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Model free approach to kinetic analysis of real-time hyperpolarized 13C magnetic resonance spectroscopy dataReduced Warburg effect in cancer cells undergoing autophagy: steady- state 1H-MRS and real-time hyperpolarized 13C-MRS studiesDetection of the prodrug-activating enzyme carboxypeptidase G2 activity with chemical exchange saturation transfer magnetic resonance.Kinetic analysis of hyperpolarized data with minimum a priori knowledge: Hybrid maximum entropy and nonlinear least squares method (MEM/NLS).Inversion recovery measurements in the presence of radiation damping and implications for evaluating contrast agents in magnetic resonance.Dichloroacetate induces autophagy in colorectal cancer cells and tumours.Multiple quantum filtered (23)Na NMR in the Langendorff perfused mouse heart: Ratio of triple/double quantum filtered signals correlates with [Na]i.Modeling non-linear kinetics of hyperpolarized [1-(13)C] pyruvate in the crystalloid-perfused rat heart.Modification of intracellular glutathione status does not change the cardiac trapping of (64)Cu(ATSM)Assessing radiotracer kinetics in the Langendorff perfused heart.Lactate and choline metabolites detected in vitro by nuclear magnetic resonance spectroscopy are potential metabolic biomarkers for PI3K inhibition in pediatric glioblastoma.MEK1/2 inhibition decreases lactate in BRAF-driven human cancer cells.Contractile function assessment by intraventricular balloon alters the ability of regional ischaemia to evoke ventricular fibrillationThe effect of experimental conditions on the detection of spermine in cell extracts and tissues.Modulation of choline kinase activity in human cancer cells observed by dynamic 31P NMR.Therapeutic target metabolism observed using hyperpolarized 15N choline.Frequency-switched single-transition cross-polarization: a tool for selective experiments in biomolecular NMR.64Cu-CTS: A Promising Radiopharmaceutical for the Identification of Low-Grade Cardiac Hypoxia by PET.Cardiac hypoxia imaging: second-generation analogues of 64Cu-ATSM.Detection of cancer in cervical tissue biopsies using mobile lipid resonances measured with diffusion-weighted (1)H magnetic resonance spectroscopyConformational exchange in pimonidazole—a hypoxia markerHighly selective excitation in biomolecular NMR by frequency-switched single-transition cross-polarizationScalar couplings as pH probes in compartmentalized biological systems: 31P NMR of phosphiteNormalized one-dimensional NOE measurements in isotopically labeled macromolecules using two-way cross-polarization
P50
Q28536697-9D8EE1D2-E9D4-4082-A097-C91AD3DBA921Q28541488-7626F51F-AC98-4D3A-A903-96325552F223Q30662092-3310FB57-7D41-4A77-AB15-253343F82C6DQ30837683-F8C3B5B2-A49A-47BA-A065-AFC21166DCCFQ31015241-7E4B4F9E-81AB-46A9-BF40-3519D40CCEC9Q33918095-F2FBA3A8-1522-43B0-BB4A-610C02DEB24BQ36042252-C79B4473-80B0-42E6-830D-CB6643081868Q36800057-EE10CE26-E030-4317-9D4A-D7690F645EC4Q36944378-9DFBAB5C-67FD-4F49-AA2C-8D58C8CE665BQ37317584-49DF80B5-F3AF-42B5-8C85-0696040E3449Q38969526-69172D5A-CE1E-43EA-AB34-CD0753346EB1Q39156894-9DE5B534-B991-4DE5-8214-885B80EF61D1Q39674678-8C63AECE-A950-4D65-8DFA-5B2DEF12A1CAQ39799039-48135FCC-32A7-4DFE-BFA6-E7E06359AE4EQ39892965-A7283A2B-0EAA-47ED-9EA5-4D11F5D05E59Q46697656-B5D63991-D60B-45C7-B2AA-58DD4EC95E31Q48002299-324D4520-68AA-46EC-9BDD-764F60724217Q53014698-CC11BE3F-BB3D-423F-B1F4-9484FB73007CQ53073038-0C20C722-63C8-49D8-9F8D-41A0944065CDQ57097452-F6DABC6D-8F03-4D1C-B8EA-6A8FB6D79C73Q62664196-77746F01-922B-48E1-BD9A-B44785D807BCQ77729496-A1795E66-D690-49C8-A765-D93832D19B5DQ79110187-56F1008E-741D-4201-BDE8-053E7B0E0386Q82467848-85067923-6E6D-4607-A126-431697C564D4
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Thomas R Eykyn
@nl
Thomas R Eykyn
@sl
Thomas R. Eykyn
@en
Thomas R. Eykyn
@es
type
label
Thomas R Eykyn
@nl
Thomas R Eykyn
@sl
Thomas R. Eykyn
@en
Thomas R. Eykyn
@es
prefLabel
Thomas R Eykyn
@nl
Thomas R Eykyn
@sl
Thomas R. Eykyn
@en
Thomas R. Eykyn
@es
P1053
J-3284-2016
P106
P1153
6602574127
P21
P31
P3829
P496
0000-0003-1768-3808