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Hybrid Ultrasound-Activated Nanoparticles Based on Graphene Quantum Dots for Cancer Treatment Publisher Pubmed



Ramedani A1 ; Sabzevari O2, 3 ; Simchi A1, 4
Authors
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Authors Affiliations
  1. 1. Institute for Nanoscience & Nanotechnology (INST), Sharif University of Technology, P.O. Box 11365-9466, Tehran, Azadi Avenue, 14588, Iran
  2. 2. Department of Toxicology and Pharmacology, Faculty of Pharmacy, Tehran University of Medical Sciences, Tehran, Iran
  3. 3. Toxicology and Poisoning Research Centre, Tehran University of Medical Sciences, Tehran, Iran
  4. 4. Department of Materials Science and Engineering, Sharif University of Technology, P.O. Box 11365-9466, Tehran, Azadi Avenue, 14588, Iran

Source: International Journal of Pharmaceutics Published:2022


Abstract

Theranostic liposomes have recently found a broad range of applications in nanomedicine due to stability, the high solubility of biomacromolecules, bioavailability, efficacy, and low adverse effects. However, the limitations of liposomes concerning the short systemic circulation in the body, limited controllability of the release rate, and the inability of in vivo imaging remain challenging. Herein, the development of novel hybrid ultrasound-activated piezoelectric nanoparticles based on a hybrid liposome nanocarrier composed of poly(vinylidene fluoride‐trifluoroethylene), graphene quantum dots (GQDs), and Silibinin (a hydrophobic drug) is presented. The hybrid nanoparticles are an acoustically sensitive drug delivery platform that releases the biomacromolecules in a specific tissue area (through surface labeling with PD-1 antibody) in a non-invasive and controlled manner. We show that the developed hybrid nanoparticles (with an average outer diameter of ∼ 230 ± 20 nm) enable piezoelectric-stimulated drug delivery combined with simultaneous fluorescent imaging of cancer cells in vivo. Significant enhancement (>80 % up to 240 h) and tunable drug release from the nanocarrier through enhanced diffusion from the liposome membrane are demonstrated. Cytotoxicity assays using MCF-7, 4T1, and NIH3T3 cell lines exhibit no confrontational influence of nanoparticles on cell viability up to 125 µg/ml. The PD-1 antibody on the surface of the hybrid nanocarrier allows for selective delivery to breast cancer tumors and low biodistribution to other tissues. Our results affirm that the developed ultrasound-activated piezoelectric nanoparticles have great potential as multifunctional platforms with sustainable release profiles for the delivery of hydrophobic drugs to breast cancer, especially when the ability for adequate labeling and cell monitoring is valued. © 2022 Elsevier B.V.
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