References
- Kassebaum NJ, Bernabé E, Dahiya M, et al. Global burden of untreated caries: a systematic review and metaregression. J Dent Res. 2015;94(5):650–658.
- Guedes RS, Ardenghi TM, Piovesan C, et al. Influence of initial caries lesions on quality of life in preschool children: a 2-year cohort study. Community Dent Oral Epidemiol. 2016;44(3):292–300.
- Guedes RS, Piovesan C, Floriano I, et al. Risk of initial and moderate caries lesions in primary teeth to progress to dentine cavitation: a 2-year cohort study. Int J Paediatr Dent. 2016;26(2):116–124.
- Gao SS, Zhang S, Mei ML, et al. Caries remineralisation and arresting effect in children by professionally applied fluoride treatment – a systematic review. BMC Oral Health. 2016;16(1):12.
- Ammari MM, Soviero VM, da Silva Fidalgo TK, et al. Is non-cavitated proximal lesion sealing an effective method for caries control in primary and permanent teeth? A systematic review and meta-analysis. J Dent. 2014;42(10):1217–1227.
- Dorri M, Dunne SM, Walsh T, et al. Micro-invasive interventions for managing proximal dental decay in primary and permanent teeth. Cochrane Database Syst Rev. 2015;(11). DOI:https://doi.org/10.1002/14651858.CD010431.pub2
- Lenzi TL, Montagner AF, Soares FZ, et al. Are topical fluorides effective for treating incipient carious lesions?: A systematic review and meta-analysis. J Am Dent Assoc. 2016;147(2):84–91.
- Urquhart O, Tampi MP, Pilcher L, et al. Nonrestorative treatments for caries: systematic review and network meta-analysis. J Dent Res. 2019;98(1):14–26.
- Shwartz M, Gröndahl HG, Pliskin JS, et al. A longitudinal analysis from bite-wing radiographs of the rate of progression of approximal carious lesions through human dental enamel. Arch Oral Biol. 1984;29(7):529–536.
- Hutton B, Salanti G, Caldwell DM, et al. The PRISMA extension statement for reporting of systematic reviews incorporating network meta-analyses of health care interventions: checklist and explanations. Ann Intern Med. 2015;162(11):777–784.
- Higgins JPT, Green S. Cochrane handbook for systematic reviews of interventions version 5.0.1 [updated 2008 Sep]. The Cochrane Collaboration; 2008. Available from: www.cochrane-handbook.org.
- Puhan MA, Schünemann HJ, Murad MH, for the GRADE Working Group, et al. A GRADE Working Group approach for rating the quality of treatment effect estimates from network meta-analysis [published correction appears in BMJ. 2015;350:h3326]. BMJ. 2014;349(5):g5630–g5630.
- Peyron M, Matsson L, Birkhed D. Progression of approximal caries in primary molars and the effect of Duraphat treatment. Scand J Dent Res. 1992;100(6):314–318.
- Ekstrand KR, Bakhshandeh A, Martignon S. Treatment of proximal superficial caries lesions on primary molar teeth with resin infiltration and fluoride varnish versus fluoride varnish only: efficacy after 1 year. Caries Res. 2010;44(1):41–46.
- Martignon S, Tellez M, Santamaría RM, et al. Sealing distal proximal caries lesions in first primary molars: efficacy after 2.5 years. Caries Res. 2010;44(6):562–570.
- Bagher SM, Hegazi FM, Finkelman M, et al. Radiographic effectiveness of resin infiltration in arresting incipient proximal enamel lesions in primary molars. Pediatr Dent. 2018;40(3):195–200.
- Jorge RC, Ammari MM, Soviero VM, et al. Randomized controlled clinical trial of resin infiltration in primary molars: 2 years follow-up. J Dent. 2019;90:103184.
- Sarti CS, Vizzotto MB, Filgueiras LV, et al. Two-year split-mouth randomized controlled clinical trial on the progression of proximal carious lesions on primary molars after resin infiltration. Pediatr Dent. 2020;42(2):110–115.
- Johansson E, van Dijken JW, Karlsson L, et al. Treatment effect of ozone and fluoride varnish application on occlusal caries in primary molars: a 12-month study. Clin Oral Investig. 2014;18(7):1785–1792.
- Bakhshandeh A, Ekstrand K. Infiltration and sealing versus fluoride treatment of occlusal caries lesions in primary molar teeth. 2–3 years results. Int J Paediatr Dent. 2015;25(1):43–50.
- Sitthisettapong T, Doi T, Nishida Y, et al. Effect of CPP-ACP paste on enamel carious lesion of primary upper anterior teeth assessed by quantitative light-induced fluorescence: a one-year clinical trial. Caries Res. 2015;49(4):434–441.
- Turska-Szybka A, Gozdowski D, Mierzwińska-Nastalska E, et al. Randomised clinical trial on resin infiltration and fluoride varnish vs fluoride varnish treatment only of smooth-surface early caries lesions in deciduous teeth. Oral Health Prev Dent. 2016;14(6):485–491.
- Anderson M, Dahllöf G, Soares FC, et al. Impact of biannual treatment with fluoride varnish on tooth-surface-level caries progression in children aged 1–3 years. J Dent. 2017;65:83–88.
- Meyer-Lueckel H, Paris S. Progression of artificial enamel caries lesions after infiltration with experimental light curing resins. Caries Res. 2008;42(2):117–124.
- Mattos-Silveira J, Matos-Lima BB, Oliveira TA, et al. Why do children and adolescents neglect dental flossing? Eur Arch Paediatr Dent. 2017;18(1):45–50.
- Ferreira Zandoná A, Santiago E, Eckert GJ, et al. The natural history of dental caries lesions: a 4-year observational study. J Dent Res. 2012;91(9):841–846.
- Bocci V, Di Paolo N. Oxygen-ozone therapy in medicine: an update. Blood Purif. 2009;28(4):373–376.
- Ccahuana-Vásquez RA1, Tabchoury CP, Tenuta LM, et al. Effect of frequency of sucrose exposure on dental biofilm composition and enamel demineralization in the presence of fluoride. Caries Res. 2007;41(1):9–15.
- Cochrane NJ, Saranathan S, Cai F, et al. Enamel subsurface lesion remineralisation with casein phosphopeptide stabilised solutions of calcium, phosphate and fluoride. Caries Res. 2008;42(2):88–97.