Ekstrand Kr, Ricketts Dnj, Kidd Eam (1997). Reproducibility And Accuracy Of Three Methods For Assessment Of Demineralization Depth On The Occlusal Surface: An In Vitro Examination. Caries Re, 31,


22. Kohler B, Andreen I, Jonsson B (1988). The earlier the colonization by mutans streptococci, the higher the caries prevalence at 4 years of age. Oral Microbiol Immunol 1988; 3(1): 14-7.

23. Grindefjord M. et al (1995). Stepwise prediction of dental caries in children up to 3.5 years of age. Caries Res 1995; 30(4): 256–66.

24. Fujiwara T. et al (1991). Caries prevalence and salivary mutans streptococci in 0–2-year-old children of Japan. Community Dent Oral Epidemiol 1991; 19(3): 151-4.

25. Robinson C. et al (2004). “The Effect of Fluoride on the Developing Tooth”, Caries Res, 38, 268-276.

26. Anum Iftikhar, Muneeza Zafar, Musleh Uddin Kalar (2012). The relationship between snacking habits and dental caries in school children, In Journal of Collaborative Research on Internal Medicine & Public Health Vol. 4(2): 1943-1951.

27. Zero DT. (2004). Sugars the arch criminal? Caries Research; 38(3): p. 277–285.

28. Prahlad Gupta et al (2013). Role of Sugar and Sugar Substitutes in Dental Caries: A Review, ISRN Dent. 519421.

29. Liliya Doichinova, Peter Bakardjiev, Milena Peneva (2015). Assessment of food habits in children aged 6–12 years and the risk of caries, Biotechnology & Biotechnological Equipment, 29(1): 200 -204.

30. Oitip Chankanka et al (2015). The associations between dietary intakes from 36 to 60 months of age and primary dentition non-cavitated caries and cavitated caries, J Public Health Dent. 75(4): 265-273.

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Xem toàn bộ 201 trang tài liệu này.

31. Sohn W, Burt BA, Sowers MR. (2006). Carbonated soft drinks and dental caries in the primary dentition. J Dent Res;85(3): 262–6.

32. Marshall T.A. et al (2005). The roles of meal, snack, and daily total food and beverage exposures on caries experience in young children. J Public Health Dent ; 65(3): 166–73.

Hiệu quả điều trị sâu răng hàm vĩnh viễn giai đoạn sớm bằng ClinproTM XT Varnish - 22


33. Joana Cunha-Cruz et al (2013). Salivary characteristics and dental carie: Evidence from general dental practices. The Journal of the American Dental Association, 144(5): e31–e40.

34. Trịnh Đình Hải (2004). Giáo trình dự phòng sâu răng, Nhà xuất bản Y học Hà Nội, 18-28.

35. Council (2002). Guideline on Caries-risk Assessment and Management for Infants, Children, and adoles. American academy of pediatric dentistry, reference manual V 32 , NO 6, 10 / 11.

36. Petersen P.E. et al (2001). Oral health status and oral health behaviour of urban and rural schoolchildren in Southern Thailand. Int Dent J. 51, 95–102.

37. Nelly M. F. et al (2015). Dental caries experience and its relation to oral hygiene in Mexican children. Gaceta médica de Mexico, 151: 455-9.

38. Suzely A. S. M. et al (2014). Social aspects of dental caries in the context of mother-child pairs. J Appl Oral Sci. 2014 Jan-Feb; 22(1): 73–78.

39. Hicks J, Garcia-Godoy F, Flaitz C. (2004). Biological factors in dental caries: role of saliva and dental plaque in the dynamic process of demineralization and remineralization (part 1). Journal of Clinical Pediatric Dentistry. 28(1): 47-52.

40. Fejerskov O, Nyvad B, Kidd EA (2008). "Pathology of dental caries"; Dental caries: The disease and its clinical management. Oxford, Blackwell Munksgaard, 2, 20-48.

41. N.B Pitts. (2004). Modern Concepts of Caries Measurement. J Dent Res, 83, 43-47.

42. Ismail AI et al (2007). The international caries detection and assessment system (ICDAS): an intergrated system for measuring dental caries. Community Dent Oral Epidemiol 35; 170-178.


43. Ekstrand KR, Ricketts DNJ, Kidd EAM (1997). Reproducibility and accuracy of three methods for assessment of demineralization depth on the occlusal surface: An in vitro examination. Caries Re, 31, 224-231.

44. Douglas A. Young (2015). The American Dental Association Caries Classification System for Clinical Practice. The Journal of the American Dental Association, 146(2): 79-86.

45. Madhumitha Mohanraj, V Ratna Prabhu, R Senthil (2016). Diagnostic methods for early detection of dental caries - A review. International Journal of Pedodontic Rehabilitation ,1(1): 29-36.

46. JB Price (2013). A Review of Dental Caries Detection Technologies - Dental Economics, Radiology, 11, 101-102.

47. Stookey G. K. et al (1999). Dental caries diagnosis. Dent Clin North Am 1999; 43(4): 665-77.

48. Neuhaus K.W. et al (2009). Novel lesion detection , Monogr Oral Sci,

21: 52-62.

49. Pretty IA (2006). Caries detection and diagnosis: Novel technologies.

Journal of Dentistry 34(10), 727-739.

50. PV Samir et al (2017). Evolution in Diagnosis of Dental Caries: An Update. Research Journal of Pharmaceutical, Biological and ChemicalSciences July–August 2017 RJPBCS 8(4), 564-76.

51. J Gomez (2015). Detection and diagnosis of the early caries lesion, BMC Health Services Research, 15 (Supplement 1), S3, 3-4.

52. Van der Veen MH, de Josselin de Jong E (2000). Application of quantitative lightinduced fluorescence for assessing early caries lesions. Monographs in Oral Science 2000, 17: 144-162.

53. De Josselin de Jong E et al (1995). A new method for in vivo quantification of changes in initial enamel caries with laser fluorescence. Caries research , 29(1): 2-7.


54. Tranaeus S (2001). Application of quantitative light-induced fluorescence to monitor incipient lesions in caries-active children. A comparative study of remineralisation by fluoride varnish and professional cleaning. Eur J Oral Sci, 109(2): 71-75.

55. Ferreira Zandona A (2010). Useof ICDAS combined with quantitative light-induced fluorescence as a caries detection method. Caries research, 44(3): 317-322.

56. Feng Y (2007). Assessment of autofluorescence to detect the remineralization capabilities of sodium fluoride, monofluorophosphate and non-fluoride dentifrices. A singleblind cluster randomized trial. Caries research, 41(5): 358-364.

57. Chaza Kouchaji (2012). Comparison between a laser fluorescence device and visual examination in the detection of occlusal caries in children. Saudi Dent J. 24(3-4): 169–174.

58. Lussi et al (2004). Diagnodent: an optical method for caries detection.

J Dent Res; 83.

59. Kavo. Dental Exellence: User introductions Diagnodent pen.

Htpp://www.kavo.com/diagnodent-studies.

60. Lussi A. et al (2001). Clinical performance of a laser fluorescence device for detection of occlusal caries lesions. Eur J Oral Sci;109: 14-19.

61. Shao-Min Li et al (2003). Quantitative Assessment of Enamel Hypomineralization by KaVo Diagnodent at Different Sites on First Permanent Molars of Children in China. Pediatric Dentistry 25(5), 485-90.

62. Ricketts (2005). The eyes have it. How good is Diagnodent at detecting caries? Evid Based Dent; 6(3): 64-5.

63. Gomez SS, Basili CP and Emilson CG (2005). A 2-year clinical evaluation of sealed noncavitated approximal posterior carious lesions in adolescents, Clinical Oral Investigations 9(4), 239-243.


64. Kidd EA, and Fejerskov O (2004). What constitutes dental caries? Histopathology of carious enamel and dentin related to the action of cariogenic biofilms. Journal of Dental Research 83(Special Issue C), C35-C38.

65. Paris S. et al (2007). Resin infiltration of artificial enamel caries lesions with experimental light curing resins. Dental Materials Journal 26(4), 582-588.

66. CRG Torres et al (2012). Effect of Caries Infiltration Technique and Fluoride Therapy on Microhardness of Enamel Carious Lesions, Operative Dentistry, 37(4), 363-369.

67. Reynolds EC (2009). Casein phosphopeptide-amorphous calcium phosphate: The scientific evidence. Adv Dent Res. 21, 25–9.

68. Shen P. et al (2001). Remineralization of enamel subsurface lesions by sugar-free chewing gum containing casein phosphopeptide-amorphous calcium phosphate, J Dent Res. 80, 2066-70.

69. Cross K. et al (2004). Studies of a novel calcium, phosphate and fluoride delivery vehicle-α S1-casein (59-79) by stabilized amorphous calcium fluoride phosphate nanocomplexes. Biomaterials. 25, 5061-9.

70. Iijima Y. et al (2004). Acid resistance of enamel subsurface lesions remineralized by a sugar-free chewing gum containing casein phosphopeptide-amorphous calcium phosphate. Caries Res. 38; 551-6.

71. Cochrane N.J., Reynolds E.C. (2012). Calcium phosphopeptides Mechanisms of action and evidence for clinical efficacy. Adv Dent Res; 24, 41-7.

72. Frencken JE et al (2012). Minimal intervention dentistry for managing dental caries – A review: Report of a FDI task group. Int Dent J ; 62, 223-43.


73. Lynch RJ, Smith SR (2012). Remineralization agents – New and effective or just marketing hype? Adv Dent Res. 24, 63-7.

74. Morrier JJ (2014). White spot lesions and orthodontic treatment. Prevention and treatment. Orthod Fr; 85, 235-44.

75. Uysal T. et al (2010). Effects of different topical agents on enamel demineralization around orthodontic brackets: An in vivo and in vitro study. Aust Dent J. 55, 268-74.

76. Maryam Khoroushi, Marzie Kachuie (2017). Prevention and Treatment of White Spot Lesions in Orthodontic Patients. Contemp Clin Dent. 8(1): 11-19.

77. Nguyễn Quốc Trung (2011). Hiệu quả của Casein phosphopetide- Amorphous Calcium Phosphat Fluoride trong điều trị tổn thương sâu răng sớm. Tạp chí Y học thực hành, 1 (750), 80-84.

78. Dental Products,

http://www.frankdental.co.nz/index.php/service/dental-products/

79. M. L. M. Bonow et al. (2013). Efficacy of 1.23% APF gel applications on incipient carious lesions: a doubleblind randomized clinical trial. Braz Oral Res. 27(3), 279-85.

80. Rita S. V. et al (2009). Effect of APF gel application time on enamel demineralization and fluoride uptake in situ. Braz. Dent. J. 20(1):37-41.

81. Trần Văn Trường, Vũ Mạnh Tuấn (2010). “Khảo sát mức độ tái khoáng men răng của gel NaF 1,23% trên thực nghiệm”, Tóm tắt báo cáo hội nghị khoa học nghiên cứu sinh lần thứ XVI, Trường Đại học Y Hà Nội, 155-156.

82. Ekstrand J, Koch G, Petersson LG (1980). “Plasma fluoride concentration and urinary fluoride excretion in children following application of the fluoride-containing varnish Duraphat”, Caries Res, 14, 185-189.


83. Marinho V.C. et al (2003). “Systematic review of controlled trials on the effectiveness of fluoride gels for the prevention of dental caries in children”, J Dent Educ, 67(4), 448-458.

84. Dawes C (2004). “How much saliva is enough for avoidance of xerostomia?”, Caries Res, 38, 236-240.

85. Olivier M, Brodeur JM, Simard PL (1992). “Efficacy of APF treatments without prior tooth cleaning targeted to high-risk children”, Community Dent Oral Epidemiol, 20, 38-42.

86. Marinho V.C. et al (2015). Fluoride gels for preventing dental caries in children and adolescents.Cochrane Database Syst Rev. 15(6) CD002280, 3-6.

87. M.C.M. Wong, J. Clarkson, A.M. Glenny (2011). Cochrane Reviews on the Benefits/Risks of Fluoride Toothpastes. J Dent Res. 2011 May; 90(5): 573-9

88. Marinho V.C. et al (2013). Fluoride varnishes for preventing dental caries in children and adolescents. Cochrane Database Syst Rev. 11(7), 1-3.

89. Sule Bayrak et al (2017). Effect of Fluoride Varnish Containing CPP- ACP on Preventing Enamel Erosion, Journal List Scanning; PMC5661827, 3-5.

90. Council (2014). Guideline on Fluoride Therapy. American Academy Of Pediatric Dentistry , Reference Manual 37(6): 15-16.

91. Benson PE et al (2013), Fluorides for the prevention of early tooth decay (demineralised white lesions) during fixed brace treatment. Cochrane Database Syst Rev. 12.

92. Ferreira, J.M. et al (2009). Therapeutic effect of two fluoride varnishes on white spot lesions: a randomized clinical trial. Braz Oral Res, 23(4): 446-51.


93. Marinho V.C. et al (2002). “Fluoride gels for preventing dental caries in children and adolescents”. Cochrane Database Syst Rev,(2) CD002280, 1-8.

94. Jeyebeh M. M ( 2015). Fluoride Varnish Effect on Caries in a Sample of 3-6 Years Old Children. J Int Oral Health, Jan, 7(1), 30-35.

95. Ekstrand J., Koch G., Peterson LG (1980). Plasma Fluoride concentration and urinary fluoride excetion in children folowing application of the fluoride containing varnish Duraphat. Caries Res. 14, 185-189.

96. Ekstrand J., Koch G., Peterson LG (1980). Plasma Fluoride concentration in pre- school children after ingestion of fluoride tablets and toothpaste. Caries Res, 17, 379-384.

97. Burt B.A., Eklund S.A.(1999). Dentistry, dental practice and the community. 5th ed., Philadelphia: Saunders: 320.

98. Neeraj Gugnani et al (2012). Caries infiltration of noncavitated white spot lesions: A novel approach for immediate esthetic improvement. Contemp Clin Dent. 3(Suppl 2): S199–S202.

99. S. Paris, W. Hopfenmuller, H. Meyer-Lueckel (2010). Resin Infiltration of Caries Lesions an Efficacy Randomized Trial. J Dent Res, 89(8), 823-6.

100. R. Kabaktchieva, N. Gateva and K. Peycheva (2014). The role of light- induced fluorescence in the treatment of smooth surface carious lesions with Icon infiltration and the results after 1 year. Acta Medica Bulgarica, Vol. XLI, N 2, 36-42.

101. G.F. Seixas. et al (2018). Clinpro TM XT Sealant Adhesion to the Occlusal Surface of Primary Molars: Longitudinal Evaluation, J Health Sci 2018; 20(2):112-8, 115.

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