Introducing Specificity to Iron Oxide Nanoparticle Imaging by Combining <sup>57</sup>Fe-Based MRI and Mass Spectrometry.

Masthoff, Max; Buchholz, Rebecca; Beuker, Andre; Wachsmuth, Lydia; Kraupner, Alexander; Albers, Franziska; Freppon, Felix; Helfen, Anne; Gerwing, Mirjam; Höltke, Carsten; Hansen, Uwe; Rehkämper, Jan; Vielhaber, Torsten; Heindel, Walter; Eisenblätter, Michel; Karst, Uwe; Wildgruber, Moritz; Faber, Cornelius

Introducing Specificity to Iron Oxide Nanoparticle Imaging by Combining ⁵⁷Fe-Based MRI and Mass Spectrometry.

Masthoff, Max; Buchholz, Rebecca; Beuker, Andre; Wachsmuth, Lydia; Kraupner, Alexander; Albers, Franziska; Freppon, Felix; Helfen, Anne; Gerwing, Mirjam; Höltke, Carsten; Hansen, Uwe; Rehkämper, Jan; Vielhaber, Torsten; Heindel, Walter; Eisenblätter, Michel; Karst, Uwe; Wildgruber, Moritz; Faber, Cornelius.

Affiliation

Masthoff M; Translational Research Imaging Center, Institute of Clinical Radiology , University Hospital Muenster , 48149 Muenster , Germany.
Buchholz R; Institute for Inorganic and Analytical Chemistry, University of Muenster , 48149 Muenster , Germany.
Beuker A; Translational Research Imaging Center, Institute of Clinical Radiology , University Hospital Muenster , 48149 Muenster , Germany.
Wachsmuth L; Translational Research Imaging Center, Institute of Clinical Radiology , University Hospital Muenster , 48149 Muenster , Germany.
Kraupner A; nanoPET Pharma GmbH , 10115 Berlin , Germany.
Albers F; Translational Research Imaging Center, Institute of Clinical Radiology , University Hospital Muenster , 48149 Muenster , Germany.
Freppon F; Translational Research Imaging Center, Institute of Clinical Radiology , University Hospital Muenster , 48149 Muenster , Germany.
Helfen A; Translational Research Imaging Center, Institute of Clinical Radiology , University Hospital Muenster , 48149 Muenster , Germany.
Gerwing M; Translational Research Imaging Center, Institute of Clinical Radiology , University Hospital Muenster , 48149 Muenster , Germany.
Höltke C; Translational Research Imaging Center, Institute of Clinical Radiology , University Hospital Muenster , 48149 Muenster , Germany.
Hansen U; Institute for Musculoskeletal Medicine , University Hospital Muenster , 48149 Muenster , Germany.
Rehkämper J; Institute of Pathology , University Hospital Muenster , 48149 Muenster , Germany.
Vielhaber T; Institute for Inorganic and Analytical Chemistry, University of Muenster , 48149 Muenster , Germany.
Heindel W; Translational Research Imaging Center, Institute of Clinical Radiology , University Hospital Muenster , 48149 Muenster , Germany.
Eisenblätter M; Translational Research Imaging Center, Institute of Clinical Radiology , University Hospital Muenster , 48149 Muenster , Germany.
Karst U; Institute for Inorganic and Analytical Chemistry, University of Muenster , 48149 Muenster , Germany.
Wildgruber M; DFG Cluster of Excellence EXC 1003 "Cells in Motion" , University of Muenster , 48149 Muenster , Germany.
Faber C; Translational Research Imaging Center, Institute of Clinical Radiology , University Hospital Muenster , 48149 Muenster , Germany.

Nano Lett ; 19(11): 7908-7917, 2019 11 13.

Article in En | MEDLINE | ID: mdl-31556617

ABSTRACT

Iron oxide nanoparticles (ION) are highly sensitive probes for magnetic resonance imaging (MRI) that have previously been used for in vivo cell tracking and have enabled implementation of several diagnostic tools to detect and monitor disease. However, the in vivo MRI signal of ION can overlap with the signal from endogenous iron, resulting in a lack of detection specificity. Therefore, the long-term fate of administered ION remains largely unknown, and possible tissue deposition of iron cannot be assessed with established methods. Herein, we combine nonradioactive 57Fe-ION MRI with ex vivo laser ablation-inductively coupled plasma-mass spectrometry (LA-ICP-MS) imaging, enabling unambiguous differentiation between endogenous iron (56Fe) and iron originating from applied ION in mice. We establish 57Fe-ION as an in vivo MRI sensor for cell tracking in a mouse model of subcutaneous inflammation and for assessing the long-term fate of 57Fe-ION. Our approach resolves the lack of detection specificity in ION imaging by unambiguously recording a 57Fe signature.

Subject(s)

Ferric Compounds/analysis; Inflammation/diagnostic imaging; Magnetic Resonance Imaging/methods; Mass Spectrometry/methods; Nanoparticles/analysis; Animals; Cell Tracking/methods; Iron/analysis; Iron Isotopes/analysis; Mice

Key words

MRI; cell tracking; iron oxide nanoparticles; long-term fate; mass spectrometry

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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Mass Spectrometry / Magnetic Resonance Imaging / Ferric Compounds / Nanoparticles / Inflammation Limits: Animals Language: En Journal: Nano Lett Year: 2019 Type: Article Affiliation country: Germany

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