In vivo MRI cell tracking using perfluorocarbon probes and fluorine-19 detection.
about
Molecular magnetic resonance imaging in cancerClinical imaging in regenerative medicineAdvances in using MRI probes and sensors for in vivo cell tracking as applied to regenerative medicineIn Vivo Quantification of Inflammation in Experimental Autoimmune Encephalomyelitis Rats Using Fluorine-19 Magnetic Resonance Imaging Reveals Immune Cell Recruitment outside the Nervous SystemGenetic engineered molecular imaging probes for applications in cell therapy: emphasis on MRI approachDiamagnetic chemical exchange saturation transfer (diaCEST) liposomes: physicochemical properties and imaging applicationsAnatomical, functional and molecular biomarker applications of magnetic resonance neuroimaging.Novel fluorinated ligands for gold nanoparticle labelling with applications in 19F-MRI.(19)F spin-lattice relaxation of perfluoropolyethers: Dependence on temperature and magnetic field strength (7.0-14.1T)Temporal accumulation and localization of isoflurane in the C57BL/6 mouse and assessment of its potential contamination in 19 F MRI with perfluoro-crown-ether-labeled cardiac progenitor cells at 9.4 Tesla.Combining perfluorocarbon and superparamagnetic iron-oxide cell labeling for improved and expanded applications of cellular MRI.Enhancing magnetic resonance imaging with contrast agents for ultra-high field strengthsClinical cell therapy imaging using a perfluorocarbon tracer and fluorine-19 MRI.Cell Labeling for 19F MRI: New and Improved Approach to Perfluorocarbon Nanoemulsion Design.Concise review: workshop review: understanding and assessing the risks of stem cell-based therapiesImproved quantitative (19) F MR molecular imaging with flip angle calibration and B1 -mapping compensationMonitoring the Stability of Perfluorocarbon Nanoemulsions by Cryo-TEM Image Analysis and Dynamic Light Scattering(89)Zr-Oxine Complex PET Cell Imaging in Monitoring Cell-based TherapiesBalanced UTE-SSFP for 19F MR imaging of complex spectraIn Vivo Fate Imaging of Intracerebral Stem Cell Grafts in Mouse Brain.In-Vivo Detection and Tracking of T Cells in Various Organs in a Melanoma Tumor Model by 19F-Fluorine MRS/MRI.Synthesis of Intrinsically Disordered Fluorinated Peptides for Modular Design of High-Signal 19 F MRI Agents.Nanoparticles and clinically applicable cell tracking.(19)F-MRI for monitoring human NK cells in vivoQuantifying tumor associated macrophages in breast cancer: a comparison of iron and fluorine-based MRI cell trackingCell tracking using (19)F magnetic resonance imaging: technical aspects and challenges towards clinical applications.Enhanced Fluorine-19 MRI Sensitivity using a Cryogenic Radiofrequency Probe: Technical Developments and Ex Vivo Demonstration in a Mouse Model of Neuroinflammation.Advanced Functional Nanomaterials for Theranostics.Visualization of macrophage recruitment in head and neck carcinoma model using fluorine-19 magnetic resonance imaging.Evaluating the effectiveness of transferrin receptor-1 (TfR1) as a magnetic resonance reporter gene.Siloxane Nanoprobes for Labeling and Dual Modality Functional Imaging of Neural Stem Cells.The First Scale-Up Production of Theranostic Nanoemulsions.Tracking and Quantification of Magnetically Labeled Stem Cells using Magnetic Resonance Imaging.Design and formulation of nanoemulsions using 2-(poly(hexafluoropropylene oxide)) perfluoropropyl benzene in combination with linear perfluoro(polyethylene glycol dimethyl ether).Metal ion sensing using ion chemical exchange saturation transfer 19F magnetic resonance imagingMonocyte imaging after myocardial infarction with 19F MRI at 3 T: a pilot study in explanted porcine hearts.Fluorine-19 nuclear magnetic resonance of chimeric antigen receptor T cell biodistribution in murine cancer model.Comparison of different compressed sensing algorithms for low SNR 19 F MRI applications-Imaging of transplanted pancreatic islets and cells labeled with perfluorocarbons.Chemical shift encoding (CSE) for sensitive fluorine-19 MRI of perfluorocarbons with complex spectra.Biomedical 19F MRI Using Perfluorocarbons.
P2860
Q26782151-F50BB4F3-CD4D-466C-8A32-683AB2379C50Q26851906-B8D6F79C-551D-427B-A14A-FF0725FA2E54Q26863117-FA0A703F-F2B5-4843-B93C-3BF7E2A81B20Q27313901-25083585-892A-4F85-A8DE-5A57ED82DB00Q28078109-39D61626-6FD0-4329-86D7-91E21DD86AE3Q30715520-3A4B7587-3CCE-4F78-A9D2-E603BC57C4E6Q30910766-E91F34F5-3826-4F8A-9302-884DF31CC470Q31160391-FDABAA13-8327-4E9F-9D9C-9FC1CDBBC02DQ33561016-277E0D34-48B3-43C0-95EC-EAADEFE121D1Q33834305-080D3A54-3FBA-4DC8-9A4E-D0DF8FE5BC3BQ33969361-C3EF868B-8DEB-42DC-8229-8049CC0610D1Q34071930-1CD3A1DB-6C3E-445C-87BF-A947328450CDQ34617755-77646105-A63D-4CFA-BF39-31952952E4A0Q34680859-5EFF1C97-AAD7-4311-9EF5-74752884C8FBQ35200156-CF90D777-710B-4BD3-BF97-08F9AA360255Q35642484-49438483-73F5-41D0-B5D1-3749E9666B35Q35670605-BAFEC01B-CA49-4341-A917-90EBF509B49CQ35684967-17578DF2-EF12-435B-A17E-98A390546319Q35789062-2FF2F52E-9A40-4740-B8F6-08B0C0B839BDQ35862215-2F4794E2-920C-4848-A02A-83B2D031C60EQ36162660-6B67D738-6DF2-41B9-8D6E-EB2FB1434219Q36362772-E2EA9FCC-4B07-4182-96F6-C2BC0A04EB22Q36514508-87A97D38-60C7-4D9E-8F16-2DCC0641BAECQ37012655-BAB22992-4181-4C53-BC80-05BC4746CBA1Q37630436-B0C8D355-2786-4446-9EBB-D9060CE84F56Q38265406-EAF8159A-81E5-4DF4-8197-B0CD032C0F6EQ38635918-9D17BEFD-3953-48CD-A390-F6B341CBDE99Q38639877-764D0261-DF44-43EC-8796-D328650C7437Q38658369-B94DC80A-35C6-4DA4-B22C-86FF74551037Q38789979-19C95524-E1DC-4D61-9614-8A7146E8B32AQ38939732-7DF5F84F-12FF-4C40-A1EF-40F07D7F215EQ38970529-A1E99A31-D0F0-475A-BB89-AA534235EC8FQ41121610-22965F86-D12D-43B5-975B-75AFBE28EB0DQ41202522-81C8994F-868B-4068-BDFF-86ABE77ACCC1Q41815271-E33B7307-3F43-4496-846F-735AFFF26087Q42473587-6BB2D672-C682-4E0C-97BE-17A0E3854030Q47148959-667DF747-15F7-4FAE-976E-729FE9E2FBE1Q47713303-F3C5DE22-E108-4F44-B4C9-3DFBAAD1DA69Q48141166-0F7CCC28-42E9-46A5-90A3-FE08A5E9D6A5Q50012205-F0489215-31E1-41CA-9C1E-C1369DB72F3B
P2860
In vivo MRI cell tracking using perfluorocarbon probes and fluorine-19 detection.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 22 April 2013
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
In vivo MRI cell tracking using perfluorocarbon probes and fluorine-19 detection.
@en
In vivo MRI cell tracking using perfluorocarbon probes and fluorine-19 detection.
@nl
type
label
In vivo MRI cell tracking using perfluorocarbon probes and fluorine-19 detection.
@en
In vivo MRI cell tracking using perfluorocarbon probes and fluorine-19 detection.
@nl
prefLabel
In vivo MRI cell tracking using perfluorocarbon probes and fluorine-19 detection.
@en
In vivo MRI cell tracking using perfluorocarbon probes and fluorine-19 detection.
@nl
P2860
P356
P1433
P1476
In vivo MRI cell tracking using perfluorocarbon probes and fluorine-19 detection.
@en
P2093
Eric T Ahrens
P2860
P304
P356
10.1002/NBM.2948
P577
2013-04-22T00:00:00Z