Influence of magnetic nanoparticle biotransformation on contrasting efficiency and iron metabolism.

Magnetic nanoparticles are widely used in biomedicine for MRI imaging and anemia treatment. The aging of these nanomaterials in vivo may lead to gradual diminishing of their contrast properties and inducing toxicity. Here, we describe observation of the full lifecycle of 40-nm magnetic particles from their injection to the complete degradation in vivo and associated impact on the organism.

Macrophage blockade using nature-inspired ferrihydrite for enhanced nanoparticle delivery to tumor.

The rapid elimination of systemically administered drug nanocarriers by the mononuclear phagocyte system (MPS) compromises nanomedicine delivery efficacy. To mitigate this problem, an approach to block the MPS has been introduced and implemented by intravenous pre-administering blocker nanoparticles. The required large doses of blocker nanoparticles appeared to burden the MPS, raising toxicity concerns.

Long-Term Fate of Magnetic Particles in Mice: A Comprehensive Study.

Safe application of nanoparticles in medicine requires full understanding of their pharmacokinetics including catabolism in the organism. However, information about nanoparticle degradation is still scanty due to difficulty of long-term measurements by invasive techniques. Here, we describe a magnetic spectral approach for monitoring of magnetic particle (MP) degradation.