Safety Issue of Changed Nanotoxicity of Zinc Oxide Nanoparticles in the Multicomponent System

Abstract: When nanomaterials are exposed to complex systems, such as food, they may cause significant changes in physical and chemical properties and even toxicity. The toxicity evaluation of complex systems is urgent. Unfortunately, so far, there is no database established about the toxicity changes of nanoparticles in composite systems. In this paper, the changes and toxicity mechanism of zinc oxide nanoparticles (ZnO NPs) in a composite system are studied. The results show that the dissolution of zinc ions (Zn2+) in … Show more

“…I3Bs-Research Institute on Biomaterials Biodegradables and Biomimetics University of Minho Guimarães 4805-017, Portugal Moreover, our previous research suggested that zinc-based nanomaterials accumulation could induce tumor-reactive oxygen species (ROS) production. [18] Elevated ROS levels can initiate apoptosis and inducing high levels of ROS in tumor is one of the important means of tumor treatment. [19] However, the high content of glutathione (GSH) in the tumor microenvironment can eliminate excessive ROS in the tumor and reduce the damage of ROS to cancer cells.…”

Zinc‐Organometallic Framework Vaccine Controlled‐Release Zn²⁺ Regulates Tumor Extracellular Matrix Degradation Potentiate Efficacy of Immunotherapy

“…I3Bs-Research Institute on Biomaterials Biodegradables and Biomimetics University of Minho Guimarães 4805-017, Portugal Moreover, our previous research suggested that zinc-based nanomaterials accumulation could induce tumor-reactive oxygen species (ROS) production. [18] Elevated ROS levels can initiate apoptosis and inducing high levels of ROS in tumor is one of the important means of tumor treatment. [19] However, the high content of glutathione (GSH) in the tumor microenvironment can eliminate excessive ROS in the tumor and reduce the damage of ROS to cancer cells.…”

Zinc‐Organometallic Framework Vaccine Controlled‐Release Zn²⁺ Regulates Tumor Extracellular Matrix Degradation Potentiate Efficacy of Immunotherapy

“…Further, the functional versatility of nanomaterials renders them affordable for applications or use in diverse fields spanning over electronics, biomedicine [ 17 , 18 ], environment remediation [ 210 ], catalysis [ 211 ], agriculture [ 40 ], and cosmetics industries. However, the release of Zn nanomaterial through municipal wastewater/sewage water, industrial effluent, and surface wash water drifts these nanomaterials to contaminate diverse soil and water ecosystems posing gradual and subtle to drastic effects on soil and aquatic biota thereby exacerbating the health and sanctity of the contaminated eco-niches [ 212 ]. The semiconductor (oxidative stress-inducing) properties and heavy metal nature of the zinc nanomaterials (bioaccumulation) further complicate their ecotoxicity concerns [ 213 ] besides the fundamental nanoscale aspects (quantum size effects-size, shape, surface charge-dependent properties, and agglomeration/complexation processes), which lead to diverse cyto-/genotoxic and onco-/mutagenic effects [ 214 ].…”

Zinc-Based Nanomaterials for Diagnosis and Management of Plant Diseases: Ecological Safety and Future Prospects

Pathways of nanotoxicity: Modes of detection, impact, and challenges