Исследование альтернативных биоцидных сред для влажного хранения аллогенного материала для протезирования элементов сердечно-сосудистой системы

Aim. The aim of this study was to compare the antimicrobial activity of six different solutions: a cocktail of antibiotics, chlorhexidine in two concentrations (0.05% and 0.2%), glycerol, a mixture of glycerin and ethanol, and a commercial decontamination solution “Optiphen”. In addition, we evaluated the influence of these solutions on the mechanical properties (tensile strength and Young's modulus) of the vascular wall during 50 days of storage. Methods. Samples of porcine aortas were stored in the solutions under study for 50 days. Microbiological analysis of the samples was carried out every 10 days. The elastic modulus and tensile strength were determined by uniaxial measurements using a tensile testing machine ESM301 (MARK-10, USA) at 10, 30, and 50 days of the experiment. Results. Microbiological analysis has demonstrated that the samples stored in solution “Optiphen” and chlorhexidine 0.2% were sterile throughout the experiment (50 days). When stored in the cocktail of antibiotics, the samples remained sterile for 40 days. The solution of chlorhexidine 0.05% and glycerol had no required disinfecting properties. Biomechanical properties were the least affected by storage in solution “Optiphen”, and were the most affected by storage in chlorhexidine 0.2%. Conclusion. Microbiological analysis and the study of biomechanical properties have demonstrated that the most suitable solution for long-term storage of vessels without cryoconservation was solution “Optiphen”. However, a detailed morphological analysis of the vascular wall samples is required at different storage times and after subcutaneous implantation in rats, for the final choice of the optimal storage medium. Received 28 September 2018. Revised 11 December 2018. Accepted 18 December 2018. Funding: The study did not have sponsorship. Conflict of interest: Authors declare no conflict of interest. Author contributions Conception and study design: M.B. Vasilyeva, D.S. Sergeevichev Experiment performance, data collection: M.B. Vasilyeva, E.V. Kuznetsova, Ya.L. Rusakova, E.V. Chepeleva, A.A. Dokuchaeva Microbiological analysis: M.V. Lunina, L.M. Samoylova Statistical analysis: A.A. Krasilnikova, M.B. Vasilyeva Drafting the article: A.A. Krasilnikova Critical revision of the article: M.B. Vasilyeva, D.S. Sergeevichev Final approval of the version to be published: M.B. Vasilyeva, A.A. Krasilnikova, E.V. Kuznetsova, M.V. Lunina, L.M. Samoylova, Ya.L. Rusakova, E.V. Chepeleva, A.A. Dokuchaeva, D.S. Sergeevichev