Hollow carbon nanospheres embedded with stoichiometric gamma-Fe2O3 and GdPO4: tuning the nanospheres for in vitro and in vivo size effect evaluation
Nanoscale advances(2022)
Abstract
The size modulation of hollow carbon nanospheres (HCSs) has attracted great interest in the contexts of cellular uptake, drug delivery and bioimaging. In this study, a facile fabrication method was specifically used to minimize all influencing factors except for the particle size. A series of nanoparticles of hollow carbon nanospheres embedded with magnetic resonance imaging (MRI) nanoagent gamma-Fe2O3 and GdPO4 nanoparticles (Fe-Gd/HCS), were successfully prepared and applied to in vitro/vivo evaluation with well-defined sizes of similar to 100 nm (Fe-Gd/HCS-S), similar to 200 nm (Fe-Gd/HCS-M), and similar to 300 nm (Fe-Gd/HCS-L), respectively. Then the in vitro size effect of Fe-Gd/HCS was systematically investigated by bio-TEM, CLSM, CCK-8 assay, and flow cytometry revealing that Fe-Gd/HCS could be internalized and the cellular uptake amounts increase with the decrease of size. Furthermore, the in vivo size-effect behavior of Fe-Gd/HCS (similar to 100 nm, similar to 200 nm, similar to 300 nm) was tracked by MRI technique, demonstrating that all Fe-Gd/HCS can distinguish the liver, in which Fe-Gd/HCS with the smallest particle size exhibited the best performance among these nanoparticles. By leveraging on these features, Fe-Gd/HCS-S (similar to 100 nm) was further chosen as a theranostic agent, preliminarily presenting its capability for multi-modal imaging and therapy.
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Key words
hollow carbon nanospheres
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