Size and Surface Effects on the MRI Relaxivity of Manganese Ferrite Nanoparticle Contrast Agents

Overview

Journal Nano Lett

Publisher American Chemical Society

Specialty Biotechnology

Date 2007 Jul 31

PMID 17658761

Citations 79

Authors

Ulrich I Tromsdorf

Nadja C Bigall

Michael G Kaul

Oliver T Bruns

Marija S Nikolic

Birgit Mollwitz

Ralph A Sperling

Rudolph Reimer

Heinz Hohenberg

Wolfgang J Parak

Stephan Forster

Ulrike Beisiegel

Gerhard Adam

Horst Weller

Affiliations

Soon will be listed here.

Abstract

Superparamagnetic MnFe2O4 nanocrystals of different sizes were synthesized in high-boiling ether solvent and transferred into water using three different approaches. First, we applied a ligand exchange in order to form a water soluble polymer shell. Second, the particles were embedded into an amphiphilic polymer shell. Third, the nanoparticles were embedded into large micelles formed by lipids. Although all approaches lead to effective negative contrast enhancement, we observed significant differences concerning the magnitude of this effect. The transverse relaxivity, in particular r2*, is greatly higher for the micellar system compared to the polymer-coated particles using same-sized nanoparticles. We also observed an increase in transverse relaxivities with increasing particle size for the polymer-coated nanocrystals. The results are qualitatively compared with theoretical models describing the dependence of relaxivity on the size of magnetic spheres.

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