Dynamic in vivo oxymetry using overhauser enhanced MR imaging.
about
Molecular imaging with endogenous substancesMolecular body imaging: MR imaging, CT, and US. part I. principles.Overhauser enhanced magnetic resonance imaging for tumor oximetry: coregistration of tumor anatomy and tissue oxygen concentration.Fluorine electron double resonance imaging for 19F MRI in low magnetic fields.Simultaneous molecular imaging of redox reactions monitored by Overhauser-enhanced MRI with 14N- and 15N-labeled nitroxyl radicals.Hyperpolarized water as an authentic magnetic resonance imaging contrast agent.ESR line width and line shape dependence of Overhauser-enhanced magnetic resonance imaging.Trityl-based EPR probe with enhanced sensitivity to oxygen.Variable Field Proton-Electron Double-Resonance Imaging: Application to pH mapping of aqueous samples.Imaging tumor hypoxia by magnetic resonance methods.In vivo high-resolution 3D overhauser-enhanced MRI in mice at 0.2 T.DANCING WITH THE ELECTRONS: TIME-DOMAIN AND CW IN VIVO EPR IMAGING.Maximally spaced projection sequencing in electron paramagnetic resonance imagingChronic intestinal ischaemia: diagnosis.Principal component analysis enhances SNR for dynamic electron paramagnetic resonance oxygen imaging of cycling hypoxia in vivo.A Versatile High Speed 250 MHz Pulse Imager for Biomedical Applications.Dual-function pH and oxygen phosphonated trityl probe.Phosphonated trityl probes for concurrent in vivo tissue oxygen and pH monitoring using electron paramagnetic resonance-based techniques.Exchange Phenomena in the Electron Paramagnetic Resonance Spectra of the Nitroxyl and Trityl Radicals: Multifunctional Spectroscopy and Imaging of Local Chemical Microenvironment.Standard-based method for proton-electron double resonance imaging of oxygenElectron paramagnetic resonance oxygen imaging of a rabbit tumor using localized spin probe delivery.Synthesis, structure, and EPR characterization of deuterated derivatives of Finland trityl radical.What we learn from in vivo EPR oxygen images.In Vivo Application of Proton-Electron Double-Resonance Imaging.EPR Oximetry Sensor-Developing a TAM Derivative for In Vivo Studies.
P2860
Q24683237-F352A9E5-4EB2-4145-89CF-14185FA2F63CQ30454154-24FA96F0-AE82-4C23-8842-938C8FDD9B12Q30675008-5F4ADB2D-0B3E-4532-A09E-77899692BF44Q30718987-CDD04F8E-8604-4AFA-8DDB-668A882A262EQ31030372-DC508515-3754-4BFF-854B-771752A3257AQ31096554-4E123AB0-AD5A-4B82-8DBE-7B499FFF33B3Q31115606-91B284EE-81ED-4F7B-AEBE-12493F40B578Q33442855-7A7BF0A4-249B-4D77-90FF-AAEAE24B4D12Q33518214-BDFE13BA-2CD0-4FFF-9BD7-E2A28832C05AQ33801254-0C6E1A34-4968-475B-B2DC-C70C0B660FF5Q34161687-2541E67C-CC5A-4CD3-A077-26693A6D7D5BQ35414377-D1BAA1F5-CE1A-48F0-8DA4-67EF8350F8CBQ35846664-38081C97-F9DA-48AD-B77A-DEECDBC2B898Q37001597-3E035CA0-0748-4BF8-9113-30A28C3D0E61Q37228245-37101354-6168-4CD1-94AF-8997CEFC8BE5Q37422815-640E1EF9-4BE3-471B-B47C-C201D058BF00Q37682657-E2D8936D-EA9A-4B33-873E-D5D80BBF8985Q37695857-E8A1B0BC-658B-4BA7-84CA-B87B9C5C9B68Q38737125-FA44C1BA-F61B-4390-9105-30FE4C75F0E5Q39737717-6E976D73-1705-4672-974C-11D7ADE6DA31Q40921313-89E78A62-E82A-4E0A-9A08-C0597784E481Q41292105-997D0D6B-BE30-4CAF-A265-C3A1397BDB55Q41849498-A11649BC-52A8-4689-9D8A-95AE065AE644Q45069548-2C1C0303-7C01-4DE2-B3E7-A72324BD8481Q46176263-1E48C3DF-02AE-4F05-973F-7DCBA660EC6D
P2860
Dynamic in vivo oxymetry using overhauser enhanced MR imaging.
description
2000 nî lūn-bûn
@nan
2000年の論文
@ja
2000年学术文章
@wuu
2000年学术文章
@zh
2000年学术文章
@zh-cn
2000年学术文章
@zh-hans
2000年学术文章
@zh-my
2000年学术文章
@zh-sg
2000年學術文章
@yue
2000年學術文章
@zh-hant
name
Dynamic in vivo oxymetry using overhauser enhanced MR imaging.
@en
Dynamic in vivo oxymetry using overhauser enhanced MR imaging.
@nl
type
label
Dynamic in vivo oxymetry using overhauser enhanced MR imaging.
@en
Dynamic in vivo oxymetry using overhauser enhanced MR imaging.
@nl
prefLabel
Dynamic in vivo oxymetry using overhauser enhanced MR imaging.
@en
Dynamic in vivo oxymetry using overhauser enhanced MR imaging.
@nl
P2093
P2860
P1476
Dynamic in vivo oxymetry using overhauser enhanced MR imaging.
@en
P2093
P2860
P304
P356
10.1002/1522-2586(200012)12:6<929::AID-JMRI17>3.0.CO;2-J
P577
2000-12-01T00:00:00Z