about
The NIAID Integrated Research Facility at Frederick, Maryland: a unique international resource to facilitate medical countermeasure development for BSL-4 pathogensMagnetic resonance imaging of transplanted stem cell fate in strokeNanoparticle-based monitoring of cell therapy.Stem cell therapy for neonatal hypoxic-ischemic encephalopathyCell based therapies for ischemic stroke: from basic science to bedsideNanoparticles for imaging: top or flop?Superparamagnetic iron oxide nanoparticles: magnetic nanoplatforms as drug carriers.PET/MRI for neurologic applications.Magnetic resonance imaging of blood brain/nerve barrier dysfunction and leukocyte infiltration: closely related or discordant?MRI stem cell tracking for therapy in experimental cerebral ischemia.Gd loading by hypotonic swelling: an efficient and safe route for cellular labeling.Experimental models of brain ischemia: a review of techniques, magnetic resonance imaging, and investigational cell-based therapies.Superparamagnetic iron oxide nanoparticles: diagnostic magnetic resonance imaging and potential therapeutic applications in neurooncology and central nervous system inflammatory pathologies, a reviewNanotechnology for treatment of stroke and spinal cord injury.MR-based molecular imaging of the brain: the next frontier.Trajectory control of PbSe-gamma-Fe2O3 nanoplatforms under viscous flow and an external magnetic field.Magnetic resonance imaging of soft tissue infection with iron oxide labeled granulocytes in a rat model.In vivo magnetic resonance imaging and optical imaging comparison of viable and nonviable mesenchymal stem cells with a bifunctional labelSuperparamagnetic Fe3O4-PEG2K-FA@Ce6 Nanoprobes for in Vivo Dual-mode Imaging and Targeted Photodynamic TherapyADVANCES IN THE CELL-BASED TREATMENT OF NEONATAL HYPOXIC-ISCHEMIC BRAIN INJURYLongitudinal study of tumor-associated macrophages during tumor expansion using MRI.Stem cell-based cellular replacement strategies following traumatic brain injury (TBI).Tracking induced pluripotent stem cells-derived neural stem cells in the central nervous system of rats and monkeys.Engineered nanoparticles for biomolecular imaging.Simple magnetic cell patterning using streptavidin paramagnetic particles.Easy and Efficient Cell Tagging with Block Copolymer-Based Contrast Agents for Sensitive MRI Detection in Vivo.Transcranial direct current stimulation promotes the mobility of engrafted NSCs in the rat brain.New carboxysilane-coated iron oxide nanoparticles for nonspecific cell labelling.[18F]-FBEM, a tracer targeting cell-surface protein thiols for cell trafficking imaging.In vivo MRI visualization of different cell populations labeled with PARACEST agents.Oxidative stress response in neural stem cells exposed to different superparamagnetic iron oxide nanoparticlesRedox-active nanomaterials for nanomedicine applications.Background migration of USPIO/MLs is a major drawback for in situ labeling of endogenous neural progenitor cells.Novel bimodal iron oxide particles for efficient tracking of human neural stem cells in vivo.Early detection of lung inflammation: exploiting T1-effects of iron oxide particles using UTE MRI.Improved Labeling of Pancreatic Islets Using Cationic Magnetoliposomes.
P2860
Q26823815-F9D26726-509D-4DA0-8ED7-B978B7E80CE9Q26828783-8C1D586C-7299-4A03-B099-8EAE4907D3D4Q27000646-BE4EBE81-8ECD-4F1E-84E9-AA64D0FE6A5EQ27003906-17308810-0B16-4D2D-B41F-09E243063867Q27025754-4435F76A-A74F-4233-8EE8-E6DD003CE7AEQ30429119-291A01F6-3135-4A33-9F1C-3C16650F5575Q30465367-DE1454E4-1A67-4B94-AB7C-6F680771250FQ30577115-EB476434-54F4-41E6-9E0E-EDA9FB0381F5Q30583221-089D6516-CAFD-4806-8669-F544EDE5CA51Q30712193-8CC47761-A1B0-49DC-96C8-E73C52D4E06CQ30724674-DE6595C2-256F-4FE5-B1D0-43469A44392FQ30771799-7E8F759C-B588-4B6B-8A45-1DFE29B78B33Q33503551-2FFA2B6B-E74A-469B-81C1-6968D753DD4DQ33520061-54185BEE-47DF-4684-975A-EBA098024EDAQ33701395-FC1C462A-F184-4EA4-AE25-CB89637C2A96Q33901763-BC8CF898-7AC2-4845-9164-35C925AD1A59Q34511110-C43E108C-15EE-4A53-8B19-72370A024032Q34698260-C18F33FC-2EF6-4849-ABA3-E68EC6EE2AF2Q36185393-4863A090-360A-480D-8083-78BFC1E36BC4Q36737627-F7D1C02E-77B4-49EA-8CC9-8513676E009AQ37070294-C9344A28-266B-4ED0-8BD0-11B7DFA79142Q37157678-E2113DDB-9BC9-4059-8A01-5DE24B1ACF38Q37208442-61ABBCD2-EB66-484B-AF20-30B9B93456CBQ37895953-D89AE0C6-AC43-45BD-BCF8-B5F1BF071E0FQ38377175-88B5F6CF-435A-4BA6-A3CE-CAF247539F5FQ38777093-54519A64-BA4D-449B-8026-EF73A7EEB328Q38927404-AFCB7978-DAB7-4AEA-8A53-184CAA669C1CQ39038645-5F16A763-0EA2-4906-99D0-53CDCC5E932CQ39143436-342161AD-D130-49E7-BFDD-41C5BD48FC76Q39307567-1968E0F7-C8B6-45D9-BF78-0CEAA779B887Q40873998-0F7D61FD-E07A-4C6E-A9F5-2F52A48C9DEFQ46290936-4F69B9E4-E50E-44C9-85F8-A4A6BD8131D1Q48117661-3F8D0298-BA75-4901-ABA6-BE872C992E0BQ48655751-7E2FE31B-E9A3-4B68-A0A0-5DF6CD5C0E97Q51414569-D76D8005-8F80-4D34-9D0C-2884F3310E5BQ55261240-9CC29252-0049-4132-8DF6-6F284F49B0E0
P2860
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Cell tracking using magnetic resonance imaging.
@en
type
label
Cell tracking using magnetic resonance imaging.
@en
prefLabel
Cell tracking using magnetic resonance imaging.
@en
P2093
P2860
P1476
Cell tracking using magnetic resonance imaging.
@en
P2093
Carles Justicia
Dirk Wiedermann
Klaus Kruttwig
Pedro Ramos-Cabrer
Tracy Farr
P2860
P356
10.1113/JPHYSIOL.2007.139451
P407
P577
2007-08-09T00:00:00Z