Zinc oxide nanoparticles for selective destruction of tumor cells and potential for drug delivery applications.
TLDR
Through a better understanding of the mechanisms of action and cellular consequences resulting from nanoparticles interactions with cells, the inherent toxicity and selectivity of ZnO nanoparticles against cancer may be improved further to make them attractive new anticancer agents.Abstract:
Importance of the field: Metal oxide nanoparticles, including zinc oxide, are versatile platforms for biomedical applications and therapeutic intervention. There is an urgent need to develop new classes of anticancer agents, and recent studies demonstrate that ZnO nanomaterials hold considerable promise.Areas covered in this review: This review analyzes the biomedical applications of metal oxide and ZnO nanomaterials under development at the experimental, preclinical and clinical levels. A discussion regarding the advantages, approaches and limitations surrounding the use of metal oxide nanoparticles for cancer applications and drug delivery is presented. The scope of this article is focused on ZnO, and other metal oxide nanomaterial systems, and their proposed mechanisms of cytotoxic action, as well as current approaches to improve their targeting and cytotoxicity against cancer cells.What the reader will gain: This review aims to give an overview of ZnO nanomaterials in biomedical applications.Take home...read more
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Review on Zinc Oxide Nanoparticles: Antibacterial Activity and Toxicity Mechanism.
Amna Sirelkhatim,Shahrom Mahmud,Azman Seeni,Noor Haida Mohamad Kaus,Ling Chuo Ann,Siti Khadijah Mohd Bakhori,Habsah Hasan,Dasmawati Mohamad +7 more
TL;DR: This review covered ZnO-NPs antibacterial activity including testing methods, impact of UV illumination,ZnO particle properties (size, concentration, morphology, and defects), particle surface modification, and minimum inhibitory concentration.
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Antimicrobial activity of the metals and metal oxide nanoparticles
Solmaz Maleki Dizaj,Farzaneh Lotfipour,Mohammad Barzegar-Jalali,Mohammad Hossein Zarrintan,Khosro Adibkia +4 more
TL;DR: Books indicated that the particle size was the essential parameter which determined the antimicrobial effectiveness of the metal nanoparticles, and further studies should be performed to minimize the toxicity of metal and metal oxide nanoparticles to apply as proper alternatives for antibiotics and disinfectants especially in biomedical applications.
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The Advancing of Zinc Oxide Nanoparticles for Biomedical Applications
TL;DR: The synthesis and recent advances of ZnO NPs in the biomedical fields are summarized, which will be helpful for facilitating their future research progress and focusing on biomedical fields.
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Zinc oxide nanoparticles induce oxidative DNA damage and ROS-triggered mitochondria mediated apoptosis in human liver cells (HepG2)
TL;DR: The results demonstrate that HepG2 cells exposed to 14–20 μg/ml ZnO nanoparticles for 12 h showed a decrease in cell viability and the mode of cell death induced by Zn O nanoparticles was apoptosis, and apoptosis was found to be independent of JNK and p38 pathways.
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Biomedical Applications of Zinc Oxide Nanomaterials
TL;DR: The current status of the use of ZnO nanomaterials for biomedical applications, such as biomedical imaging, drug delivery, gene delivery, and biosensing of a wide array of molecules of interest are summarized.
References
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TL;DR: Nanotechnology is a multidisciplinary field, which covers a vast and diverse array of devices derived from engineering, biology, physics and chemistry that can provide essential breakthroughs in the fight against cancer.
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The Role of Metal Ion Dopants in Quantum-Sized TiO2: Correlation between Photoreactivity and Charge Carrier Recombination Dynamics
TL;DR: In this article, the presence of metal ion dopants in the TiO_2 crystalline matrix significantly influences photoreactivity, charge carrier recombination rates, and interfacial electron-transfer rates.
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Impact of Nanotechnology on Drug Delivery
TL;DR: This work focuses on the application of nanotechnology to drug delivery and highlights several areas of opportunity where current and emerging nanotechnologies could enable entirely novel classes of therapeutics.