F49-BA88-6F7324AE128AQ43184820-45175941-E86A-4207-B9FD-3443006DF8C5Q43624137-E1290235-964E-493E-9453-A8B78B92334FQ43883044-1EC0331E-3BC1-4860-B99F-DDA6403C9D1BQ44396453-945E7296-9B98-4393-8BA3-172D86C33B02Q44666444-7F7DC802-C8E1-46B4-B57A-BB817FE73D05
P2860
Human brain tumors: spectral patterns detected with localized H-1 MR spectroscopy.
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
1992年论文
@zh
1992年论文
@zh-cn
name
Human brain tumors: spectral patterns detected with localized H-1 MR spectroscopy.
@en
type
label
Human brain tumors: spectral patterns detected with localized H-1 MR spectroscopy.
@en
prefLabel
Human brain tumors: spectral patterns detected with localized H-1 MR spectroscopy.
@en
P2093
P1433
P1476
Human brain tumors: spectral patterns detected with localized H-1 MR spectroscopy.
@en
P2093
P304
P356
10.1148/RADIOLOGY.183.3.1584924
P407
P577
1992-06-01T00:00:00Z