Magnetic resonance imaging and confocal microscopy studies of magnetically labeled endothelial progenitor cells trafficking to sites of tumor angiogenesis.
about
Nanoplatforms for constructing new approaches to cancer treatment, imaging, and drug delivery: what should be the policy?Tracking Transplanted Stem Cells Using Magnetic Resonance Imaging and the Nanoparticle Labeling Method in UrologyStem cell tracking using iron oxide nanoparticlesMRI tracking of FePro labeled fresh and cryopreserved long term in vitro expanded human cord blood AC133+ endothelial progenitor cells in rat gliomaEndothelial progenitor cells (EPCs) as gene carrier system for rat model of human gliomaDifferentiation of glioma and radiation injury in rats using in vitro produce magnetically labeled cytotoxic T-cells and MRIIron labeling and pre-clinical MRI visualization of therapeutic human neural stem cells in a murine glioma modelNanoparticles for imaging: top or flop?Nanoimmunoliposome delivery of superparamagnetic iron oxide markedly enhances targeting and uptake in human cancer cells in vitro and in vivoQuantitative T2* imaging of metastatic human breast cancer to brain in the nude rat at 3 TIn vivo imaging of the systemic recruitment of fibroblasts to the angiogenic rim of ovarian carcinoma tumorsAC133+ progenitor cells as gene delivery vehicle and cellular probe in subcutaneous tumor models: a preliminary study.In vivo transfer of intracellular labels from locally implanted bone marrow stromal cells to resident tissue macrophages.Human cord blood-derived AC133+ progenitor cells preserve endothelial progenitor characteristics after long term in vitro expansion.Superparamagnetic iron oxide nanoparticles labeling of bone marrow stromal (mesenchymal) cells does not affect their "stemness".Noninvasive monitoring of embryonic stem cells in vivo with MRI transgene reporter.A new mosaic pattern in glioma vascularization: exogenous endothelial progenitor cells integrating into the vessels containing tumor-derived endothelial cells.Effects of administration route on migration and distribution of neural progenitor cells transplanted into rats with focal cerebral ischemia, an MRI study.Contribution of macrophages in the contrast loss in iron oxide-based MRI cancer cell tracking studies.Targeting of mesenchymal stem cells to ovarian tumors via an artificial receptor.In vivo serial MR imaging of magnetically labeled endothelial progenitor cells homing to the endothelium injured artery in mice.The role of chemoattractant receptors in shaping the tumor microenvironment.Neural stem cell-mediated CE/CPT-11 enzyme/prodrug therapy in transgenic mouse model of intracerebellar medulloblastoma.Tracking of In-111-labeled human umbilical tissue-derived cells (hUTC) in a rat model of cerebral ischemia using SPECT imaging.Non-invasive imaging of endothelial progenitor cells in tumor neovascularization using a novel dual-modality paramagnetic/near-infrared fluorescence probe.Differential biodistribution of intravenously administered endothelial progenitor and cytotoxic T-cells in rat bearing orthotopic human glioma.Stem cell therapy: MRI guidance and monitoring.In Vivo MRI Tracking of Polyethylenimine-Wrapped Superparamagnetic Iron Oxide Nanoparticle-Labeled BMSCs for Cartilage Repair: A Minipig Model.The cytochrome P450 4A/F-20-hydroxyeicosatetraenoic acid system: a regulator of endothelial precursor cells derived from human umbilical cord bloodOptimization of the magnetic labeling of human neural stem cells and MRI visualization in the hemiparkinsonian rat brainA self-contained enzyme activating prodrug cytotherapy for preclinical melanoma.Cell tracking in cardiac repair: what to image and how to image.Cell-delivered magnetic nanoparticles caused hyperthermia-mediated increased survival in a murine pancreatic cancer model.Ultrashort T2* relaxometry for quantitation of highly concentrated superparamagnetic iron oxide (SPIO) nanoparticle labeled cells.The expression of P2X₇ receptors in EPCs and their potential role in the targeting of EPCs to brain gliomasThe multifaceted circulating endothelial cell in cancer: towards marker and target identification.A cell-delivered and cell-activated SN38-dextran prodrug increases survival in a murine disseminated pancreatic cancer modelComparison of reporter gene and iron particle labeling for tracking fate of human embryonic stem cells and differentiated endothelial cells in living subjectsDetection of migration of locally implanted AC133+ stem cells by cellular magnetic resonance imaging with histological findings.Magnetic resonance imaging and fluorescence labeling of clinical-grade mesenchymal stem cells without impacting their phenotype: study in a rat model of stroke
P2860
Q24599399-5BED94EF-306B-4748-B512-3276DE82F35FQ26785642-F45C28D6-DEF2-44AD-A87B-6D98DE55900DQ27005572-3A6139CA-9E00-4223-BFB9-39CCAEE79F61Q27302331-6DBE913C-DD6C-4ED2-BCC3-8A4579CE7FCDQ27309949-28674262-69DD-4EE6-9090-49BF9EF55BBFQ27334184-DA3C21E1-285A-415D-BE65-C81117B19C21Q28476235-D658C9C4-70C5-4F7E-9740-B3E58A9C22F4Q30429119-4CBD3FF2-9A89-4A10-98E4-FC75539E9EF2Q30485025-BFE864C8-4C42-4D2D-A29E-E959E103F698Q30497931-341B8B8D-5DE4-4C99-AB71-44F58D40128AQ30583218-30685209-CA94-4144-BD38-66A9A9DC665DQ33423261-B16AA6A9-6729-4CF7-95ED-A5FFE4939C25Q33495594-80DA1C41-4F5A-431C-A425-970DCC6B68E7Q33531800-46A0D793-A547-457B-9FBE-C4B5170231C5Q33632298-25534B1C-AC9B-4D42-A190-FD5E4AE44F68Q33643871-321087FF-42AC-4AA7-AA32-9D0DE7854D4AQ33688374-62592DC9-034C-4D31-9D5D-C1F90455D61EQ33748370-81221A6C-3697-4CA5-A2F4-80757462B465Q33888993-321574D7-E879-456F-AB75-A1290E4CE051Q33907262-827CADF1-B992-4C5F-AD43-47B2536CD532Q33952111-7868C34E-B09B-400A-BAE9-DF71BFE18965Q33993124-51E68B01-B0BF-430E-8C89-4564296267B6Q34110178-D36BFC74-BD39-480B-ADED-9181E75AB0F4Q34502807-0C1B06E3-3E02-47FC-8B8E-CC2179F4E9E5Q34505528-A91EAB1D-CA7F-4DA8-B4F7-76839200452FQ34768493-65AC1492-C3F6-483C-B225-E7927A1088A3Q34786978-8E959924-FDE3-4A20-89E4-6EE80DC25413Q34978019-08C2E48D-4B0E-4DD5-92ED-ED8476BBFBE0Q35122891-901036D6-F9C3-4BEC-9E55-ADF4B53B4D05Q35559206-765BE93B-A95C-488B-B9E6-39C164206550Q35569028-EB914D85-767F-41EF-AA93-A377EEBF0EF3Q35589728-1FD82021-0D75-4469-A9DA-58C67FB7080CQ35694284-637CD5EC-3B38-4ECD-998C-36A7C31CF0A5Q36062326-94318AD4-C4B6-49E9-A99D-8E6653D1349BQ36215883-BCA25499-8161-48DA-8B32-9E862307A9EFQ36621435-F7C631CB-64E5-4C94-A96A-B99F7DFAE1FBQ36641472-1A2CA5B6-6255-4692-8B44-852BEA95F701Q36800094-F8FD9871-D5C7-4D1F-BC5E-DE705C5D3D6CQ36841746-C53EBC82-9ACB-4572-9A53-E8BC5C214116Q36861531-84C49873-8F3D-43A4-80C0-26F28AD019BF
P2860
Magnetic resonance imaging and confocal microscopy studies of magnetically labeled endothelial progenitor cells trafficking to sites of tumor angiogenesis.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Magnetic resonance imaging and ...... o sites of tumor angiogenesis.
@en
type
label
Magnetic resonance imaging and ...... o sites of tumor angiogenesis.
@en
prefLabel
Magnetic resonance imaging and ...... o sites of tumor angiogenesis.
@en
P2093
P1433
P1476
Magnetic resonance imaging and ...... o sites of tumor angiogenesis.
@en
P2093
Ali S Arbab
Elizabeth J Read
Gene T Yocum
Hanh M Khuu
Joseph A Frank
Monica Bur
Stasia A Anderson
Sunil D Pandit
Victor Frenkel
P304
P356
10.1634/STEMCELLS.2005-0017
P577
2005-09-22T00:00:00Z