Erkan Alkan, PerihanGüneş, Mesu ErtanÖzakın, CüneytSabancı, A. Ümit2024-06-062024-06-062021-08-011301-143Xhttps://doi.org/10.36519/kd.2021.3633https://www.klimikdergisi.org/en/2021/07/09/nanoparticle-liposomes-a-new-strategy-in-bacterial-infections/https://hdl.handle.net/11452/41837Objective: In our study, a nanoparticle liposome molecule with patent application number TR201804452A2 was used, and the Minimum Inhibitor Concentration (MIC) was found to be 1562 ppm. According to the ASTMF 1980 standard, it has been determined that the nanoparticle liposome solution kept at 37 days and 55 degrees C in return for one-year stability preserves its effectiveness. Our study aimed to show that the newly developed solution maintains its effectiveness for a long time.Methods: CLSI M07-A10 (Methods for Dilution Antimicrobial Susceptibility Tests for Bacteria That Grow Aerobically. Tenth ed. Approved Standard) standard test method of the nanoparticle liposome solution developed with a technique different from the standard ozonation mechanisms, and antibacterial tests were performed by modifying the contact time and the MIC value of the solution, and its effect on time has been determined. For the stability test of the nanoparticle liposome solution, it was kept at 55 degrees C for 37 days in return for one-year stability according to the ASTM F 1980 standard.Results: MIC of nanoparticular ozone solution CLSI M07-A10 standard test method for S. aureus (ATCC 25923) and E. coli (ATCC 25922) strains by modifying contact time It was determined as 1.562 ppm. For S. aureus (ATCC 25923), at the end of the first hour, it was determined that the activity started at 2000 and 1750 ppm nanoparticle liposome solution concentration. For E. coli (ATCC 25922) it was determined that the activity started at the 10th minute at 2000 ppm nanoparticular ozone solution concentration. The solution was still effective at the end of one year according to the ASTM F 1980 standard in terms of effectiveness.Conclusions: As a result, the nanoparticle liposome solution, a new product, does not lose its stability and effectiveness for a long time, contrary to what is known. Although the half-life of gaseous ozone is as short as 20 minutes, the stability in the nanoparticle liposome solution has been determined as at least one year. Since nanoparticle liposome solution is a natural and slow-release product, it is thought that it can create a barrier in mucosal membranes in regions such as the nose, throat, eye and ear with solutions to be prepared in appropriate doses thus preventing bacteria from settling.eninfo:eu-repo/semantics/openAccessNanoparticle liposomesOzoneAntibacterial efficiencyStaphylococcus aureus (atcc 25923)Escherichia coli (atcc 25922)Science & technologyLife sciences & biomedicineMedicine, general & internalMicrobiologyGeneral & internal medicineNanoparticle liposomes: A new strategy in bacterial infectionsArticle0007343921000049910234210.36519/kd.2021.36331309-1484