![]() Imaging of urea using chemical exchange-dependent saturation transfer at 1.5T. 33 Dagher AP, Aletras A, Choyke P, Balaban RS.Detection of proton chemical exchange between metabolites and water in biological tissues. 32 Guivel-Scharen V, Sinnwell T, Wolff SD, Balaban RS.31 Haris M, Cai K, Singh A, Hariharan H, Reddy R.Glutamate-weighted CEST (gluCEST) imaging for mapping neurometabolism: An update on the state of the art and emerging findings from in vivo applications. Imaging of glutamate in the spinal cord using GluCEST. 29 Kogan F, Singh A, Debrosse C, et al.Mapping glutamate in subcortical brain structures using high-resolution GluCEST MRI. Molecular imaging of tumors by chemical exchange saturation transfer MRI of glucose analogs. CEST MRI of 3-O-methyl-D-glucose uptake and accumulation in brain tumors. Imaging brain deoxyglucose uptake and metabolism by glucocest MRI. 25 Nasrallah FA, Pagès G, Kuchel PW, Golay X, Chuang K-H.Measurement of regional cerebral glucose uptake by magnetic resonance spin-lock imaging. 24 Zu Z, Spear J, Li H, Xu J, Gore JC.MRI detection of glycogen in vivo by using chemical exchange saturation transfer imaging (glycoCEST). 23 van Zijl Peter CM, Jones Craig K, Ren J, Malloy Craig R, Sherry AD.Chemical exchange saturation transfer (CEST) MR technique for liver imaging at 3.0 Tesla: an evaluation of different offset number and an after-meal and over-night-fast comparison. 22 Deng M, Chen S-Z, Yuan J, Chan Q, Zhou J, Wáng Y-XJ.Imaging of sugar-based contrast agents using their hydroxyl proton exchange properties. 21 Knutsson L, Xu X, van Zijl PCM, Chan KWY.In vivo imaging of phosphocreatine with artificial neural networks. ![]() CEST signal at 2 ppm ( ) from Z-spectral fitting correlates with creatine distribution in brain tumor. In vivo chemical exchange saturation transfer imaging of creatine (CrCEST) in skeletal muscle at 3T. 18 Kogan F, Haris M, Debrosse C, et al.Exchange rates of creatine kinase metabolites: feasibility of imaging creatine by chemical exchange saturation transfer MRI. 17 Haris M, Nanga RPR, Singh A, et al.Amide proton transfer (APT) contrast for imaging of brain tumors. 16 Zhou J, Lal B, Wilson DA, Laterra J, van Zijl PCM.Differentiation between glioma and radiation necrosis using molecular magnetic resonance imaging of endogenous proteins and peptides. 15 Zhou J, Tryggestad E, Wen Z, et al.Review and consensus recommendations on clinical APT-weighted imaging approaches at 3T: Application to brain tumors. 14 Zhou J, Zaiss M, Knutsson L, et al. ![]() APT-weighted MRI: Techniques, current neuro applications, and challenging issues. 13 Zhou J, Heo H-Y, Knutsson L, van Zijl PCM, Jiang S.Using the amide proton signals of intracellular proteins and peptides to detect pH effects in MRI. 12 Zhou J, Payen J-F, Wilson DA, Traystman RJ, van Zijl PCM.Magnetic resonance imaging of glycogen using its magnetic coupling with water. Mechanism and quantitative assessment of saturation transfer for water-based detection of the aliphatic protons in carbohydrate polymers. 9 Zhou Y, van Zijl PCM, Xu J, Yadav NN.The relayed nuclear Overhauser effect in magnetization transfer and chemical exchange saturation transfer MRI. 8 Zhou Y, Bie C, van Zijl PCM, Yadav NN.Advances in Magnetic Resonance Technology and Applications. In: N Seiberlich, V Gulani, F Calamante, et al., eds. Chemical exchange saturation transfer (CEST) and MR Z-spectroscopy in vivo: a review of theoretical approaches and methods. features and analysis of the field-dependent saturation spectrum. Magnetization transfer contrast and chemical exchange saturation transfer MRI. 5 van Zijl PCM, Lam WW, Xu J, Knutsson L, Stanisz GJ.Proton chemical exchange saturation transfer (CEST) MRS and MRI. Chemical exchange saturation transfer (CEST): What is in a name and what isn't? Magn Reson Med. A new class of contrast agents for MRI based on proton chemical exchange dependent saturation transfer (CEST). ![]() Magnetization transfer contrast (MTC) and tissue water proton relaxation in vivo.
0 Comments
Leave a Reply. |