Connection of the publication with planned research works.The work was carried out as part of the research work of the department of microbiology, virology, immunology, epidemiology and medico-biological physics and informatics and the department of biochemistry and medical chemistry of the Dnipro State Medical University, the title «Multifunctional polymer materials with powerful antimicrobial properties for antiseptic treatment of wound surfaces, air and water disinfection» (state registration number 0120U101548).Introduction.Dental implants are widely used in modern medical practice to replace missing teeth because of their stability and comfort characteristics [1]. However, they can be colonized by bacteria, leading to implant-related infections. These germs can form biofilms, an organized and long-lived community impregnable for mechanical cleaning, antimicrobial compounds, and immune factors. Peri-implant infection may be a reason for implantation failure [1,2,3]. The application of anti-adhesive strategies for titanium implant surfaces is critical for resisting microbial adherence. Based on the results of a recent meta-analysis, it can be concluded that there is evidence in favour of systematic antibiotic use in patients who underwent dental implants since such an approach significantly reduces the risk of implant failure. Simultaneously, antibiotic use does not exert a significant preventive effect against postoperative infection [3,4]. Furthermore, it may provide selective pressure on antimicrobial resistance. Therefore, the use of alterna-