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Journal Abstract Search

121 related items for PubMed ID: 30179669

  • 1. Very small superparamagnetic iron oxide nanoparticles: Long-term fate and metabolic processing in atherosclerotic mice.
    Poller WC, Pieber M, Boehm-Sturm P, Ramberger E, Karampelas V, Möller K, Schleicher M, Wiekhorst F, Löwa N, Wagner S, Schnorr J, Taupitz M, Stangl K, Stangl V, Ludwig A.
    Nanomedicine; 2018 Nov; 14(8):2575-2586. PubMed ID: 30179669
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  • 3. Magnetic Particle Spectroscopy Reveals Dynamic Changes in the Magnetic Behavior of Very Small Superparamagnetic Iron Oxide Nanoparticles During Cellular Uptake and Enables Determination of Cell-Labeling Efficacy.
    Poller WC, Löwa N, Wiekhorst F, Taupitz M, Wagner S, Möller K, Baumann G, Stangl V, Trahms L, Ludwig A.
    J Biomed Nanotechnol; 2016 Feb; 12(2):337-46. PubMed ID: 27305767
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  • 7. Microdistribution of Magnetic Resonance Imaging Contrast Agents in Atherosclerotic Plaques Determined by LA-ICP-MS and SR-μXRF Imaging.
    Uca YO, Hallmann D, Hesse B, Seim C, Stolzenburg N, Pietsch H, Schnorr J, Taupitz M.
    Mol Imaging Biol; 2021 Jun; 23(3):382-393. PubMed ID: 33289060
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  • 8. Europium doping of superparamagnetic iron oxide nanoparticles enables their detection by fluorescence microscopy and for quantitative analytics.
    Kobayashi Y, Hauptmann R, Kratz H, Ebert M, Wagner S, Taupitz M.
    Technol Health Care; 2017 Jun; 25(3):457-470. PubMed ID: 27935574
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  • 10. Biocompatibility of very small superparamagnetic iron oxide nanoparticles in murine organotypic hippocampal slice cultures and the role of microglia.
    Pohland M, Glumm R, Wiekhorst F, Kiwit J, Glumm J.
    Int J Nanomedicine; 2017 Jun; 12():1577-1591. PubMed ID: 28280327
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  • 13. Nanomagnetism reveals the intracellular clustering of iron oxide nanoparticles in the organism.
    Levy M, Wilhelm C, Luciani N, Deveaux V, Gendron F, Luciani A, Devaud M, Gazeau F.
    Nanoscale; 2011 Oct 05; 3(10):4402-10. PubMed ID: 21931920
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  • 14. Inflammation-induced brain endothelial activation leads to uptake of electrostatically stabilized iron oxide nanoparticles via sulfated glycosaminoglycans.
    Berndt D, Millward JM, Schnorr J, Taupitz M, Stangl V, Paul F, Wagner S, Wuerfel JT, Sack I, Ludwig A, Infante-Duarte C.
    Nanomedicine; 2017 May 05; 13(4):1411-1421. PubMed ID: 28131884
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  • 16. Accumulation of ultrasmall superparamagnetic particles of iron oxide in human atherosclerotic plaques can be detected by in vivo magnetic resonance imaging.
    Kooi ME, Cappendijk VC, Cleutjens KB, Kessels AG, Kitslaar PJ, Borgers M, Frederik PM, Daemen MJ, van Engelshoven JM.
    Circulation; 2003 May 20; 107(19):2453-8. PubMed ID: 12719280
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  • 18. Scavenger receptor-AI-targeted iron oxide nanoparticles for in vivo MRI detection of atherosclerotic lesions.
    Segers FM, den Adel B, Bot I, van der Graaf LM, van der Veer EP, Gonzalez W, Raynal I, de Winther M, Wodzig WK, Poelmann RE, van Berkel TJ, van der Weerd L, Biessen EA.
    Arterioscler Thromb Vasc Biol; 2013 Aug 20; 33(8):1812-9. PubMed ID: 23744990
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  • 19. Magnetic labeling of primary murine monocytes using very small superparamagnetic iron oxide nanoparticles.
    Pohland M, Pohland C, Kiwit J, Glumm J.
    Neural Regen Res; 2022 Oct 20; 17(10):2311-2315. PubMed ID: 35259855
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  • 20. Initial interaction of citrate-coated iron oxide nanoparticles with the glycocalyx of THP-1 monocytes assessed by real-time magnetic particle spectroscopy and electron microscopy.
    Poller WC, Löwa N, Schleicher M, Münster-Wandowski A, Taupitz M, Stangl V, Ludwig A, Wiekhorst F.
    Sci Rep; 2020 Feb 27; 10(1):3591. PubMed ID: 32107402
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