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Medical imaging by NMRCell water dynamics on multiple time scalesConsensus recommendations for a standardized Brain Tumor Imaging Protocol in clinical trialsNanoparticle-facilitated functional and molecular imaging for the early detection of cancerAdvances in using MRI probes and sensors for in vivo cell tracking as applied to regenerative medicineThe self-organizing fractal theory as a universal discovery method: the phenomenon of lifeCompact NMR relaxometry of human blood and blood componentsAssessing skeletal muscle mass: historical overview and state of the artMRI developments in perspective.Magnetic resonance imaging--1: Basic principles of image production.Advantages of paramagnetic chemical exchange saturation transfer (CEST) complexes having slow to intermediate water exchange properties as responsive MRI agentsFluorinated dendrimers as imaging agents for ¹⁹F MRI.NMR relaxation study of water protons in Syrian hamster fetal cells at 300 MHz.Control of single-spin magnetic anisotropy by exchange coupling.Maximizing T2-exchange in Dy(3+)DOTA-(amide)X chelates: fine-tuning the water molecule exchange rate for enhanced T2 contrast in MRI.On the origins of chemical exchange saturation transfer (CEST) contrast in tumors at 9.4 TRadiogenomics and imaging phenotypes in glioblastoma: novel observations and correlation with molecular characteristics.Quantification of Nonenhancing Tumor Burden in Gliomas Using Effective T2 Maps Derived from Dual-Echo Turbo Spin-Echo MRIDevelopment of a Single-Sided Nuclear Magnetic Resonance Scanner for the In Vivo Quantification of Live Cattle Marbling.Combining cytotoxic and immune-mediated gene therapy to treat brain tumorsChanges of tissue water proton relaxation rates during early phases of chemical carcinogenesisDesign and Control of Nanoconfinement to Achieve Magnetic Resonance Contrast Agents with High Relaxivity.Quantitative assessment of the effects of water proton concentration and water T1 changes on amide proton transfer (APT) and nuclear overhauser enhancement (NOE) MRI: The origin of the APT imaging signal in brain tumor.On-bead combinatorial synthesis and imaging of europium(III)-based paraCEST agents aids in identification of chemical features that enhance CEST sensitivity.Nuclear magnetic resonance measurement of skeletal muscle: anisotrophy of the diffusion coefficient of the intracellular water.A clinical interactive technique for MR-CT image registration for target delineation of intracranial tumors.High speed laser tomography system.Magnetization transfer induced biexponential longitudinal relaxation.Postmortem interval alters the water relaxation and diffusion properties of rat nervous tissue--implications for MRI studies of human autopsy samples.Nuclear magnetic resonance study of mammalian cell water influence of water content and ionic environment.Temporal and dose dependence of T2 and ADC at 9.4 T in a mouse model following single fraction radiation therapy.Nuclear magnetic resonance imaging of the orbit.In vivo magnetic resonance methods in pharmaceutical research: current status and perspectives.Development of T2-relaxation values in regional brain sites during adolescenceA ROLE FOR WATER IN THE EXCLUSION OF CELLULAR SODIUM-IS A SODIUM PUMP NEEDED?Quantitative relaxometry of the brainCancer physics: diagnostics based on damped cellular elastoelectrical vibrations in microtubules.The effects of magnetic resonance imaging on intravenous infusion devices.Basic principles of magnetic resonance imaging--an updatePhysics of MRI: a primer.
P2860
Q21999017-D5E599B9-0440-4D1D-8631-AECD85230369Q24653977-2F98D800-8270-4DBF-9DAA-7461F5AE5AB8Q26801351-12FC5187-777C-4467-8CA0-262AB4AF2FACQ26828849-12A6CC4A-3F54-4F13-A1F6-366D92B7BA66Q26863117-22A88E6B-A65D-485F-9A08-3C0C8FAC8061Q28740893-8E3F4AC2-5180-436B-8EDF-C1E257EC0029Q28817107-F09E4CFB-966B-4A09-9258-2C091FE587BEQ30441307-C2D7183E-44F6-4EFC-BCB4-3A6BEF7C1DEBQ30492474-6E1116A7-421F-46A8-B69B-03767474C08DQ30501935-255EA0FC-B221-44D7-8CC1-41152054ADADQ30572949-10654037-E376-488A-B448-9F8FEBC5D564Q30660527-1051321C-7B00-4F40-9D75-37FB7534EB6CQ30698686-EAC1A836-479A-4046-B3DF-607189B524C7Q30710910-DA97C853-AF3A-4E80-A645-0D0BB9C8A147Q30726228-D26EFC3B-9881-476C-A3CD-77DA2633F08DQ30744629-0644B926-7E96-47D0-A0D9-D06915F59E55Q30870628-1D7BA0F5-1A14-4936-A8F8-63C1B9AE5C4CQ30938479-E01253E5-7419-44E7-A23A-FD0217F3E4A4Q30943420-8FF6D607-F427-4313-A8FD-B8914375DCC7Q31013320-A4400E5D-118A-4F8D-A7FD-37A70541FD2FQ31029186-E41B1747-D2DC-402E-AA97-31B81738BE56Q31033559-E68C1BFE-3467-44CA-8CBD-D9A8290A99C9Q31042674-BDAC5C4B-9790-4699-9323-4BE27C4B6EC7Q31164046-6A9E1DB5-749D-4A78-B7D9-250E5DA25D86Q32060698-3CF7F7B1-57B8-4FFC-B40D-A2576D277777Q33215161-6A192D1D-5451-436E-9C4F-FC1D0592D1B5Q33326314-CE0AEC68-D511-4395-84EC-AF1B083805D9Q33365115-774B713B-1394-4131-9CCD-6BB8655B9EF6Q33383413-43E9A03C-172A-47DD-9CB9-3C75A7ED93D3Q33408418-D3522119-D772-4850-80A9-C39338CAA2D5Q33492874-DBFA2D7B-AEE8-497D-83BC-E5B11177362AQ33642592-BC7BDE63-0573-47E3-934E-CB640A917A62Q33678501-86BA83BF-8EDF-4F46-A212-35E6CE8E7997Q33713642-42F43C0C-6860-4C12-9CFB-E879CB6639F3Q33872453-71CA421B-68A9-4FA2-A210-2B2E33BC0347Q33912467-58954216-4D31-478C-A293-D4C49899C214Q34169966-0CCCA6CE-E8E9-4A77-BA29-F685C990E90EQ34192721-D0375C46-869C-4745-8AF7-BF4974E64045Q34193180-E323B3D2-9231-4065-925C-3BFB83B5B536Q34231471-EC49BA21-5EC8-4125-894A-827A3A59C7ED
P2860
description
1971 nî lūn-bûn
@nan
1971 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
1971 թվականի մարտին հրատարակված գիտական հոդված
@hy
1971年の論文
@ja
1971年論文
@yue
1971年論文
@zh-hant
1971年論文
@zh-hk
1971年論文
@zh-mo
1971年論文
@zh-tw
1971年论文
@wuu
name
Tumor Detection by Nuclear Magnetic Resonance
@ast
Tumor Detection by Nuclear Magnetic Resonance
@en
Tumor Detection by Nuclear Magnetic Resonance
@en-gb
Tumor detection by nuclear magnetic resonance.
@nl
type
label
Tumor Detection by Nuclear Magnetic Resonance
@ast
Tumor Detection by Nuclear Magnetic Resonance
@en
Tumor Detection by Nuclear Magnetic Resonance
@en-gb
Tumor detection by nuclear magnetic resonance.
@nl
altLabel
Tumor detection by nuclear magnetic resonance.
@ast
Tumor detection by nuclear magnetic resonance.
@en
prefLabel
Tumor Detection by Nuclear Magnetic Resonance
@ast
Tumor Detection by Nuclear Magnetic Resonance
@en
Tumor Detection by Nuclear Magnetic Resonance
@en-gb
Tumor detection by nuclear magnetic resonance.
@nl
P1433
P1476
Tumor Detection by Nuclear Magnetic Resonance
@en
Tumor detection by nuclear magnetic resonance.
@en
P2093
Damadian R
R. Damadian
P304
P356
10.1126/SCIENCE.171.3976.1151
P407
P577
1971-03-01T00:00:00Z
1971-03-19T00:00:00Z