MICROBIAL LOAD AND ANTIBIOTIC RESISTANCE PATTERNS IN DENTAL UNIT WATERLINES: ROLE OF ROUTINE FLUSHING AND SYSTEMIC FACTORS

Objective: To evaluate the microbial quality of Dental Unit Waterlines (DUWLs) in a clinical setting and assess the effectiveness of routine flushing in reducing bacterial contamination, identifying prevalent microbial species and their antibiotic resistance patterns Methodology: A total of 340 water samples were collected over five days from 32 dental units, including their source water, high-speed handpiece waterlines, and 3-in-1 syringe outlets. Samples were analyzed for total viable counts (TVC) using standard bacteriological methods. Microbial isolates were identified and tested for antibiotic susceptibility using the Kirby-Bauer disk diffusion method. Statistical analyses were conducted to compare contamination levels between different water sources and unit components. Results: The study found that 84.5% of high-speed handpiece waterlines and 78.1% of 3-in-1 syringes exceeded the American Dental Association’s recommended limit of 200 CFU/mL. The microbial load in DUWLs was significantly higher than in the source water (p < 0.05), with Enterococcus and coagulase-negative Staphylococcus species being the most frequently detected organisms. Routine flushing reduced bacterial counts by approximately 45% but was insufficient to maintain microbial levels within acceptable limits. Antibiotic susceptibility testing revealed widespread resistance among isolates, except for gentamicin. Conclusion: DUWLs exhibited high levels of microbial contamination, regardless of water source. The findings underscore the need for improved disinfection protocols and continuous monitoring to ensure safe dental water quality.