Microorganisms, Journal Year: 2025, Volume and Issue: 13(4), P. 942 - 942

Published: April 19, 2025

The relevance of the current study is to increase resistance fungal biofilms traditional disinfection methods. aim was determine how effectively Er:YAG laser light inhibits single-species Candida biofilms. involved a systematic review 57 scientific publications (2015–2024) selected according specific criteria, followed by an assessment quantitative and qualitative indicators colony-forming unit reduction. results show that under optimal parameters (power 1.5–3.9 W duration 60–90 s), can reduce number viable albicans cells average 70–90%, when combined with sodium hypochlorite or chlorhexidine solutions, this figure exceed 90%. Separate in vitro tests glabrata tropicalis require higher power longer exposure achieve similar effect, while use on titanium dental surfaces minimizes damage substrate removes biofilm matrix. In addition, treatment accelerates tissue regeneration helps cases reinfection, which confirmed positive dynamics clinical practice. Data analysis using confocal microscopy microbiological seeding indicates significant disruption structure increased permeability antimycotics after exposure. method promising counteracting biofilms, especially for high risk microbial colonization. practical value lies possibility developing standard protocols laser, will effectiveness prevention Candidal lesions.

Language: Английский