Full Length Research Paper
References
Amaechi BT, Ramalingam K, Mensinkai PK, Chedjieu I (2012). In situ remineralization of early caries by a new high-fluoride dentifrice. Gen. Dent. 60(4):e186-192. Pubmed |
||||
American Dental Association Council on Scientific Affairs (2007). Professionally applied topical fluoride: evidence-based clinical recommendations. J. Dent. Educ. 71(3):393–402. Pubmed |
||||
Asaizumi M, Karlinsey RL, Mackey AC, Kato T, Kuga T (2013). In vitro assessments of white-spot lesions treated with NaF plus tricalcium phosphate (TCP) toothpastes using microtomography (micro-CT). J. Dent. Oral Hyg. 5(7):68-76. |
||||
Bonse U, Busch F (1996). X-ray computed microtomography (μCT) using synchrotron radiation (SR). Prog. Biophys. Mol. Biol. 65:133-169. Crossref |
||||
ten Cate JM, Rempt HE (1986). Comparison of the in vivo effect of a 0 and 1,500 ppmF MFP toothpaste on fluoride uptake, acid resistance andlesion remineralization. Caries Res. 20(3):193-201. Crossref |
||||
ten Cate JM, Timmer K, Shariati M, Featherstone JDB (1988). Effect of Timing of Fluoride Treatment on Enamel De- and Remineralization invitro: A pH- cycling Study. Caries Res. 22:20-26. Crossref |
||||
Denison C, Carlson WD, Ketcham A (1997). Three-dimensional quantitative textural analysis of metamorphic rocks using high-resolution computed X-ray tomography: Part I. Methods and techniques. J. Metamorphic Geol. 15:29-44. Crossref |
||||
Dowker SEP, Elliott JC, Davis GR, Wilson RM, Cloetens P (2004). Synchrotron X-Ray Microtomographic Investigation of Mineral Concentrations at Micrometre Scale in Sound and Carious Enamel. Caries Res. 38:514-522. Crossref |
||||
Elderton RJ (1996). Treating restorative dentistry to health. Br. Dent. J. 181(6):220, 221-225. Crossref |
||||
Featherstone JDB (2000). The science and practice of caries prevention. J. Am. Dent. Assoc. 131:887-899. Crossref |
||||
Flannery BP, Deckman HW, Roberge WG, D'Amico KL (1987). Three dimensional X-ray microtomography. Science 237:1439-1444. Crossref |
||||
Hirano T, Funaki M, Nagata T, Taguchi I, Hamada H, Usami K, Hayakawa K (1990). Observation of Allende and Antarctic meteorites by monochromatic X-ray CT based on synchrotron radiation. Proc. NIPR Symp. Antarct. Meteorites 3:270-281. |
||||
Karlinsey RL, Mackey AC, Stookey GK (2009). In vitro remineralization efficacy of NaF systems containing unique forms of calcium. Am. J. Dent. 22(3):185-188. Pubmed |
||||
Karlinsey RL, Mackey AC, Stookey GK, Pfarrer AM (2009). In vitro assessments of experimental NaF dentifrices containing a prospective calcium phosphate technology. Am. J. Dent. 22(3):180-184. Pubmed |
||||
Karlinsey RL, Mackey AC, Walker ER, Amaechi BT, Karthikeyan R, Najibfard K, Pfarrer AM (2010). Remineralization potential of 5,000 ppm fluoride dentifrices evaluated in a pH cycling model. J. Dent. Oral Hyg. 2(1):1-6. |
||||
Karlinsey RL, Mackey AC, Walker ER, Frederick KE (2010). Surfactant-modified β-TCP: Structure, properties, and in vitro remineralization of subsurface enamel lesions. J. Mater. Sci. Mater. Med. 21(7):2009-2020. Crossref |
||||
Karlinsey RL, Mackey AC, Walker ER, Frederick KE (2010). Enhancing remineralization of subsurface of enamel lesions with functionalized β-TCP. In: Bourg H, Lisle A (eds.), Biomaterials Developments and Applications, © Nova Science Publishers, Inc. pp. 353-374. | ||||
Karlinsey RL, Mackey AC, Walker TJ, Frederick KE, Blanken DD, Flaig SM, Walker ER (2011). In vitro remineralization of human and bovine white-spot lesions by NaF dentifrices: A pilot study. J. Dent. Oral Hyg. 3(2):22-29. Pubmed |
||||
Karlinsey RL, Pfarrer AM (2012). Fluoride Plus Functionalized β-TCP: A Promising Combination for Robust Remineralization. Adv. Dent. Res. 24(2):48-52. Crossref |
||||
Kidd EAM, Nyvad B (2003). Caries control for the individual patient. In: Fejerskov O, Kidd EAM (eds.), Dental Caries: The Disease and its Clinical Management. Oxford: Blackwell Munksgaard. pp. 309-311. | ||||
Marinho VC, Higgins JP, Logan S, Sheiham A (2003b). Fluoride mouthrinses for preventing dental caries in children and adolescents. Cochrane Database Syst. Rev. (3):CD002284. Pubmed |
||||
Marthaler TM (1990). Changes in the prevalence of dental caries: how much can be attributed to changes in diet? Caries Res. 24 Suppl 1:3-15. Crossref |
||||
Mensinkai PK, Ccahuana-Vasquez RA, Chedjieu I, Amaechi BT, Mackey AC, Walker TJ, Blanken DD, Karlinsey RL (2012). In situ remineralization of white-spot enamel lesions by 500 and 1,100 ppm F dentifrices. Clin. Oral Investig. 16(4):1007-1014. Crossref |
||||
Momose A (2005). Recent Advances in X-ray Phase Imaging. Jpn. J. Appl. Phys. 44-9A:6355-6367. |
||||
Nakata K, Nikaido T, Nakashima S, Nango N, Tagami J (2012). An aproach to normalizing micro-CT depth profilies of mineral density for monitoring enamel remineralization progress. Dent. Mater. J. 31(4):533-540. Crossref |
||||
Nordström A, Birkhed D (2009). Fluoride Retention in Proximal Plaque and Saliva Using Two NaF Dentifrices Containing 5,000 and 1,450 ppm F with and without Water Rinsing. Caries Res. 43:64-69. Crossref |
||||
Pitts NB (2004). Are we ready to move from operative to non-operative/preventive treatment of dental caries in clinical practice? Caries Res. 38: 294-304. Crossref |
||||
Stearns RI (1970). Incorporation of Fluoride by Human Enamel: I. Solid-State Diffusion Process. J. Dent. Res. 49:1444-1451. Crossref |
||||
Stookey GJ (2008). The effect of saliva on dental caries. J. Am. Dent. Assoc.139:11S-17S Crossref |
||||
Tavss EA, Mellberg JR, Joziak M, Gambogi RJ, Fisher SW (2003). Relationship between dentifrice fluoride concentration and clinical caries reduction. Am. J. Dent. 16(6):369-374. Pubmed |
||||
Tsuchiyama A, Uesugi K, Nakano T, Ikeda S (2005). Quantitative evaluation of attenuation contrast of X-ray computed tomography images using monochromatized beams. Am. Mineral. 90:132-142. Crossref |
||||
Twetman S, Axelsson S, Dahlgren H, Holm AK, Kallestal C, Lagerlof F, Lingstrom P, Mejare I, Nordenram G, Norlund A, Petersson LG, Soder B (2003). Caries-preventive effect of fluoride toothpaste: a systematic review. Acta Odontol. Scand. 61(6):347-355. Crossref |
||||
Uesugi K, Hoshino M, Takeuchi A, Suzuki Y, Yagi N, Nakano T (2010). Development of fast (sub-minute) micro-tomography. AIP Conf. Proc. 1266, 47 (2010) Crossref | ||||
Uesugi K, Tsuchiyama A, Nakano T, Suzuki Y, Yagi N, Umetani K, Kohmura Y (1999). Development of micro-tomography imaging system forrock and mineral samples (presented at the SPIE Conference on Developmentsin X-Ray Tomography II, Denver, Colorado, July, 1999). Proc. Soc. Photo. Opt. Instrum. Eng. 3772:214-221. |
||||
Watanabe K, Nakamura T, Ogihara T, Ochiai Y, Watanabe S (2012). Longitudinal evaluation of mineral loss at the earliest stage of enamel demineralization using micro-computed tomography. Health 4(6):334-340. Crossref |
||||
Wildenschild D, Vaz CMP, Rivers ML, Rikard D, Christensen BSB (2002). Using X-ray computed tomography in hydrology: systems, resolutions, and limitations. J. Hydrol. 267(3-4):285-297. Crossref |
||||
Wilkins SW, Gureyev TE, Gao D, Pogany A, Stevenson AW (1996). Phase-contrast imaging using polychromatic hard X-rays. Nature 384:335-338. Crossref |
||||
Wong FSL, Anderson P, Fan H, Davis GR (2004). X-ray microtomographic study of mineral concentration distribution in deciduous enamel. Arch. Oral Biol. 49(11):937-944. Crossref |
||||
Zimmer S, Jahn KR, Barthel CR (2003). Recommendations for the use of fluoride in caries prevention. Oral Health Prev. Dent. 1(1):45-51. Pubmed |
Copyright © 2024 Author(s) retain the copyright of this article.
This article is published under the terms of the Creative Commons Attribution License 4.0