Using the amide proton signals of intracellular proteins and peptides to detect pH effects in MRI.
about
Chemical exchange saturation transfer contrast agents for magnetic resonance imagingMolecular magnetic resonance imaging in cancerImaging radiation response in tumor and normal tissue.Application of chemical exchange saturation transfer (CEST) MRI for endogenous contrast at 7 TeslaClinical imaging in regenerative medicineUsing magnetic resonance imaging and spectroscopy in cancer diagnostics and monitoring: preclinical and clinical approachesThe Deakin/Graeff hypothesis: focus on serotonergic inhibition of panic.An overview of CEST MRI for non-MR physicistsCharacterization of lung cancer by amide proton transfer (APT) imaging: an in-vivo study in an orthotopic mouse modelNuclear overhauser enhancement mediated chemical exchange saturation transfer imaging at 7 Tesla in glioblastoma patientsMagnetization transfer prepared gradient echo MRI for CEST imagingA Potential Magnetic Resonance Imaging Technique Based on Chemical Exchange Saturation Transfer for In Vivo γ-Aminobutyric Acid ImagingIn vivo imaging of glucose uptake and metabolism in tumorsDeveloping imidazoles as CEST MRI pH sensorsEvaluating pH in the Extracellular Tumor Microenvironment Using CEST MRI and Other Imaging MethodsDetermination of an optimally sensitive and specific chemical exchange saturation transfer MRI quantification metric in relevant biological phantomsMagnetic Resonance Imaging of Glucose Uptake and Metabolism in Patients with Head and Neck CancerLabel-free CEST MRI Detection of Citicoline-Liposome Drug Delivery in Ischemic StrokeCEST theranostics: label-free MR imaging of anticancer drugsMR imaging of protein folding in vitro employing nuclear-Overhauser-mediated saturation transfer.MR Imaging Biomarkers in Oncology Clinical TrialsQuantitative correlational study of microbubble-enhanced ultrasound imaging and magnetic resonance imaging of glioma and early response to radiotherapy in a rat model.Acute Stroke Imaging Research Roadmap II.Current and emerging quantitative magnetic resonance imaging methods for assessing and predicting the response of breast cancer to neoadjuvant therapy.Functional photoacoustic microscopy of pH.Mapping of intracellular pH in the in vivo rodent heart using hyperpolarized [1-13C]pyruvate.Comparison of pulsed three-dimensional CEST acquisition schemes at 7 tesla: steady state versus pseudosteady stateQuantitative analysis of the z-spectrum using a numerically simulated look-up table: Application to the healthy human brain at 7T.Quantitative Bayesian model-based analysis of amide proton transfer MRI.MICEST: a potential tool for non-invasive detection of molecular changes in Alzheimer's diseaseQuantitative characterization of nuclear overhauser enhancement and amide proton transfer effects in the human brain at 7 teslaA simple model for understanding the origin of the amide proton transfer MRI signal in tissueCEST: from basic principles to applications, challenges and opportunities.Exchange-dependent relaxation in the rotating frame for slow and intermediate exchange -- modeling off-resonant spin-lock and chemical exchange saturation transfer.Optimal sampling schedule for chemical exchange saturation transfer.Imaging of endogenous exchangeable proton signals in the human brain using frequency labeled exchange transfer imagingSensitivity and source of amine-proton exchange and amide-proton transfer magnetic resonance imaging in cerebral ischemia.Early postsurgical visualization of composite mesh used in ventral hernia repair by amide proton transfer MRI.Three-dimensional amide proton transfer MR imaging of gliomas: Initial experience and comparison with gadolinium enhancement.Nuclear Overhauser enhancement (NOE) imaging in the human brain at 7T.
P2860
Q24649686-D75DD0D9-9AC5-4528-A722-0AA89E94FEACQ26782151-3ED29669-D3DA-4514-9E3F-B09089210EBEQ26798266-512D5EF9-9DF9-44E4-9F54-45F54562E7BAQ26822634-0D9FFAC9-C438-4881-A14F-66F5D22E8AB6Q26851906-B5600FC1-B6E0-4CC5-A6AF-15AB5F5D7D37Q26865120-ED438221-2D15-4E55-9826-070D580B5EB0Q27022602-32326070-1420-4B86-B666-E2C0004772E3Q28072321-70CE64FF-9876-49DF-8F0D-F822EC1397A6Q28534416-59172A7C-2480-430B-AE0D-A1043ECEA42AQ28541749-707E7AB4-D918-47F7-B2AE-0800A999981DQ28544826-D2EC3035-460A-48C1-8AA9-DDBD6290EB2BQ28554531-4669DF3D-E61A-43FD-BD01-E250FA51F9BAQ28817951-B4A774D7-E485-477E-8E88-5A6CD28723EFQ28818324-C093A6D1-BE7B-4241-955C-04E3B036113FQ28821895-FEB769A1-5289-4447-8E8C-A2AE7594A3E8Q28822188-95EA4F33-7947-4E03-9E7C-65E22F8CEBE8Q28828741-7DBD02D1-CD0B-4537-80A9-18D8689C6505Q28829493-31F9D8D5-5222-4666-92CF-8EDF6C1E6320Q28833807-6A969E3D-0FFE-4460-B58C-4048B5CD0C65Q30354378-523A6C4F-B7B0-439F-B630-DD6EE7BCDA2DQ30364608-CB28A03E-13D3-477A-8588-AA28182982ACQ30377881-2040F064-6A95-45DE-AE0B-FE4809F53A26Q30411115-782177CB-3F26-49AE-B328-31A6CD44BF32Q30460977-0AD7533B-4D77-437F-AEC0-29DF9EB69B8DQ30462527-7DD04970-F935-4AF9-8C4E-EEF800B1201DQ30489329-8B710800-ED6C-418E-B6EA-E1EFD6EB6013Q30489615-CC5EADB3-8CD4-4F9D-B4C6-E6416762F510Q30490190-8173BEDB-5D21-4301-8DB9-14BAFE744C05Q30570495-A273D573-68B5-4C4D-9B46-93A2146B8E18Q30572242-F5C7BF2F-4482-4497-BC3A-3180EC2EA399Q30581550-210E88FD-0D90-43FB-AD89-4CAE42C9A58CQ30581860-905B7629-424E-4A1D-A975-57A041CE4824Q30583533-E76ACB95-8696-4732-9517-204B7B731048Q30583946-B8294111-9909-43C2-9E9D-95E54B9F0C00Q30585893-EAD4F056-1A11-4EAC-9610-45A6C334F051Q30588222-5FCB0E57-AB94-4481-83EB-7E8C08AC0793Q30588246-A5F7B1B3-3334-4A59-B018-866E93B1925AQ30591165-9F1660F2-2891-482F-8FFA-606CDA71B4A3Q30594301-4C30E19C-BB00-4C10-979A-0A26D77C4B7DQ30613603-F686D526-0BA1-42B6-B105-807EDE2D5449
P2860
Using the amide proton signals of intracellular proteins and peptides to detect pH effects in MRI.
description
2003 nî lūn-bûn
@nan
2003 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Using the amide proton signals ...... s to detect pH effects in MRI.
@ast
Using the amide proton signals ...... s to detect pH effects in MRI.
@en
type
label
Using the amide proton signals ...... s to detect pH effects in MRI.
@ast
Using the amide proton signals ...... s to detect pH effects in MRI.
@en
prefLabel
Using the amide proton signals ...... s to detect pH effects in MRI.
@ast
Using the amide proton signals ...... s to detect pH effects in MRI.
@en
P2093
P356
P1433
P1476
Using the amide proton signals ...... s to detect pH effects in MRI.
@en
P2093
David A Wilson
Jean-Francois Payen
Jinyuan Zhou
Richard J Traystman
P2888
P304
P356
10.1038/NM907
P407
P577
2003-07-20T00:00:00Z