Abstract
Smart nanoparticles for medical applications have gathered considerable attention due to an improved biocompatibility and multifunctional properties useful in several applications, including advanced drug delivery systems, nanotheranostics and in vivo imaging. Among nanomaterials, zinc oxide nanoparticles (ZnO NPs) were deeply investigated due to their peculiar physical and chemical properties. The large surface to volume ratio, coupled with a reduced size, antimicrobial activity, photocatalytic and semiconducting properties, allowed the use of ZnO NPs as anticancer drugs in new generation physical therapies, nanoantibiotics and osteoinductive agents for bone tissue regeneration. However, ZnO NPs also show a limited stability in biological environments and unpredictable cytotoxic effects thereof. To overcome the abovementioned limitations and further extend the use of ZnO NPs in nanomedicine, doping seems to represent a promising solution. This review covers the main achievements in the use of doped ZnO NPs for nanomedicine applications. Sol-gel, as well as hydrothermal and combustion methods are largely employed to prepare ZnO NPs doped with rare earth and transition metal elements. For both dopant typologies, biomedical applications were demonstrated, such as enhanced antimicrobial activities and contrast imaging properties, along with an improved biocompatibility and stability of the colloidal ZnO NPs in biological media. The obtained results confirm that the doping of ZnO NPs represents a valuable tool to improve the corresponding biomedical properties with respect to the undoped counterpart, and also suggest that a new application of ZnO NPs in nanomedicine can be envisioned.
Highlights
Nanomedicine is an emerging branch of science dealing with the use of smart materials for medical applications
It has been predicted in theory as well as proven in practice that zinc oxide (ZnO) nanoparticles doped with transition metals (TMs) or rare earth (RE) elements can result in a diluted magnetic semiconductor (DMS) material with a high Curie temperature, comprising ferromagnetic properties at room temperature [248,249,250]
Doping represents a valuable tool to extend the use of zinc oxide nanoparticles (ZnO NPs) in nanomedicine
Summary
Nanomedicine is an emerging branch of science dealing with the use of smart materials for medical applications. The insertion of selected elements in the ZnO lattice allows for the generation of a weak ferromagnetic behavior in the doped particle [105,106,107], the tuning of the degradation properties in aqueous environments [58,108], or even the modulation of the electromechanical response [98,99] All these aspects, summarized schematically, may be exploited in nanomedicine to design a multifunctional theranostic nanoplatform able to perform both diagnoses (for example, through magnetic resonance imaging) and therapy (such as photodynamic therapy or enhanced reactive oxygen species generation) at the same time. Crystal cell10,and thePEER riseREVIEW of a stronger spontaneous polarization [116]
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