Beyond the promise: Exploring the complex interactions of nanoparticles within biological systems

The exploration of nanoparticle applications is filled with promise, but their impact on the environment and human health raises growing concerns. These tiny environmental particles can enter the human body through various routes, such as the respiratory system, digestive tract, skin absorption, int...

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Veröffentlicht in:	Journal of hazardous materials 2024-04, Vol.468, p.133800, Article 133800
Hauptverfasser:	Ji, Yunxia, Wang, Yunqing, Wang, Xiaoyan, Lv, Changjun, Zhou, Qunfang, Jiang, Guibin, Yan, Bing, Chen, Lingxin
Format:	Artikel
Sprache:	eng
Schlagworte:	Biological system Cell Membrane - metabolism Complex interaction Humans Nanoparticle Nanoparticles - chemistry Nanoparticles - toxicity Physiological system Skin Absorption Technology Toxic effect
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creator	Ji, Yunxia Wang, Yunqing Wang, Xiaoyan Lv, Changjun Zhou, Qunfang Jiang, Guibin Yan, Bing Chen, Lingxin
description	The exploration of nanoparticle applications is filled with promise, but their impact on the environment and human health raises growing concerns. These tiny environmental particles can enter the human body through various routes, such as the respiratory system, digestive tract, skin absorption, intravenous injection, and implantation. Once inside, they can travel to distant organs via the bloodstream and lymphatic system. This journey often results in nanoparticles adhering to cell surfaces and being internalized. Upon entering cells, nanoparticles can provoke significant structural and functional changes. They can potentially disrupt critical cellular processes, including damaging cell membranes and cytoskeletons, impairing mitochondrial function, altering nuclear structures, and inhibiting ion channels. These disruptions can lead to widespread alterations by interfering with complex cellular signaling pathways, potentially causing cellular, organ, and systemic impairments. This article delves into the factors influencing how nanoparticles behave in biological systems. These factors include the nanoparticles' size, shape, charge, and chemical composition, as well as the characteristics of the cells and their surrounding environment. It also provides an overview of the impact of nanoparticles on cells, organs, and physiological systems and discusses possible mechanisms behind these adverse effects. Understanding the toxic effects of nanoparticles on physiological systems is crucial for developing safer, more effective nanoparticle-based technologies. [Display omitted] •Review of the interactions of nanoparticles within biological systems.•Analyses of how nanoparticles' properties affect their biological outcomes.•Elucidation of the mechanisms that nanoparticles disrupt biological process.•Standardized protocols for nanotoxicity testing need to be established.
doi_str_mv	10.1016/j.jhazmat.2024.133800
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These tiny environmental particles can enter the human body through various routes, such as the respiratory system, digestive tract, skin absorption, intravenous injection, and implantation. Once inside, they can travel to distant organs via the bloodstream and lymphatic system. This journey often results in nanoparticles adhering to cell surfaces and being internalized. Upon entering cells, nanoparticles can provoke significant structural and functional changes. They can potentially disrupt critical cellular processes, including damaging cell membranes and cytoskeletons, impairing mitochondrial function, altering nuclear structures, and inhibiting ion channels. These disruptions can lead to widespread alterations by interfering with complex cellular signaling pathways, potentially causing cellular, organ, and systemic impairments. This article delves into the factors influencing how nanoparticles behave in biological systems. 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subjects	Biological system Cell Membrane - metabolism Complex interaction Humans Nanoparticle Nanoparticles - chemistry Nanoparticles - toxicity Physiological system Skin Absorption Technology Toxic effect
title	Beyond the promise: Exploring the complex interactions of nanoparticles within biological systems
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