M.F. Da Silva scite author profile

Magnetic resonance was used to investigate the kinetic disposition of magnetite nanoparticles (9.4 nm core diameter) from the blood circulation after intravenous injection of magnetite-based dextran-coated magnetic fluid in female Swiss mice. In the first 60 min the time-decay of the nanoparticle concentration in the blood circulation follows the one-exponential (one-compartment) model with a half-life of (6.9 +/- 0.7) min. The X-band spectra show a broad single line at g approximately 2, typical of nanomagnetic particles suspended in a nonmagnetic matrix. The resonance field shifts toward higher values as the particle concentration reduces, following two distinct regimes. At the higher concentration regime (above 10(14) cm(-3)) the particle-particle interaction responds for the nonlinear behavior, while at the lower concentration regime (below 10(14) cm(-3)) the particle-particle interaction is ruled out and the system recovers the linearity due to the demagnetizing field effect alone.

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Biomedical applications of maghemite ferrofluid

Halbreich

Roger²,

Pons³

et al. 1998

Biochimie

122

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A double-coated magnetite-based magnetic fluid evaluation by cytometry and genetic tests

Freitas

Silva

Azevedo

et al. 2002

Journal of Magnetism and Magnetic Materials

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Toxic effects of ionic magnetic fluids in mice

Lacava

Azevedo

Lacava

et al. 1999

Journal of Magnetism and Magnetic Materials

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Proposal of a magnetohyperthermia system: preliminary biological tests

Guedes

Morais

Silva

et al. 2004

Journal of Magnetism and Magnetic Materials

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M.F. Da Silva

Magnetic Resonance of a Dextran-Coated Magnetic Fluid Intravenously Administered in Mice

Biomedical applications of maghemite ferrofluid

A double-coated magnetite-based magnetic fluid evaluation by cytometry and genetic tests

Toxic effects of ionic magnetic fluids in mice

Proposal of a magnetohyperthermia system: preliminary biological tests

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