Customizable, multi-functional fluorocarbon nanoparticles for quantitative in vivo imaging using 19F MRI and optical imaging.

M. SRINIVAS; L.J. CRUZ; F. BONETTO; A. HEERSCHAP; C. G. FIGDOR; J. DE VRIES

BIOMATERIALS

ELSEVIER SCI LTD

Año: 2010 vol. 27 p. 7070 - 7077

0142-9612

Monitoring cell trafficking in vivo noninvasively is critical to improving cellular therapeutics, drugdelivery, and understanding disease progression. In vivo imaging, of which magnetic resonance imaging (MRI) is a key modality, is commonly used for such monitoring. 19F MRI allows extremely specific detection and quantification of cell numbers directly from in vivo image data, longitudinally and without ionizing radiation. We used fluorocarbons previously used in blood substitutes and imaging agents for ultrasound and computed tomography to synthesize monodisperse nanoparticles that are stable at 37 C and can be frozen for storage. These large 19F labeling compounds are insoluble in aqueous environments and often emulsified, typically forming emulsions unsuitable for long-term storage. Instead, we used a non-toxic polymer already in clinical use, poly(D,L-lactide-co-glycolide), to encapsulate a range of 19F compounds. These nanoparticles can be customized in terms of content (imaging agent, fluorescent dye, drug), size (200e2000 nm), coating (targeting agent, antibody) and surface charge (À40 to 30 mV). We added a fluorescent dye and antibody to demonstrate the versatility of this modular imaging agent.These nanoparticles are adaptable to multimodal imaging, although here we focused on MRI and fluorescence imaging. Here, we imaged primary human dendritic cells, as used in clinical vaccines.