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.
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