Fluorescent Marker as a Tool to Improve Strategies to Control Contaminated Surfaces and Decrease Danger of Cross-Contamination in Dental Clinics, during and beyond the COVID-19 Pandemic.
Eran DolveIlana EliEster MashkitNaftali GrinbergAlona Emodi-PerlmamPublished in: International journal of environmental research and public health (2023)
The COVID-19 pandemic posed an increased threat to dental personnel and patients. Close encounters with patients' breath and saliva and the use of intraoral rotating instruments which disperse microscopic airborne particles both increase the possibility of environmental infection. In this study, fluorescent marker (FM) was used to assess and enhance surface cleanliness in the dental clinics and public areas of a major dental school. Initially, 574 surfaces in various areas of a dental school were marked with FM for 3 consecutive months to monitor the surface cleanliness. The initial evaluation results were visually presented to both students and para-dental and cleaning personnel during a designated educational session, and were used to stress the importance of preventing cross-contamination. Following educational intervention, 662 surfaces were re-examined for an additional 3 months, using the same method. A significant improvement in the surfaces' cleanliness (ANOVA, F (1) = 10.89, p < 0.005) was observed post-intervention. The results were more prominent in students' clinics, which were the students' cleaning responsibility. The results show that fluorescent markers can serve as an educational tool to improve strategies to control contaminated surfaces in large clinics, such as dental schools. Their use can substantially decrease the hazard of cross-contamination during the pandemic and beyond.
Keyphrases
- oral health
- end stage renal disease
- primary care
- high school
- newly diagnosed
- drinking water
- randomized controlled trial
- ejection fraction
- healthcare
- risk assessment
- chronic kidney disease
- biofilm formation
- heavy metals
- living cells
- prognostic factors
- quantum dots
- patient reported outcomes
- peritoneal dialysis
- staphylococcus aureus
- human health
- particulate matter
- high intensity
- fluorescent probe
- stress induced
- climate change