In Vivo Deep Tissue Fluorescence and Magnetic Imaging Employing Hybrid Nanostructures
journal contributionposted on 20.01.2016 by Dirk H. Ortgies, Leonor de la Cueva, Blanca del Rosal, Francisco Sanz-Rodríguez, Nuria Fernández, M. Carmen Iglesias-de la Cruz, Gorka Salas, David Cabrera, Francisco J. Teran, Daniel Jaque, Emma Martín Rodríguez
Any type of content formally published in an academic journal, usually following a peer-review process.
Breakthroughs in nanotechnology have made it possible to integrate different nanoparticles in one single hybrid nanostructure (HNS), constituting multifunctional nanosized sensors, carriers, and probes with great potential in the life sciences. In addition, such nanostructures could also offer therapeutic capabilities to achieve a wider variety of multifunctionalities. In this work, the encapsulation of both magnetic and infrared emitting nanoparticles into a polymeric matrix leads to a magnetic-fluorescent HNS with multimodal magnetic-fluorescent imaging abilities. The magnetic-fluorescent HNS are capable of simultaneous magnetic resonance imaging and deep tissue infrared fluorescence imaging, overcoming the tissue penetration limits of classical visible-light based optical imaging as reported here in living mice. Additionally, their applicability for magnetic heating in potential hyperthermia treatments is assessed.