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Aimutis, W.R. (2004). Bioactive properties of milk proteins focus on anticariogenesis. The

Journal of Nutrition, Vol.134, No.4, pp. 989S-95S, ISSN 0022-3166. Aljehani, A.; Yousif, M.A.; Angmar-Mansson B, Shi XQ. (2006). Longitudinal quantification of incipient carious lesions in postorthodontic patients using a fluorescence method. European Journal of Oral Sciences, Vol. 114, No. 5, pp. 430-4, ISSN 1600-0722. Altenburger, M.J.; Gmeiner, B.; Hellwig, E.; Wrbas, K.T.; Schirrmeister, J.F. (2010). The evaluation of fluorescence changes after application of casein phosphopeptides (CPP) and amorphous calcium phosphate (ACP) on early carious lesions. American Journal of Dentistry. Vol.23, No. 4,pp.188-92, ISSN: 0894-8275 Andersson, A.; Skold-Larsson ,K.; Hallgren, A.; Petersson. L.G.; Twetman, S. (2007). Effect of a dental cream containing amorphous calcium phosphate complexes on white spot lesion regression assessed by laser fluorescence. Oral Health and Preventive Dentistry, Vol.5, No,3, pp. 229-233, ISSN 1602-1622.

Azarpazhooh, A.; Limeback, H. (2008). Clinical efficacy of casein derivatives: a systematic review of the literature. Journal of the American Dental Association, Vol.139, No.7, pp. 915-924, ISSN 0002-8177.

Bailey, D.L.; Adams, G.G.; Tsao, C.E.; Hyslop, A.; Escobar, K.; Manton, D.J.; Reynolds, E.C.;

Morgan,M.V. (2009). Regression of post-orthodontic lesions by a remineralizing cream. Journl of Dental Research, Vol.88, No.12, pp.1148-1153, ISSN 0022-0345.

Beerens, M.W.; van der Veen, M.H.; van Beek, H.; ten Cate, J.M. (2010). Effects of casein phosphopeptide amorphous calcium fluoride phosphate paste on white spot lesions and dental plaque after orthodontic treatment: a 3-month follow-up. European Journal of Oral Sciences, Vol.118, No.6, pp.610-617, ISSN 1600-0722.

Bröchner, A.; Christensen, C.; Kristensen, B.; Tran^us, S.; Karlsson, L.; Sonnesen, L.; Twetman, S. (2011). Treatment of post-orthodontic white spot lesions with casein phosphopeptide-stabilised amorphous calcium phosphate. Clinical Oral Investigations, Vol.15, No.3, pp.369-373, ISSN 1436-3771.

Burwell, A.K.; Litkowski, L.J.; Greenspan, D.C. (2009). Calcium sodium phosphosilicate (NovaMin): remineralization potential. Advances in Dental Research, Vol.21, No.1 pp.35-39, ISSN: 0895-9374.

Cai, F.; Manton, D.J.; Shen, P.; Walker, G.D.; Cross, K.J.; Yuan, Y.; Reynolds, C.; Reynolds, E.C.(2007). Effect of citric acid and casein phosphopeptide-amorphous calcium phosphate to a sugar-free chewing gum on enamel remineralization in situ. Caries Research, Vol. 41, No.5, pp.377-383, ISSN 0008-6568.

Cochrane, N.J.; Cai, F.; Huq, N.L.; Burrow, M.F.; Reynolds, E.C. (2010). New approaches to enhanced remineralization of tooth enamel. Journal of Dental Research, Vol.89, No. 11, pp.1187-1197, ISSN 0022-0345.

Cochrane, N.J.; Saranathan, S.; Cai, F.; Cross, K.J.; Reynolds, E.C. (2008). Enamel subsurface lesion remineralisation with casein phosphopeptide stabilized solutions of calcium, phosphate and fluoride. Caries Research, Vol.42, No.2, pp.88-97, ISSN 0008-6568.

Cross, K.J.; Huq, N.L.; Palamara, J.E.; Perich, J.W.; Reynolds, E.C. (2005). Physicochemical characterization of casein phosphopeptide-amorphous calcium phosphate nanocomplexes. The Journal of Biological Chemistry, Vol.280, No.15, pp.15362-15369, ISSN 0021-9258.

Drobni, M.; Li, T.; Krüger, C.; Loimaranta, V.; Kilian, M.; Hammarström, L.; Jörnvall, H.;

Bergman, T.; Strömberg, N. (2006). Host-derived pentapeptide affecting adhesion, proliferation, and local pH in biofilm communities composed of Streptococcus and Actinomyces species. Infection and Immunity, Vol.74, No.11, pp.6293-6299, ISSN 00199567.

Ekstrand, K.R.; Kuzmipa, I.; Bjorndal, L.; Thylstrup, A. (1955). Relationship between external and histologic features of progressive stages of caries in the occlusal fossa. Caries Research, Vol.29, No.4,pp.243-50, ISSN 0008-6568.

Ekstrand, K.R.; Zero, D.T.; Martignon, S.; Pitts, N.B. (2009) Lesion activity assessment. Monographs in Oral Science. Vol.21, pp. 63-90, ISSN 0077-0892.

Ferrazzano, G.F.; Amato, I,; Cantile. T,; Sangianantoni, G,; Ingenito A. (2011) In vivo remineralising effect of GC tooth mousse on early dental enamel lesions: SEM analysis. International Dental Journal. Vol.61, N°4, pp.210-216, ISSN: 1834-7819.

Greenspan, D.C. (2010) NovaMin and tooth sensitivity an overview. The Journal of Clinical Dentistry, Vol.21, No.3, pp.61-65, ISSN: 0895-8831.

Hay, D.I.; Moreno, E.C. (1989). Statherin and the acidic proline-rich proteins. In: Human Saliva: Clinical Chemistry and Microbiology. Tenovuo JO, pp. 131-150, CRC Press, ISBN 0849363918 / 0-8493-6391-8, Florida.

Huq, N.L.; Cross, K.J.; Reynolds, E.C. (2004). Molecular modelling of the multiphosphorylated casein phosphopeptide alphaS1-casein(59-79) based on NMR constraints The Journal Dairy Research, Vol.71, No.1, pp. 28-32 ISSN 1469-7629.

Iijima, Y.; Takagi, O.; Ruben, J.; Arends, J. (1999). In vitro remineralization of in vivo and in vitro formed enamel lesions. Caries Research, Vol.33 No.3, pp.206-213, ISSN 00086568.

Ismail, A.I.; Sohn, W.; Tellez, M.; Amaya, A.; Sen, A.; Hasson, H.; Pitts, N.B. (2005). The International Caries Detection and Assessment System (ICDAS): an integrated system for measuring dental caries. Community Dentistry and Oral Epidemiology, Vol.35, No.3, pp.70-78, ISSN: 0301-5661.

Karlinsey, R.L.; Mackey, A.C.; Walker, E.R.; Frederick, K.E. (2010). Preparation, characterization and in vitro efficacy of an acid-modified beta-TCP material for dental hard-tissue remineralization. Acta Biomaterialia. Vol.6, No. 3, pp.969-78, ISSN: 1742-7061.

Koulourides, T.; Cueto, H.; Pigman, W. (1961). Rehardening of softened enamel surfaces of human teeth by solutions of calcium phosphates. Nature, Vol.21, No.189 pp.226-227, ISSN 0028-0836.

Kumar, V.L.; Itthagarun. A.; King. N.M. (2008)The effect of casein phosphopeptide-amorphous calcium phosphate on remineralization of artificial caries-like lesions: an in vitro study. Australian Dental Journal. Vol,53, N°1 pp.34-40. ISSN: 1834 -7819

Larsen, M.J.; Pearce, E.I. (2003). Saturation of human saliva with respect to calcium salts. Archives of Oral Biology, Vol.48, No.4, pp.317-322, ISSN: 0003-9969.

Llena, C.; Forner, L.; Baca, P. (2009). Anticariogenicity of casein phosphopeptideamorphous calcium phosphate: a review of the literature. Journal of Contemporary Dental Practice, Vol.10; No.3, pp.1-9, ISSN1526-3711.

Lussi, A; Imwinkelried, S.; Pitts, N.; Longbottom, C.; Reich, E. (1999). Performance and reproducibility of a laser fluorescence system for detection of occlusal caries in vitro. Caries Research, Vol.33, No.4, pp.261-6, ISSN 0008-6568.

Morgan, M.V.; Adams, G.G.; Bailey, D.L.; Tsao, C.E.; Fischman, S.L.; Reynolds, E.C. (2008).

The anticariogenic effect of sugar-free gum containing CPPACP nanocomplexes on approximal caries determined using digital bitewing radiography. Caries Research, Vol. 42, No.3, pp.171-184, ISSN 0008-6568.

Neuhaus, K.W.;, Lussi, A. (2009). Casein phosphopeptide--amorphous calcium phosphate (CPP-ACP) and its effect on dental hard tissues. Schweizer Monatsschrift für Zahnmedizin, Vol.119, No.2, pp.110-6, ISSN:1011-4203.

Park, O.; Swaisgood, H.E.; Allen, J.C. (1998). Calcium binding of phosphopeptides derived from hydrolysis of a [sic] alpha s-casein or beta-casein using immobilized trypsin. Journal of Dairy Science, Vol. 81, No. 11, pp.2850-2857, ISSN 0022-0302.

Rao, S.K.; Bhat, G.S.; Aradhya, S.; Devi, A.; Bhat, M. (2009). Study of the efficacy of toothpaste containing casein phosphopeptide in the prevention of dental caries: a randomized controlled trial in 12- to 15-year-old high caries risk children in Bangalore, India. Caries Research, Vol.43, No.6, pp.430-435, ISSN 0008-6568.

Rao, A.; Malhotra, N. (2011) The role of remineralizing agents in dentistry: a review. Compendium Continuing Education Dental. Vol.32, No.6 pp.26-33, ISSN 1548-8578.

Reeves, R.E.; Latour, N.G. (1958). Calcium phosphate sequestering phosphopeptide from casein. Science, Vol.128, No. 3322, pp. 472, ISSN 1095-9203.

Reynolds, E. (1987) The prevention of sub-surface demineralization of bovine enamel and change in plaque composition by casein in an intra-oral model. Journal of Dental Research, Vol.26, No.6, pp. 1120-1127, ISSN 0022-0345.

Reynolds, E.; Black, C. (1989) Cariogenicity of a confection supplemented with sodium caseinate at a palatable level. Caries Research, Vol.23, No.5, pp.368-370, ISSN 00086568.

Reynolds, E.C. (1998) Anticariogenic complexes of amorphous calcium phosphate stabilized by casein phosphopeptides: a review. Special Care Dentistry Vol.18, No.1, pp. 8-16, ISSN 0275-1879.

Reynolds, E.C.; Cai, F.; Shen, P.; Walker, G.D. (2003). Retention in plaque and remineralization of enamel lesions by various forms of calcium in a mouthrinse or sugar-free chewing gum. Journal of Dental Research, Vol.82, No.3,pp.:206-211, ISSN 0022-0345.

Reynolds, E.C.; Cai, F.; Cochrane, N.J.; Shen, P.; Walker, G.; Morgan, M.V.; Reynolds, C.

(2008). Fluoride and casein phosphopeptide-amorphous calcium phosphate. Journal of Dental Research, Vol.87, No 4, pp.344-348, ISSN 0022-0345.

Rose, R.K. (2000). Effects of an anticariogenic casein phosphopeptide on calcium diffusion in streptococcal model dental plaques. Archives of Oral Biology, Vol.45, No.7, pp.569575, ISSN 0003-9969.

Selwitz, RH.; Ismail, AI.; Pitts, NB. (2007). Dental caries. Lancet. Vol.369, No, 9555, pp.51-59.

Shen, P.; Cai, F.; Nowicki, A.; Vincent, J.; Reynolds, E.C. (2001). Remineralization of enamel subsurface lesions by sugar-free chewing gum containing casein phosphopeptide-amorphous calcium phosphate. Journal of Dental Research, Vol.80, No.12,pp.2066-2070, ISSN 0022-0345.

Silverstone, L.M.; Wefel, J.S.; Zimmerman, B.F.; Clarkson, B.H.; Featherstone, M.J. (1981).

Remineralization of natural and artificial lesions in human dental enamel in vitro. Effect of calcium concentration of the calcifying fluid. Caries Research, Vol.15, No.2, pp.138-157, ISSN 0008-6568.

Sridhar, N.; Tandon, S.; Rao, N. (2009) A comparative evaluation of DIAGNOdent with visual and radiography for detection of occlusal caries: An in vitro study. Indian Journal of Dental Research, Vol.20, No.3, pp. 326-331, ISSN 0022-0345.

Sullivan, R.J.; Charig, A.; Blake-Haskins, J.; Zhang, Y.P.; Miller, S.M.; Strannick, M.; Gaffar, A.; Margolis, H.C.(1997). In vivo detection of calcium from dicalcium phosphate dihydrate dentifrices in demineralized human enamel and plaque. Advances in Dental Research, Vol.11, No.4, pp.380-387, ISSN: 0895-9374.

ten Cate, J.M.; Arends, J. (1977). Remineralization of artificial enamel lesions in vitro. Caries Research, Vol.11, No.5, pp.277-286, ISSN 0008-6568.

ten Cate, J.M.; Buijs, M.J.; Miller, C.C.; Exterkate, R.A. (2008). Elevated fluoride products enhance remineralization of advanced enamel lesions. Journal of Dental Research Vol.87, No. 10, pp.943-947, ISSN 0022-0345.

Topping, G.V.A., Pitts, N.B. (2009). Clinical visual caries detection. Monographs of Oral Science. Vol.21, pp.15-41, ISSN: 0077-0892.

Tung, M.S.; Eichmiller, F.C. (2004). Amorphous calcium phosphates for tooth mineralization. Compendium of Continuing Education in Dentistry. Vol.25, No. 1, (9 Suppl 1)pp.9-13, ISSN 1548-8578.

Uysal, T,; Amasyali, M.; Koyuturk, A.E.; Ozcan, S. (2010) Effects of different topical agents on enamel demineralization around orthodontic brackets: an in vivo and in vitro study. Australian Dental Journal. Vol,;55, No.3, pp.268-274. ISSN: 1834 -7819.

Vitorino, R.; Lobo, M.J.; Duarte, J.R.; Ferrer-Correia, A.J; Domingues, P.M.; Amado, F.M.

(2005).The role of salivary peptides in dental caries. Biomedical Chromatography. Vol.19, No.3, pp.214-222, ISSN 0269-3879.

Vogel, G.L.; Schumacher, G.E.; Chow, L.C.; Takagi, S.; Carey, C.M. (2008). Ca pre-rinse greatly increases plaque and plaque fluid F. Journal of Dental Research, Vol.87, No.5, pp.466-469, ISSN 0022-0345.

Walker, G.D.; Cai, F.; Shen, P.; Adams, G.G.; Reynolds, C.; Reynolds, E.C. (2010). Casein phosphopeptide amorphous calcium phosphate incorporated into sugar confections inhibits the progression of enamel subsurface lesions in situ. Caries Research. Vol.44, No. 1, pp.3-40, ISSN 0008-6568.

Wefel, J.S.; Harless, J.D. (1987). The use of saturated DCPD in remineralization of artificial caries lesions in vitro. Journal of Dental Research, Vol. 66, No.11, pp.1640-1643, ISSN 0022-0345.

Willmot, D.R. (2004). White lesions after orthodontic treatment: does low fluoride make a difference?. Journal of (Orthodontics. Vol.31, No.3, pp.235242, ISSN 0141- 5387.

Yengopal, V.; Mickenautsch, S. (2009). Caries preventive effect of casein phosphopeptide-amorphous calcium phosphate (CPP-ACP): a meta-analysis. Acta Odontologica Scandinava. Vol.21, pp.1-12, ISSN 0001-6357.

Zhang, Y.P.; Din, C.S.; Miller, S.; Nathoo, S.A.; Gaffar, A. (1995). Intra-oral remineralization of enamel with a MFP/DCPD and MFP/silica dentifrice using surface microhardness. The Journal of Clinical Dentistry, Vol.6, No.2, pp.148-153, ISSN 08958831.

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