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Albumin-based nanoparticles as contrast medium for MRI: vascular imaging, tissue and cell interactions, and pharmacokinetics of second-generation nanoparticles
Department of Radiology, Medical University of Innsbruck, Anichstrasse 35, 6020, Innsbruck, Austria.
Department of Radiology, Medical University of Innsbruck, Anichstrasse 35, 6020, Innsbruck, Austria; Division of Histology and Embryology, Department of Anatomy, Histology and Embryology, Medical University of Innsbruck, Müllerstrasse 59, 6020, Innsbruck, Austria.
Department of Radiology, Medical University of Innsbruck, Anichstrasse 35, 6020, Innsbruck, Austria.
Division of Clinical Biochemistry, Biocenter, Medical University of Innsbruck, Innrain 80-82, 6020, Innsbruck, Austria.
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2021 (English)In: Histochemistry and Cell Biology, ISSN 0948-6143, E-ISSN 1432-119X, Vol. 155, p. 19-73Article in journal (Refereed) Published
Abstract [en]

This multidisciplinary study examined the pharmacokinetics of nanoparticles based on albumin-DTPA-gadolinium chelates, testing the hypothesis that these nanoparticles create a stronger vessel signal than conventional gadolinium-based contrast agents and exploring if they are safe for clinical use. Nanoparticles based on human serum albumin, bearing gadolinium and designed for use in magnetic resonance imaging, were used to generate magnet resonance images (MRI) of the vascular system in rats ("blood pool imaging"). At the low nanoparticle doses used for radionuclide imaging, nanoparticle-associated metals were cleared from the blood into the liver during the first 4 h after nanoparticle application. At the higher doses required for MRI, the liver became saturated and kidney and spleen acted as additional sinks for the metals, and accounted for most processing of the nanoparticles. The multiple components of the nanoparticles were cleared independently of one another. Albumin was detected in liver, spleen, and kidneys for up to 2 days after intravenous injection. Gadolinium was retained in the liver, kidneys, and spleen in significant concentrations for much longer. Gadolinium was present as significant fractions of initial dose for longer than 2 weeks after application, and gadolinium clearance was only complete after 6 weeks. Our analysis could not account quantitatively for the full dose of gadolinium that was applied, but numerous organs were found to contain gadolinium in the collagen of their connective tissues. Multiple lines of evidence indicated intracellular processing opening the DTPA chelates and leading to gadolinium long-term storage, in particular inside lysosomes. Turnover of the stored gadolinium was found to occur in soluble form in the kidneys, the liver, and the colon for up to 3 weeks after application. Gadolinium overload poses a significant hazard due to the high toxicity of free gadolinium ions. We discuss the relevance of our findings to gadolinium-deposition diseases.

Place, publisher, year, edition, pages
Springer, 2021. Vol. 155, p. 19-73
Keywords [en]
Albumin nanoparticles, Immunohistochemistry, MRI contrast medium gadolinium, Pharmacokinetics, Quantitative chemical analysis, Radiolabeling
National Category
Radiology, Nuclear Medicine and Medical Imaging
Identifiers
URN: urn:nbn:se:mau:diva-18780DOI: 10.1007/s00418-020-01919-0ISI: 000576746000001PubMedID: 33040183Scopus ID: 2-s2.0-85092397555OAI: oai:DiVA.org:mau-18780DiVA, id: diva2:1478836
Available from: 2020-10-23 Created: 2020-10-23 Last updated: 2024-06-17Bibliographically approved

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Stollenwerk, Maria Magdalena

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