Pendahuluan: Berbagai obat kumur banyak ditemukan di pasaran diantaranya klorheksidin, povidon iodin, cethylpiridinium chloride (CPC), dan oxygenating agent yang telah terbukti memiliki sifat antibakteri. Di dalam rongga mulut, Imunoglobulin A (IgA) pada saliva berfungsi sebagai pertahanan lokal melawan patogen mulut, sehingga mampu mencegah perkembangan karies. Tujuan dari penelitian ini adalah mengetahui perbandingan efektivitas berbagai obat kumur terhadap kadar Imunoglobulin A pada saliva penderita karies. Metode: Penelitian yang dilakukan penelitian Randomized controlled trial (Uji klinik acak berpembanding), paralel dalam bentuk single blind. Populasi dalam penelitian ini adalah 100 mahasiswa Program Studi Kedokteran Gigi Universitas Sriwijaya yang menderita karies. Responden dipilih berdasarkan kriteria akan dibagi menjadi 5 kelompok secara acak, yaitu kelompok 1 berkumur dengan akuades (sebagai kelompok kontrol), kelompok 2 berkumur menggunakan klorheksidin 0,2%, kelompok 3 berkumur dengan povidon iodin 1%, kelompok 4 berkumur dengan cetylpyridinium chloride 0,05%, dan kelompok 5 berkumur dengan dengan oxygenating agent 0,4%. Data dianalisa dengan uji t berpasangan dan uji t tidak berpasangan. Hasil: Hasil uji t tidak berpasangan dilihat bahwa semua kelompok pengguna obat kumur efektif dalam meningkatkan kadar IgA pada saliva penderita karies secara signifikan (p< 0,05) dibandingkan dengan kelompok kontrol. Peningkatan kadar IgA tertinggi adalah pada kelompok yang berkumur dengan CPC, diikuti dengan berkumur klorheksidin, povidon iodin, dan  oxigenating agent. Simpulan: Obat kumur klorheksidin, povidon iodin, cethylpiridinium chloride, dan oxygenating agent efektif dapat meningkatkan kadar IgA pada saliva penderita karies.

Kata kunci: Imunoglobulin A, karies, obat kumur.

ABSTRACT

Introduction: Various mouthwashes are circulating in the markets including chlorhexidine, povidone iodine, cethylpiridinium chloride (CPC), and oxygenating agent that have been shown to have antibacterial properties. In the oral cavity, salivary immunoglobulin A (IgA) serves as local defense againts oral pathogents, thus preventing caries development. This study was aimed to compared various mouthwashes on the level of salivary IgA in caries patients. Methods: This study was randomized controlled trial, paralleled in the form of single blind. Population of this study was as much as 100 students of Dentistry Study Program of Sriwijaya University with dental caries. Respondents were divided into 5 groups; group 1 was gargled with aquadest (control group), group 2 with 0.2% chlorhexidine, group 3 with 1% povidone iodine, group 4 with 0.05% CPC, and group 5 with 0.4% oxygenating agent. Data were analyzed by the paired t-test and independent t-test. Result: The results of unpaired t-test showed that all mouthwashes were effective in increasing the IgA levels of caries patients significantly (p < 0.05) compared to the control group. The highest IgA level increase was was found in the CPC group, followed by chlorhexidine, povidone iodine, and oxygenating agent. Conclusion: Chlorhexidine, povidone iodine, cethylpiridinium chloride (CPC), and oxygenating agent contained mouthwashes were able to increase the salivary IgA level of caries patients.

Keywords: Immunoglobulin A, caries, mouthwash.

Badan Penelitian dan Pengembangan Kesehatan Departemen Kesehatan Republik Indonesia. Penyakit gigi dan mulut. Laporan hasil riset kesehatan dasar (Riskesdas) 2007. 2008;1:140-1.

Badan Penelitian dan Pengembangan Kesehatan Departemen Kesehatan Republik Indonesia. Kesehatan gigi dan mulut. Laporan hasil riset kesehatan dasar (Riskesdas) 2013. 2013;3:118-9.

Razak PA, Richard KMJ, Thankachan RP, Hafiz KAA, Kumar KN, Sameer KM. Geriatric Oral Health: Areview article. J Int Oral Health 2014;6(6):110-6.

Fabian TK, Hermann P, Beck A, Fejerdy P, Fabian G . Salivary defense proteins: their network and role in innate and acquired oral immunity. Int J Mol Sci 2011;13(4): 4295–320.

Nunes LAS, Mussavira S, Bindhu OS. Clinical and diagnostic utility of saliva as a non-invasive diagnostic fluid: A systematic review. Biochem Med 2015;25(2):177-92.

Brandtzaeg P. Secretory IgA: designed for anti-microbial defense. Front Immunol 2013;4:22.

Bakema JE, Van Egmond M. Immunoglobulin A, a next generation of therapeutic antibodies. MAbs 2011;3(4):352-61.

Shanmugam KT, Masthan KMK, Balachander N, Jimson S, Sarangarajan R. Dental caries vaccine- a possible option? J Clin Diagn Res 2013;7(6):1250-3.

Doifode D, Damle SG. Comparison of salivary IgA levels in caries free and caries active children. Int. J Clin Dent Sci 2011;2(1);10-4.

Chawda JG, Chaduvula N, Patel HR, Jain SS, Lala AK. Salivary sIgA and dental caries activity. J Ind Pediatrics 2011;48:719-23.

Damle SG, Vidya I, Yadav R, Bhattal H, Loomba A. Quantitative Determination of Inorganic Constituents in Saliva and their Relationship with Dental Caries Experience in Children. J Dentistry 2012;3(3):131-9.

Hedge M, Devadiga D, Shetty C, Shetty A. Correlation between dental caries and salivary immunoglobulin in adult Indian population: An in vivo study. J Restorative Dentistry 2013;1(1):22-5.

Lamia I, Diajil AR, Al-Ezzi M. Correlation between Streptococci mutans and salivary IgA in relation to some oral parameters in saliva of children. J Batch College Dentistry 2014;26(1):71-9.

Priya PRG, Asokan S, Karthick K, Reddy NV, Arun V, Rao P. Effect of dental treatments on salivary immunoglobulin A of children with and without dental caries: a comparative study. Indian J Dent Res 2013;24(3):394.

Brandtzaeg P. Secretory immunity with special reference to the oral cavity. J Oral Microbiol 2013; 103402.

Jafarzadeh A, Sadeghi M, Karam GA, Vazirinejad R. Salivary IgA and IgE levels in healthy subjects: relation to age and gender. Braz Oral Res. 2010;24(1):21-7.

Guare DE, Konkol KF, McKune AJ. Effects of cardiorespiratory fitness and obesity on salivary secretory IgA and alpha-amylase in South African children. Children 2016;3(3):12.

Nimmerjahn F. Molecular and Celular Mechanism of Antibody Activity. 1st ed. Newyork: Springer; 2013. h. 31-53.

Arvanitidou E, Thumm L. Efficacy of an Alcohol-Free CPC-containing Mouthwash Against Oral Multispecies Biofilms. J Clinc Dent 2011;22(6):187-94.

Riswana N. The Role of Cetylpyridinium Chloride Mouthwash In The Treatment of Periodontitis. Int J Pharm Sci Inv 2013;2(12):36-47.

He S, Wei Y, Fan X, Hu D, Screenivasan PK. A clinical study to assess the 12-hour antimicrobial effects of cetylpyridinium chloride mouthwashes on supragingival plaque bacteria. J Clin Dent 2011;22(6):195-9.

Hu D, Li X, Screenivasan PK. A randomized, double-blind clinical study to assess the antimicrobial effects of a cetylpyridinium chloride mouth rinse on dental plaque bacteria. J Drug Ther 2015;31(11):2540–8.

Rahman B, Alkawas S, Al Zubaidi EA, Adel OI, Hawas N. Comparative antiplaque and antigingivitis effectiveness of tea tree oil mouthwash and cetylpiridinium chloride mouthwash: a randomized controlled crosssover study. Contemp Clin Dent 2014;5(4):466-70.

Braz.Mathur S, Mathur T, Srivastava R, Khatri R. Chlorhexidine: the gold standard in chemical plaque control. National J Physiol Pharm Pharmaco 2011;1(2): 45-50.

Osso D, Kanani N. Antiseptic mouth rinses: an update on comparative effectiveness, risks and recommendations. J Dent Hygiene 2013;87(1):10-8.

Mantis NJ, Rol N, Corthesy B. Secretory IgA’s complex roles in immunity and mucosal homeostasis in the gut. Mucosal Immun 2011:4(6):603-11.

Bigliardi PL, Alsagoff SAL, El-Kafrawi HY, Pyon JK, Wa CTC, Villa MA. Povidone iodine in wound healing: a review of current concepts and practices. Int J Surg 2017;44:260-8.

Masadeh MM, Gharaibeh SF, Alzoubi KH, Al-Azzam SI, Obeidat WM. Antimicrobial activity of common mouthwash solutions on multidrug-resistance bacterial biofilms. J Clin Med Res 2013;5(5):389-94.

Venkataraghavan K, Shah S, Choudhary P, Trivedi K. Effectiveness of a new generation anti-cavity mouthwash on Streptococcus mutans and Lactobacillus acidophilus count: a microbiological study. World J Dent 2014;5(3):152-5.

Mostajo MF, van der Reijden, Buijs MJ, Beersten V, van der Wiejden F, Crielaard W dkk. Effect of an oxygenating agent on oral bacteria in vitro and on dental plaque composition in healthy young adults. Front Cell Infect Microbiol 2014; 4:95.

Hossainian N, Slot DE, Afennich F, van der Weijen GA. The effect of hydrogen peroxide mouthwashes on the prevention of plaque and gingival inflammation: a systemic review. Int J Dent Hygiene 2011;9(3):171-81.