Biomedical Engineering Reference
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Van Den Bos, E. J., Baks, T., Moelker, A. D., Kerver, W., Van, G. R., Van, G. W., Duncker, D. J.
& Wielopolski, P. A. 2006. Magnetic resonance imaging of haemorrhage within reperfused
myocardial infarcts: possible interference with iron oxide-labelled cell tracking?
Eur Heart J,
27, 1620-6.
Van Den Bos, E. J., Wagner, A., Mahrholdt, H., Thompson, R. B., Morimoto, Y., Sutton, B. S.,
Judd, R. M. & Taylor, D. A. 2003. Improved efficacy of stem cell labeling for magnetic resonance
imaging studies by the use of cationic liposomes.
Cell Transplant,
12, 743-56.
Von Zur Muhlen, C., Von, E. D., Bassler, N., Neudorfer, I., Steitz, B., Petri-Fink, A., Hofmann, H.,
Bode, C. & Peter, K. 2007. Superparamagnetic iron oxide binding and uptake as imaged by
magnetic resonance is mediated by the integrin receptor Mac-1 (CD11b/CD18): implications
on imaging of atherosclerotic plaques.
Atherosclerosis,
193, 102-11.
Walczak, P., Kedziorek, D. A., Gilad, A. A., Lin, S. & Bulte, J. W. 2005. Instant MR labeling of
stem cells using magnetoelectroporation.
Magn Reson Med,
54, 769-774.
Walczak, P., Zhang, J., Gilad, A. A., Kedziorek, D. A., Ruiz-Cabello, J., Young, R. G., Pittenger, M. F.,
Van, Z. P., Huang, J. & Bulte, J. W. 2008. Dual-Modality Monitoring of Targeted Intraarterial
Delivery of Mesenchymal Stem Cells After Transient Ischemia.
Stroke,
39, 1569.
Wang, L., Neoh, K.-G., Kang, E.-T., Shuter, B. & Wang, S.-C. 2010. Biodegradable magnetic-
fluorescent magnetite/poly(dl-lactic acid-co-[alpha],[beta]-malic acid) composite nanoparticles
for stem cell labeling.
Biomaterials,
31, 3502-3511.
Weissleder, R., Elizondo, G., Wittenberg, J., Lee, A. S., Josephson, L. & Brady, T. J. 1990a.
Ultrasmall superparamagnetic iron oxide: an intravenous contrast agent for assessing lymph
nodes with MR imaging.
Radiology,
175, 494-8.
Weissleder, R., Moore, A., Mahmood, U., Bhorade, R., Benveniste, H., Chiocca, E. A. &
Basilion, J. P. 2000. In vivo magnetic resonance imaging of transgene expression.
Nature
medicine,
6, 351.
Weissleder, R., Wittenberg, J., Rabito, C. A. & Bengele, H. H. 1990b. Ultrasmall Superparamagnetic
Iron Oxide: Characterization of a New Class of Contrast Agents for MR Imaging'.
Radiology,
175, 489-493.
Wiart, M., Davoust, N., Pialat, J. B., Desestret, V., Moucharaffie, S., Cho, T. H., Mutin, M.,
Langlois, J. B., Beuf, O. & Honnorat, J. 2007. MRI Monitoring of Neuroinflammation in
Mouse Focal Ischemia.
Stroke,
38, 131.
Wilhelm, C., Billotey, C., Roger, J., Pons, J. N., Bacri, J. C. & Gazeau, F. 2003. Intracellular
uptake of anionic superparamagnetic nanoparticles as a function of their surface coating.
Biomaterials,
24, 1001-1011.
Wilhelm, C. & Gazeau, F. 2008. Universal cell labelling with anionic magnetic nanoparticles.
Biomaterials
Wu, H., Pal, D., O, S. J. & Tai, Y.-C. 2008. A Feasibility Study of a Prototype PET Insert
Device to Convert a General-Purpose Animal PET Scanner to Higher Resolution.
J Nucl Med,
49, 79-87.
Yeh, T. C., Zhang, W., Ildstad, S. T. & Ho, C. 1993. Intracellular labeling of T-cells with
superparamagnetic contrast agents.
Magn Reson Med,
30, 617-25.
Zhang, X., Bowen, C. V., Gareau, P. & Rutt, B. K. Year. Quantitative Analysis of SPIO and USPIO
Uptake Rate by Macrophages: Effects of Particle Size, Concentration, and Labeling Time.
In:
Proc. Intl. Soc. Mag. Reson. Med, 2001. 880.
Zhu, J., Zhou, L. & Xingwu, F. G. 2006. Tracking Neural Stem Cells in Patients with Brain
Trauma.
New England Journal of Medicine,
355, 2376.
Ziener, C. H., Bauer, W. R. & Jakob, P. M. 2005. Transverse relaxation of cells labeled with
magnetic nanoparticles.
Magn Reson Med,
54, 702-6.
Zurkiya, O., Chan, A. W. S. & Hu, X. 2008. MagA is sufficient for producing magnetic nano-
particles in mammalian cells, making it an MRI reporter.
Magnetic Resonance in Medicine,
59, 1225-1231.
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