ABSTRACT

Introduction: The inner surfaces of dental unit waterlines (DUWLs) possess an accumulation of any bacteria. Microorganisms can enter dental unit waterlines from water reservoirs. Antiseptics are substances that inhibit the growth of bacteria. Chlorine dioxide is effective in decontaminating microbes in the DUWLs and has a beneficial effect on reducing nosocomial infections. Chlorhexidine effectively prevents the growth of Streptococcus bacteria. The addition of antiseptic agents to the water source contributed to a significant reduction of the cultivable microbial counts in the aerosol. The purpose of this study was to analyze the difference between Chlorine Dioxide 0,1% and Chlorhexidine 2% antiseptics on the number of bacterial colonies in the Dental Unit Waterline. Methods: This study was a quasi-experimental study with a total sample size of 8 dental units that have water tanks in the oral surgery clinic. The sampling technique was total sampling, where the sample was divided into 2 groups, group I using Chlorine Dioxide and group II using 2% Chlorhexidine calculation of colony counts unit using the plate count method. Results: The difference in the number of colonies before being given Chlorine Dioxide was 13,153 CFU/mL and after being given Chlorine Dioxide antiseptic was 6,070 CFU/mL, while before being given 2% Chlorhexidine antiseptic was 12,917 CFU/mL and after being given 2% Chlorhexidine antiseptic was 2,823 CFU/mL. There is a significant difference in the number of bacterial colonies before and after being given Chlorine Dioxide and Chlorhexidine 2% antiseptic with ρ=0.001; Conclusion:  Chlorhexidine 2% reduces bacterial colony forming unit in DUWLs much more than using Chlorine dioxide for the alternative of DUWLs Cleaning Agents.

Keywords: DUWLs, chlorine dioxide, chlorhexidine 2%, bacterial colony counts

 

DUWL, Chlorine Dioxide, Chlorhexidine 2%, bacterial colony counts

REFERENCES

Baudet A, Lizon J, Martrette JM, Camelot F, Florentin A, Clément C. Dental unit waterlines: A survey of practices in Eastern France. Int J Environ Res Public Health. 2019; 16(21): 4242. DOI: 10.3390/ijerph16214242

Hoogenkamp MA, Brandt BW, de Soet JJ, Crielaard W. An in-vitro dynamic flow model for translational research into dental unit water system biofilms. J Microbiol Meths. 2020; 171:105879. DOI: 10.1016/j.mimet.2020.105879

James A, Shetty A, Hegde MN, Bhandary S. Detection & Quantification of Microorganisms in Dental Unit Waterlines. IOSR J Dent Med Sci Ver II. 2015; 14(2): 88-91. DOI: 10.9790/0853-14228891

Mamajiwala A, Sethi K, Raut C, Karde P, Khedkar S. Comparative evaluation of chlorhexidine and cinnamon extract used in dental unit waterlines to reduce bacterial load in aerosols during ultrasonic scaling. Indian J Dent Res. 2018; 29(6): 749-754. DOI: 10.4103/ijdr.IJDR_571_17

Chugh A, Kaur A, Kohli A, Kumar P. Oral and Maxillofacial Minor Surgery Practice Post-COVID 2019 Pandemic - An Insight. Ann Maxillofac Surg. 2020; 10(2): 439-43. DOI: 10.4103/ams.ams_189_20.

Fulford MR, Stankiewicz NR. Infection Control in Primary Dental Care BDJ Clinician’s Guides.; 2019. p. 255. Avaliable from: http://www.springer.com/series/15753

Kementerian Kesehatan R. Pedoman Pencegahan Dan Pengendalian Infeksi Di Fasilitas Pelayanan Kesehatan. Permenkes Nomor 27 Tahun 2017. h. 172

Khajezadeh M, Mohseni F, Khaledi A, Firoozeh A. Contamination of dental unit water lines (DUWL) with Legionella pneumophila and Pseudomonas aeruginosa; A Middle East systematic review and meta-analysis. Eur J Microbiol Immunol (Bp). 2023; 12(4): 93-9. DOI: 10.1556/1886.2022.00023.

Nismal H , Lipoeto NI, Rahmah S. Identifikasi Bakteri Pada Air Di Waterline (Saluran Air ) Dental Unit Rumah Sakit Gigi Dan Mulut Fakultas Kedokteran Gigi Universitas Andalas. 2017; 9(1): 34-9.DOI: 10.24815/cdj.v9i1.9875

Pedoman APSIC- Pencegahan dan Pengendalian Infeksi ( PPI ) Untuk Dental. Published online 2022: 1-87.

Ji XY, Fei CN, Zhang Y, Zhang W, Liu J, Dong J. Evaluation of bacterial contamination of dental unit waterlines and use of a newly designed measurement device to assess retraction of a dental chair unit. Int Dent J. 2016; 66(4): 208-14. DOI:10.1111/idj.12225

Spagnolo AM, Sartini M, Cristina ML. Microbial contamination of dental unit waterlines and potential risk of infection: A narrative review. Pathogens. 2020; 9(8): 1-11. DOI:10.3390/pathogens9080651

Patel M, Desai J, Owen PC. The efficacy of disinfectants in the decontamination of dental unit water lines : an in vitro laboratory study. 2016; (October 2015): 1-4. DOI:10.1038/bdjopen.2016.3

Ashokkumar L, Lavu V, Palraj KK, Rao SR, Balaji SK. Efficacy of chlorhexidine/herbal formulation for microbial reduction in aerosol generated following ultrasonic scaling - A double-blinded randomized controlled trial. J Indian Soc Periodontol. 2023; 27(1): 82-6. DOI: 10.4103/jisp.jisp_478_21

Sinaredi BR, Pradopo S, Wibowo TB. Daya Antibakteri Obat Kumur Chlorhexidine, Povidone Iodine, Fluoride Suplementasi Zinc Terhadap Streptococcus mutans dan Porphyromonas gingivalis. Maj Ked Gigi. 2014; 47(4): 211. DOI: 10.20473/j.djmkg.v47.i4.p211-214

Haida U, Mohamed N, Khan A, et al. JML | Review A systematic review on chlorine dioxide as a disinfectant Search strategy. 2022;(March): 313-8. DOI: 10.25122/jml-2021-0180

Spagnolo AM, Sartini M, Cave DD, Casini B, Tuvo B, Cristina ML. Evaluation of Microbiological and Free-Living Protozoa Contamination in Dental Unit Waterlines. Int J Environ Res Public Health. 2019; 16(15): 2648. DOI: 10.3390/ijerph16152648.

Nadia AB, Jannah SN, Purwantisari S. Isolation and characterization of lactic acid bacteria from Apis mellifera stomach and their potential as antibacterial using in vitro test against growth of Staphylococcus aureus and Salmonella typhimurium. NICHE Jo of Trop Bio. 2020; 3(1): 35-44. DOI: 10.14710/niche.3.1.35-44.

Noszticzius Z, Wittmann M, Kály-kullai K, Beregvári Z, Kiss I, Szegedi J. Chlorine Dioxide Is a Size-Selective Antimicrobial Agent. 2013; 8(11): 1-10. DOI: 10.1371/journal.pone.0079157

Wirthlin MR, Jr GWM, Rowland RW. Formation and Decontamination of Biofilms in Dental Unit Waterlines. 2003; (November): 1595-609. DOI: 10.1902/jop.2003.74.11.1595

Wirthlin MR, Roth M. Dental unit waterline contamination: a review of research and findings from a clinic setting. Compend Contin Educ Dent. 2015; 36(3): 216-9. Available https://pubmed.ncbi.nlm.nih.gov/25822748/

Yaegaki K, Brunette DM, Seemann R, Filippi A, Simpione G, Reia B. Efficacy of chlorine dioxide mouthwash against halitosis. J Phys. 2017; 884. DOI:10.1088/1742-6596/884/1/012136

Kerémi B, Márta K, Farkas K, Czumbel LM, Tóth B, Szakács Z, Csupor D, Czimmer J, Rumbus Z, Révész P, Németh A, Gerber G, Hegyi P, Varga G. Effects of Chlorine Dioxide on Oral Hygiene - A Systematic Review and Meta-analysis. Curr Pharm Des. 2020; 26(25): 3015-025. DOI: 10.2174/1381612826666200515134450.

Georgiou G, Investigator P. Eradication of Antibiotic-Resistant E. coli, S. aureus, K. with Chlorine Dioxide In Vitro. Eur Soc Med. Published online 2023: 11(7): 1-16. DOI: 10.18103/mra.v11i7.2.4218

Agahi RH, Hashemipour MA, Kalantari M, Ayatollah-mosavi A, Aghassi H. of dental unit waterlines. 2014; 11(3): 351-6.

Jawade R, Bhandari V, Ugale G, Taru S, Khaparde S, Kulkarni A, Ardale M, Marde S. Comparative Evaluation of Two Different Ultrasonic Liquid Coolants on Dental Aerosols. J Clin Diagn Res. 2016; 10(7): ZC53-7. DOI: 10.7860/JCDR/2016/20017.8173.

Garg J, Rg SM, Sinha S, Ghambhir S, Abbey P, Jungio MP. Antimicrobial Activity of Chlorhexidine and Herbal Mouthwash Against the Adherence of Microorganism to Sutures After Periodontal Surgery: A Clinical Microbiological Study. Cureus. 2022 Dec 24; 4(12): e32907. DOI: 10.7759/cureus.32907.

Ivanka MD, Puspitasari IM. Mekanisme Kerja Bahan Penyusun Utama Antiseptik Dan Desinfektan Dalam Menurunkan Risiko Penularan Covid-19 Bagi Tenaga Kesehatan Di Rumah Sakit. Farmaka. 2022; 20: 63-74. DOI: 10.24198/farmaka.v20i3.39796

Brookes ZLS, Bescos R, Belfield LA, Ali K, Roberts A. Current uses of chlorhexidine for management of oral disease: a narrative review. J Dent. 2020; 103: 103497. DOI: 10.1016/j.jdent.2020.103497.