**4. Conclusion**

The broad spectrum of applications of silver nanoparticles, including their use as antimicrobial and antitumor agents, as well as in food packaging, agriculture, and healthcare, positions them as a crucial component in health management. Moreover, it is widely recognized that the majority of practical applications of antibiotics demonstrate resistance, resulting in a lack of efficacy. Therefore, the presence of bacteria that form biofilms poses a significant issue. The issue of antibiotic resistance has garnered heightened global attention, leading to a focus on alternative treatment approaches. The potential employment of silver nanoparticles and the surface coating or impregnation of nanomaterials are among the alternative strategies that can be utilized as antibiofilm agents. Furthermore, silver nanoparticles have been extensively researched and employed in the treatment of diverse ailments, encompassing cancer, wound healing, dental implants, and other therapeutic interventions that involve the modulation of biological activities. Through increased comprehension and advanced technological capabilities, the utilization of these innovative particles within the medical field will establish a standardized framework for preventing and treating multidrug resistance and biofilm pathogens.

### **Conflict of interest**

The authors state no conflict of interest.
