Magnetic nanoparticles for magnetic drug targeting

Author:

Lyer Stefan,Singh Raminder,Tietze Rainer,Alexiou Christoph

Abstract

AbstractNanomedicine and superparamagnetic iron oxide nanoparticles (SPIONs) are thought to have an important impact on medicine in the future. Especially in cancer therapy, SPIONs offer the opportunity of improving the effectivity of the treatment and reduce side effects by magnetic accumulation of SPION-bound chemotherapeutics in the tumor area. Although still some challenges have to be overcome, before the new treatment concept of magnetic drug targeting will reach the patients, substantial progress has been made, and promising results were shown in the last years.

Publisher

Walter de Gruyter GmbH

Subject

Biomedical Engineering

Reference196 articles.

1. Deep magnetic capture of magnetically loaded cells for spatially targeted therapeutics;Huang;Biomaterials,2010

2. Synthetic routes to magnetic nanoparticles for;Kratz;Biomed Eng Biomed Tech,2013

3. Improved drug targeting to liver tumors after intra - arterial delivery using superparamagnetic iron oxide and iodized oil preclinical study in a rabbit model;Lee;Invest Radiol,2013

4. Distribution of magnetic nanoparticles after magnetic drug targeting in anex vivobovine artery model In editor World Congress;Lyer,2009

5. Visualisation of tumour regression after local chemotherapy with magnetic nanoparticles a pilot study;Lyer;Anticancer Res,2010

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