Benjamin Marty1, Nicolas Ginet2, Christopher Lefevre2, Daniel Garcia2, Franck Lethimonnier1, Denis Le Bihan1, Sbastien Mriaux1, David Pignol2
1CEA/DSV/I2BM/NeuroSpin, Gif sur Yvette, France; 2CEA/DSV/IBEB/Laboratoire de Bionergtique Cellulaire, Saint-Paul-lez-Durance, France
In this study we present a new class of superparamagnetic nano-particles, produced naturally by magnetotactic bacteria, and which regroup different characteristics of interest for biomedical applications: a perfectly crystalline and regular nanocrystal of magnetite, a natural lipid bilayer coating the nanoparticles, ensuring their solubilization and a possible functionalization of the lipid surface with biological functions for cellular targeting or in situ enzymatic catalysis. Transverse relaxivity of magnetosomes was measured at high magnetic field (17.2T) and preliminary experiments were performed on mice demonstrating the high in vivo sensivity of such contrast agents.