Josep Queralt scite author profile

In this review, we discuss the recent advances in and problems with the use of magnetically-guided and magnetically-responsive nanoparticles in drug delivery and magnetofection. In magnetically-guided nanoparticles, a constant external magnetic field is used to transport magnetic nanoparticles loaded with drugs to a specific site within the body or to increase the transfection capacity. Magnetofection is the delivery of nucleic acids under the influence of a magnetic field acting on nucleic acid vectors that are associated with magnetic nanoparticles. In magnetically-responsive nanoparticles, magnetic nanoparticles are encapsulated or embedded in a larger colloidal structure that carries a drug. In this last case, an alternating magnetic field can modify the structure of the colloid, thereby providing spatial and temporal control over drug release.

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Assessment of diclofenac permeation with different formulations: anti-inflammatory study of a selected formula

Escribano

Calpena

Queralt

et al. 2003

European Journal of Pharmaceutical Sciences

132

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Magnetoliposomes prepared by reverse-phase followed by sequential extrusion: Characterization and possibilities in the treatment of inflammation

García-Jimeno

Escribano

Queralt

et al. 2011

International Journal of Pharmaceutics

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External magnetic field-induced selective biodistribution of magnetoliposomes in mice

et al. 2012

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This study looked at the effect of an external magnet on the biodistribution of magnetoliposomes intravenously administrated in mice (8 mg iron/kg) with and without induced acute inflammation. Our results showed that due to enhanced vascular permeability, magnetoliposomes accumulated at the site of inflammation in the absence of an external magnetic field, but the amount of iron present increased under the effect of a magnet located at the inflammation zone. This increase was dependent on the time (20 or 60 min) of exposure of the external magnetic field. It was also observed that the presence of the magnet was associated with lower amounts of iron in the liver, spleen, and plasma than was found in mice in which a magnet had not been applied. The results of this study confirm that it is possible to target drugs encapsulated in magnetic particles by means of an external magnet.

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Josep Queralt

Iron Oxide Nanoparticles for Magnetically-Guided and Magnetically-Responsive Drug Delivery

Assessment of diclofenac permeation with different formulations: anti-inflammatory study of a selected formula

Magnetoliposomes prepared by reverse-phase followed by sequential extrusion: Characterization and possibilities in the treatment of inflammation

External magnetic field-induced selective biodistribution of magnetoliposomes in mice

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