Fiche publication


Date publication

novembre 2014

Journal

ACS nano

Auteurs

Membres identifiés du Cancéropôle Est :
Pr BEGIN-COLIN Sylvie , Dr MENARD-MOYON Cécilia , Dr BIANCO Alberto


Tous les auteurs :
Liu X, Marangon I, Melinte G, Wilhelm C, Ménard-Moyon C, Pichon BP, Ersen O, Aubertin K, Baaziz W, Pham-Huu C, Bégin-Colin S, Bianco A, Gazeau F, Bégin D

Résumé

Nanocomposites combining multiple functionalities in one single nano-object hold great promise for biomedical applications. In this work, carbon nanotubes (CNTs) were filled with ferrite nanoparticles (NPs) to develop the magnetic manipulation of the nanotubes and their theranostic applications. The challenges were both the filling of CNTs with a high amount of magnetic NPs and their functionalization to form biocompatible water suspensions. We propose here a filling process using CNTs as nanoreactors for high-yield in situ growth of ferrite NPs into the inner carbon cavity. At first, NPs were formed inside the nanotubes by thermal decomposition of an iron stearate precursor. A second filling step was then performed with iron or cobalt stearate precursors to enhance the encapsulation yield and block the formed NPs inside the tubes. Water suspensions were then obtained by addition of amino groups via the covalent functionalization of the external surface of the nanotubes. Microstructural and magnetic characterizations confirmed the confinement of NPs into the anisotropic structure of CNTs making them suitable for magnetic manipulations and MRI detection. Interactions of highly water-dispersible CNTs with tumor cells could be modulated by magnetic fields without toxicity, allowing control of their orientation within the cell and inducing submicron magnetic stirring. The magnetic properties were also used to quantify CNTs cellular uptake by measuring the cell magnetophoretic mobility. Finally, the photothermal ablation of tumor cells could be enhanced by magnetic stimulus, harnessing the hybrid properties of NP loaded-CNTs.

Mots clés

Diagnostic Imaging, instrumentation, Magnetics, Metal Nanoparticles, chemistry, Microscopy, Electron, Transmission, Nanotubes, Carbon, chemistry, Oxides, chemistry

Référence

ACS Nano. 2014 Nov 25;8(11):11290-304