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Multifunctional yolk-in-shell nanoparticles for pH-triggered drug release and imaging

Abstract:

Multifunctional nanoparticles are synthesized for both pH-triggered drug release and imaging with radioluminescence, upconversion luminescent, and magnetic resonance imaging (MRI). The particles have a yolk-in-shell morphology, with a radioluminescent core, an upconverting shell, and a hollow region between the core and shell for loading drugs. They are synthesized by controlled encapsulation of a radioluminescent nanophosphor yolk in a silica shell, partial etching of the yolk in acid, and encapsulation of the silica with an upconverting luminescent shell. Metroxantrone, a chemotherapy drug, was loaded into the hollow space between X-ray phosphor yolk and up-conversion phosphor shell through pores in the shell. To encapsulate the drug and control the release rate, the nanoparticles are coated with pH-responsive biocompatible polyelectrolyte layers of charged hyaluronic acid sodium salt and chitosan. The nanophosphors display bright luminescence under X-ray, blue light (480 nm), and near infrared light (980 nm). They also served as T1 and T 2 MRI contrast agents with relaxivities of 3.5 mM-1 s -1 (r1) and 64 mM-1s-1 (r 2). These multifunctional nanocapsules have applications in controlled drug delivery and multimodal imaging. Multifunctional nanoparticles are synthesized for pH-triggered drug release and imaging with radioluminescence, upconversion luminescence, and magnetic resonance imaging (MRI). The particles have a yolk-in-shell morphology, with a radioluminescent core, an upconverting shell, and a hollow region between the core and shell for loading drugs. The nanophosphors display bright luminescence under X-ray, blue light (480 nm), and near infrared light (980 nm). © 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.