Grid-free interactive and automated data processing for MR chemical shift imaging data.
about
Capsiate supplementation reduces oxidative cost of contraction in exercising mouse skeletal muscle in vivoFID modulus: a simple and efficient technique to phase and align MR spectra.Characterisation of endothelin-1-induced intrastriatal lesions within the juvenile and adult rat brain using MRI and 31P MRS.Hemi-spectrum substitution after water signal fitting (HESWAF): an improvement of the modulus post-processing of MR spectra.Fast water concentration mapping to normalize (1)H MR spectroscopic imaging.Whole-brain quantitative mapping of metabolites using short echo three-dimensional proton MRSI.Interleukin-1beta-induced reduction of tissue water diffusion in the juvenile rat brain on ADC MRI is not associated with (31)P MRS-detectable energy failure.In vivo pH in metabolic-defective Ras-transformed fibroblast tumors: key role of the monocarboxylate transporter, MCT4, for inducing an alkaline intracellular pH.Alterations at the cross-bridge level are associated with a paradoxical gain of muscle function in vivo in a mouse model of nemaline myopathyCombined MRI and ³¹P-MRS investigations of the ACTA1(H40Y) mouse model of nemaline myopathy show impaired muscle function and altered energy metabolism.Multimodal MRI and (31)P-MRS investigations of the ACTA1(Asp286Gly) mouse model of nemaline myopathy provide evidence of impaired in vivo muscle function, altered muscle structure and disturbed energy metabolismResponders to Wide-Pulse, High-Frequency Neuromuscular Electrical Stimulation Show Reduced Metabolic Demand: A 31P-MRS Study in Humans.Impact of age on exercise-induced ATP supply during supramaximal plantar flexion in humans.Evidencing different neurochemical profiles between thalamic nuclei using high resolution 2D-PRESS semi-LASER (1)H-MRSI at 7 T.Creatine, Glutamine plus Glutamate, and Macromolecules Are Decreased in the Central White Matter of Premature Neonates around Term.Time course of cardiometabolic alterations in a high fat high sucrose diet mice model and improvement after GLP-1 analog treatment using multimodal cardiovascular magnetic resonance.Evidence of Preserved Oxidative Capacity and Oxygen Delivery in the Plantar Flexor Muscles With Age.Mitochondrial function and increased convective O2 transport: implications for the assessment of mitochondrial respiration in vivo.Mitochondrial Coupling and Contractile Efficiency in Humans with High and Low V˙O2peaks.Evidence of a metabolic reserve in the skeletal muscle of elderly people.Quantification in magnetic resonance spectroscopy based on semi-parametric approaches.Accuracy and precision of quantitative 31P-MRS measurements of human skeletal muscle mitochondrial function.Mitochondrial impairment induced by postnatal ActRIIB blockade does not alter function and energy status in exercising mouse glycolytic muscle in vivo.Effects of exercise-induced intracellular acidosis on the phosphocreatine recovery kinetics: a 31P MRS study in three muscle groups in humans.Comparative NMR and NIRS analysis of oxygen-dependent metabolism in exercising finger flexor muscles.Sex-specific impact of aging on the blood pressure response to exercise.Oxygen delivery and the restoration of the muscle energetic balance following exercise: implications for delayed muscle recovery in patients with COPD.Skeletal muscle bioenergetics during all-out exercise: mechanistic insight into the oxygen uptake slow component and neuromuscular fatigue.Opposite effects of hyperoxia on mitochondrial and contractile efficiency in human quadriceps muscles.Moderate and intense muscular exercises induce marked intramyocellular metabolic acidosis in sickle cell disease mice.Multimodal MR imaging (diffusion, perfusion, and spectroscopy): is it possible to distinguish oligodendroglial tumor grade and 1p/19q codeletion in the pretherapeutic diagnosis?Bioenergetics and ATP Synthesis during Exercise: Role of Group III/IV Muscle Afferents.
P2860
Q28547676-00D9FEEF-D63E-4E27-BE4A-891B0D2E6A7DQ30651195-DA89E883-4C89-44C7-BAF9-C48D4FE4C0A0Q30712052-DB6526F7-1570-4684-9BDF-ADDF82D1B1CDQ30828383-37FA2D07-98E4-4570-8D32-13DB873319E3Q30829697-60687CA4-74D3-42D0-A312-E10DB975C0E5Q30872317-A705D812-20F3-4D65-A273-92F16884DB1AQ31060275-C13F1955-C500-4CF8-8732-6FF5279FAA5CQ33870048-E7A4FEF3-5791-4D52-8C54-F74104D55B5EQ34277909-9320AB10-42B6-4D20-92FB-88A60F6322AFQ34684528-FC9885E2-0228-41FF-B444-B37CC5988796Q34973774-997A61B3-CF85-437B-8EE4-29CECDB0AEB9Q35855986-AA876E73-A7AB-4AE6-9CE2-5A08728F62F1Q35959794-8E31D38E-8FA9-46A4-9778-4A2A686CD806Q35984184-25C4DD44-687B-401C-B2FA-20FD99DB3B2FQ36108904-B37E26E7-5D1D-4388-A89B-845F5CE5ED18Q36259181-B7E9FFDE-72C2-456B-9BB6-8FF40C6A1AE2Q36885325-6D4D4CDE-21A6-4B5D-AD6A-8D3CD4E4EF97Q37150783-5BBA04B6-7CDC-4575-9272-616158D71CF3Q37158046-458D9B98-2408-48D0-91C8-4B6B647F189AQ37643493-3A5F9BF9-2305-46B9-940B-0A06E2C102E6Q38124689-FE5DFCCA-2844-4417-9260-7D7C8BFDD68AQ39682851-B3F6E48F-F671-4587-A862-58A1EB39D76DQ40030669-79244A7D-4E95-483A-A300-F456D7DF4298Q45835291-42870AA3-6491-4EF7-BD8B-9F0707D86F8EQ46313217-BFB747DF-43E9-4F79-BD45-C59E296A809AQ47610182-6811931F-6F5C-4DF2-AB03-86A0907F2351Q47945904-ACBB0D93-659B-4DE8-AA3D-88D78B8353BAQ47967123-8C39E719-5008-4024-A34F-3BEF04D3B169Q48112367-F460B8BE-05EE-45F9-9BE5-C6C08DCCF8C2Q48143252-C1877777-D39C-4563-B57E-5B2BC5386F0BQ48261931-38B2F0BA-2ED2-4316-B918-C41C0F02FE42Q51815570-A27002A0-C305-4060-B842-D577E17EFF48
P2860
Grid-free interactive and automated data processing for MR chemical shift imaging data.
description
2009 nî lūn-bûn
@nan
2009 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Grid-free interactive and automated data processing for MR chemical shift imaging data.
@ast
Grid-free interactive and automated data processing for MR chemical shift imaging data.
@en
Grid-free interactive and automated data processing for MR chemical shift imaging data.
@nl
type
label
Grid-free interactive and automated data processing for MR chemical shift imaging data.
@ast
Grid-free interactive and automated data processing for MR chemical shift imaging data.
@en
Grid-free interactive and automated data processing for MR chemical shift imaging data.
@nl
prefLabel
Grid-free interactive and automated data processing for MR chemical shift imaging data.
@ast
Grid-free interactive and automated data processing for MR chemical shift imaging data.
@en
Grid-free interactive and automated data processing for MR chemical shift imaging data.
@nl
P2093
P1476
Grid-free interactive and automated data processing for MR chemical shift imaging data.
@en
P2093
François Nicoli
Maxime Guye
Patrick J Cozzone
Sylviane Confort-Gouny
Yann Le Fur
P2888
P356
10.1007/S10334-009-0186-Y
P577
2009-11-03T00:00:00Z