Abstract
Silver-based materials are widely used in clinical medicine. Furthermore, the usage of silver containing materials and devices is widely recommended and clinically approved. The impact on human health of the increasing use of silver nanoparticles in medical devices remains understudied, even though Ag-containing dressings are known to release silver into the bloodstream. In this study, we detected a widespread and sometimes significant silver accumulation both in healthy and sick liver biopsies, levels being statistically higher in patients with various hepatic pathologies. 28 healthy and 44 cirrhotic liver samples were investigated. The median amount of 0.049 ppm Ag in livers was measured in cirrhotic livers while the median was 0.0016 ppm for healthy livers (a more than 30-fold difference). The mean tissue concentrations of essential metals, Fe and Zn in cirrhotic livers did not differ substantially from healthy livers, while Cu was positively correlated with Ag. The serum levels of gamma-glutamyl transpeptidase (GGTP) was also positively correlated with Ag in cirrhotic livers. The increased Ag accumulation in cirrhotic livers could be a side effect of wide application of silver in clinical settings. As recent studies indicated a significant toxicity of silver nanoparticles for human cells, the above observation could be of high importance for the public health.
Highlights
Nanotechnology is currently engaged in developing advanced functional materials for industrial and biomedical applications
Some examples of the use of silver include second-generation catheters impregnated with chlorhexidine and silver sulfadiazine, which are more effective in reducing the catheter colonization and infection
The samples were collected from recipient livers, including male (n = 25/18) and female (n = 19/15) aged 20–61 years, and from donor livers, including male (n = 13/6) and female (n = 15/11) aged 20–68 years
Summary
Nanotechnology is currently engaged in developing advanced functional materials for industrial and biomedical applications. Special attention is paid to metal nanoparticles, in particular silver nanoparticles (AgNPs) due to their unique properties including electrical conductivity, chemical stability, and antifungal and antibacterial properties. AgNPs are widely use in the health care system, in antibacterial and antifungal coatings, water purification, medical devices, cancer therapies, and air quality management [1,2]. Some examples of the use of silver include second-generation catheters impregnated with chlorhexidine and silver sulfadiazine, which are more effective in reducing the catheter colonization and infection. AgNPs are a suitable candidate for the antimicrobial coatings in other medical devices [3]. Silver is applied as a component of bone scaffolds due to the enhancement of their mechanical properties for bone tissue engineering applications [4]
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