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Cytotherapy Volume 6, 2004 - Issue 6
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Original Paper

Methods for magnetically labeling stem and other cells for detection by in vivo magnetic resonance imaging

JA Frank Experimental Neuroimaging Section, Laboratory of Diagnostic Radiology Research, Clinical Center, Bethesda, Maryland, USA
,
SA Anderson Experimental Neuroimaging Section, Laboratory of Diagnostic Radiology Research, Clinical Center, Bethesda, Maryland, USA; Neuroimmunology Branch, National Institutes of Neurologic Disorders and Stroke, NIH, Bethesda, Maryland, USA
,
H Kalsih Experimental Neuroimaging Section, Laboratory of Diagnostic Radiology Research, Clinical Center, Bethesda, Maryland, USA
,
EK Jordan Experimental Neuroimaging Section, Laboratory of Diagnostic Radiology Research, Clinical Center, Bethesda, Maryland, USA
,
BK Lewis Experimental Neuroimaging Section, Laboratory of Diagnostic Radiology Research, Clinical Center, Bethesda, Maryland, USA
,
GT Yocum Experimental Neuroimaging Section, Laboratory of Diagnostic Radiology Research, Clinical Center, Bethesda, Maryland, USA
&
AS Arbab Experimental Neuroimaging Section, Laboratory of Diagnostic Radiology Research, Clinical Center, Bethesda, Maryland, USA
 show all
Pages 621-625 | Published online: 07 Jul 2009

References

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  • Lewin M, Carlesso N, Tung CH et al. Tat peptide-derivatizedmagnetic nanoparticles allow in vivo tracking and recovery of progenitor cells. Nat Biotechnol 2000;18:410–4.
  • Bulte JWM, Douglas T, Witer B et al. Magnetodendrimers allowendosomal magnetic labeling and in vivo tracking of stem cells. Nat Biotechnol 2001;19:1141— 7.
  • Frank JA, Zywicke H, Jordan EK et al. Magnetic intracellular labeling of mammalian cells by combining (FDA-approved) superparamagnetic iron oxide MR contrast agents and com-monly used transfection agents. Acad Radiol 2002;9:S484— 8.
  • Frank JA, Miller BR, Arbab AS et al. Clinically applicable labeling of mammalian cells and stem cells by combining (FDA)-approved superparamagnetic iron oxides and commonly avail-able transfection agents. Radiology 2003;228:480–7.
  • Arbab AS, Bashaw LA, Miller BR et al. Intracytoplasmic magnetic labeling of mammalian cells with ferumoxides and transfection agent for cellular magnetic resonance imaging methods and techniques. Transplant 2003;76:1123— 30.
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  • Arbab AS, Yocum GT, Kalish H et al. Magnetic cell labeling with protamine sulfate complexed to ferumoxides for cellular MRI. Blood accessed 20 April 2004;104:1217–23.
  • Arbab AS, Bashaw LA, Miller BR et al. Characterization of biophysical and metabolic properties of cells labeled with superparamagnetic iron oxide nanoparticles (ferumoxides) and transfection agent (poly-l-lysine) for cellular MR imaging. Radiology 2003;229:838–46.
  • Hill JM, Dick AJ, Raman VK et al. Serial cardiac magnetic resonance imaging of injected mesenchymal stem cells. Circula-tion 2003;108:1009— 14.
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  • Anderson SA, Glod J, Arbab AS et al. Non-invasive MR imaging of magnetically labeled stem cells to directly identify neovascu-larure in a glioma model. Blood; First edition paper; pre-published online August 26, 2004; DOI 10.1182/blood 2004-06–2222.
  • Arbab AS, Jordan EK, Bashaw LA et al. In vivo targeting ironoxide labeled human mesenchymal stem cell by magnetic field gradients: detection by MRI in rat model. Human Gene Ther 2004;15:351–60.
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  • Hoehn M, Kustermann E, Slunk K et al. Monitoring of implanted stem cell migration in vivo; a highly resolved in vivo magnetic resonance imaging investigation of experi-mental stroke in rat. Proc Natl Acad Sci USA 2002;99:16267–72.

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