Issue 39, 2013

Synthesis of nanoparticles, their biocompatibility, and toxicity behavior for biomedical applications

Abstract

Nanomaterials research has in part been focused on their use in biomedical applications for more than several decades. However, in recent years this field has been developing to a much more advanced stage by carefully controlling the size, shape, and surface-modification of nanoparticles. This review provides an overview of two classes of nanoparticles, namely iron oxide and NaLnF4, and synthesis methods, characterization techniques, study of biocompatibility, toxicity behavior, and applications of iron oxide nanoparticles and NaLnF4 nanoparticles as contrast agents in magnetic resonance imaging. Their optical properties will only briefly be mentioned. Iron oxide nanoparticles show a saturation of magnetization at low field, therefore, the focus will be MLnF4 (Ln = Dy3+, Ho3+, and Gd3+) paramagnetic nanoparticles as alternative contrast agents which can sustain their magnetization at high field. The reason is that more potent contrast agents are needed at magnetic fields higher than 7 T, where most animal MRI is being done these days. Furthermore we observe that the extent of cytotoxicity is not fully understood at present, in part because it is dependent on the size, capping materials, dose of nanoparticles, and surface chemistry, and thus needs optimization of the multidimensional phenomenon. Therefore, it needs further careful investigation before being used in clinical applications.

Graphical abstract: Synthesis of nanoparticles, their biocompatibility, and toxicity behavior for biomedical applications

Article information

Article type
Feature Article
Submitted
24 May 2013
Accepted
10 Jul 2013
First published
11 Jul 2013

J. Mater. Chem. B, 2013,1, 5186-5200

Synthesis of nanoparticles, their biocompatibility, and toxicity behavior for biomedical applications

A. Gautam and F. C. J. M. van Veggel, J. Mater. Chem. B, 2013, 1, 5186 DOI: 10.1039/C3TB20738B

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