AI Article Synopsis
- * Naproxen is used as a model to assess the nanoparticles' loading and delivery capabilities, while Pd nanosheets are synthesized within the polymeric micelles via a process involving a Pd precursor and carbon monoxide reduction.
- * The resulting Pd-containing nanoparticles are found to be biocompatible in various cell lines and show promise as effective photothermal transductors for potential applications in photothermal therapy.
Article Abstract
The synthesis of polymeric nanoparticles from a block copolymer based on poly(ethylene glycol) and a polymethacrylate containing the nucleobase analog 2,6-diacylaminopyridine is optimized by microfluidics to obtain homogeneous spherical micelles. Loading and delivery properties are studied using naproxen as a model. The incorporation of a Pd precursor in the polymer organic solution fed into the micromixer allows the preparation of Pd(II) precursor-polymer hybrid systems and the subsequent reduction with CO leads to the in situ synthesis of Pd nanosheets inside of the hydrophobic core of the polymeric micelles. This methodology is highly efficient to yield all polymeric nanoparticles loaded with Pd nanosheets as detected by electron microscopy and energy-dispersive X-ray spectroscopy. The cell viability of these Pd nanosheets-containing polymeric nanoparticles is evaluated using five cell lines, showing a high cytocompatibility at the tested concentrations without detrimental effects in cell membrane and nuclei. Furthermore, the use of these hybrid polymeric nanoparticles as photothermal transductors is evaluated using near infrared as irradiation source as well as its application in photothermal therapy using different cell lines demonstrating a high efficiency in all cell cultures.
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| http://dx.doi.org/10.1002/mabi.202100528 | DOI Listing |
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