Dentistry

Evaluation of in-vitro biofilm removal with 2% and 10% sodium hypochlorite

29^th Annual American Dentistry Congress

March 22-23, 2018 | New York, USA

Seyedeh Zahra Rahmani, Mohammad Smiee, Seyedeh Paria Rahmani, Look Vander Sluis and Ferananda Hoffmann Busanello

Tabriz University of Medical Sciences, Iran
University of Groningen, Netherlands
Federal University of Rio Grande, Brazil

Posters & Accepted Abstracts: Dentistry

Abstract:

Introduction: Biofilms are communities of microorganisms attached to a surface and embedded in a matrix of polysaccharides and proteins forming a slimy layer. Oral bacteria have the capacity to form biofilms on distinct surfaces. Bacteria also form dense colonies on root canal walls and features like isthmuses and lateral canals. Microbial communities in biofilms are remarkably difficult to eradicate with antimicrobial agents for reasons that have yet to be adequately explained. Studies have shown that sodium hypochlorite (NaOCl) is the most effective anti-microbial irrigant used during endodontic treatment. The aim of this study is to evaluate the structure of biofilms and presence of EPS before and after the use of NaOCl 2% and 10%. Materials & Methods: Dual species biofilms of Streptococcus oralis J22 and Actinomyces naeslundii T14VJ1 were grown under statistical conditions and in a constant depth film fermenter (CDFF). Biofilms grown in the CDFF mimic better the basal layer of an oral in vivo biofilm. For the statistical conditions, a confined space was created over saliva coated dentin discs with supply of 20ml of modified BHI each 24h for 4 and 10 days. For the CDFF, saliva coated hydroxyapatite discs biofilm was grown for 96 h at 37uC under continuous supply modified BHI at a rate of 45ml/h. The system was equipped with 15 sample holders and each sample holder contained 5 saliva coated hydroxyapatite discs, recessed to a depth of 250mm. After growing the biofilms, NaOCl 2% and 10% were applied for 60s and 300s for removing the biofilm. Optical coherence tomography (OCT) was used for high-resolution, real-time imaging of a three-dimensional structure of the biofilm. Confocal laser scanning microscopy (CLSM) was used to visualize the biofilm matrix, structure and condition of bacteria (LIVE/DEAD staining). Results: In the statistical biofilm group, OCT images showed reduction of biofilm thickness after applying the NaOCl 2% and 10% and there was a very fluffy structure observable. In the CDFF group, OCT images showed bubble formation in the biofilm after using NaOCl 10%, but the irrigant did not reduce the thickness of the biofilm or on its consistency. The bubble formation was also observed in CLSM images. The CLSM showed reduction of the biofilm structure but mostly living bacteria were found in the remaining biofilm. Conclusion: Due to our study, our simple irrigation methods are not efficient enough for biofilm removal and we suggest to use irrigants in several times with increased applying time to achieve better biofilm removal and better treatment results. rzahra75@gmail.com