다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기
Journal of dental research, v.71 no.3 suppl., 1992년, pp.913 - 919
Mellberg, J.R. (Colgate-Palmolive Company, Technology Center, 909 River Road, Piscataway, New Jersey 08854)
AI-Helper
Hard-tissue substrates include primarily human and bovine enamel and human dentin. They have been used for in situ studies in a natural or sound condition, as well as flattened or containing an in vitro-formed caries-like lesion. Human enamel and dentin are generally the substrates of choice for st...
Al-Joburi, W., Koulourides, T.. Effect of Fluoride on in vitro Root Surface Lesions. Caries research, vol.18, no.1, 33-40.
Arends, J., Christoffersen, J.. Invited Review Article : The Nature of Early Caries Lesions in Enamel. Journal of dental research, vol.65, no.1, 2-11.
Dentin and Dentin Reactions in the Oral Cavity ARENDS J. 117 1987
Arends, J., Christoffersen, J., Ruben, J., Jongebloed, W.L.. Remineralization of Bovine Dentine in vitro. Caries research, vol.23, no.5, 309-314.
Demineralization and Remineralization of the Teeth ARENDS J. 1 1983
J Biol Buccale ARENDS J. 161 6 1978
Demineralization and Remineralization of the Teeth ARENDS J. 155 1983
Scand J Dent Res ARENDS J. 297 97 1989
J Biol Buccale ARENDS J. 175 8 1980
Arends, J.. Tooth enamel remineralization. Journal of crystal growth, vol.53, no.1, 135-147.
Scant J Dent Res ÅRTUN J. 193 94 1986
Besic, F.C.. An Aspect of Diffusion: Its Possible Association with Dental Caries. Journal of dental research, vol.28, no.4, 379-390.
Brudevold, F., Attarzadeh, F., Tehrani, A., van Houte, J., Russo, J.. Development of a New Intraoral Demineralization Test. Caries research, vol.18, no.5, 421-429.
Buskes, J.A.K.M., de Josselin de Jong, E., Christoffersen, J., Arends, J.. Microradiographic Study on the Demineralization of Thick Enamel Sections: A Constant Composition Study. Caries research, vol.21, no.1, 15-21.
Clark, J.W., More, F.G., Corpron, R.E., Korytnicki, D., Kowalski, C.J.. Effects on Artificial Enamel Lesions in vivo by Exposure to NaF Lozenges. Caries research, vol.20, no.5, 465-472.
Creanor, S.L., Macfarlane, T.W., Mackenzie, D., Weetman, D.A., Strang, R., Stephen, K.W.. Microbiology and Acid/Anion Profiles of Enamel Surface Plaque from an in situ Caries Appliance. Caries research, vol.20, no.5, 392-397.
Creanor, S.L., Strang, R., Stephen, K.W.. Demineralization in Acidified Gelatin at Different Sites on the Same Enamel Surface (Short Communication). Caries research, vol.23, no.5, 345-347.
Creanor, S.L., Strung, R., Telfer, S., MacDonald, I., Smith, M.J., Stephen, K.W.. In situ Appliance for the Investigation of Enamel De- and Remineralisation. Caries research, vol.20, no.5, 385-391.
Dijkman, A.G., Schuthof, J., Arends, J.. In vivo Remineralization of Plaque-Induced Initial Enamel Lesions - A Microradiographic Investigation. Caries research, vol.20, no.3, 202-208.
Edmunds, D.H., Whittaker, D.K., Green, R.M.. Suitability of Human, Bovine, Equine, and Ovine Tooth Enamel for Studies of Artificial Bacterial Carious Lesions. Caries research, vol.22, no.6, 327-336.
J Dent Res ESSIG M.E. 108 66 1987
Feagin, F. F.. Mineral flux of surface enamel and root surfaces in acidified gelatin gels. Journal of oral pathology, vol.13, no.5, 497-504.
Featherstone, J.D.B., Mellberg, J.R.. Relative Rates of Progress of Artificial Carious Lesions in Bovine, Ovine and Human Enamel. Caries research, vol.15, no.1, 109-114.
Featherstone, J.D.B., ten Cate, J.M., Shariati, M., Arends, J.. Comparison of Artificial Caries-Like Lesions by Quantitative Microradiography and Microhardness Profiles. Caries research, vol.17, no.5, 385-391.
Flim, G. J., Arends, J.. Diffusion of45Ca in bovine enamel. Calcified tissue research, vol.24, no.1, 59-64.
Gängler, P., Hoyer, I.. In vivo Remineralization of Etched Human and Rat Enamel. Caries research, vol.18, no.4, 336-343.
Groeneveld, A., Purdell-Lewis, D.J., Arends, J.. Influence of the Mineral Content of Enamel on Caries-Like Lesions Produced in Hydroxyethyl Cellulose Buffer Solutions. Caries research, vol.9, no.2, 127-138.
Hals, Einar, Selvig, Knut A.. Correlated Electron Probe Microanalysis and Microradiography of Carious and Normal Dental Cementum. Caries research, vol.11, no.1, 62-75.
Ped Dent HAYES P.A. 295 10 1988
J Pedodont HICKS M.J. 47 11 1986
Holmen, L., Mejare, M., Malmgren, B., Thylstrup, A.. The Effect of Regular Professional Plaque Removal on Dental Caries in vivo. Caries research, vol.22, no.4, 250-256.
Hoppenbrouwers, P.M.M., Driessens, F.C.M., Borggreven, J.M.P.M.. The mineral solubility of human tooth roots. Archives of oral biology, vol.32, no.5, 319-322.
Jansma, J., Vissink, A., ’s-Gravenmade, E.J., de Josselin de Jong, E., Jongebloed, W.L., Retief, D.H.. A Model to Investigate Xerostomia-Related Dental Caries. Caries research, vol.22, no.6, 357-361.
Kashket, S., Lopez, L.R.. Reduction of Intra-oral Demineralization of Enamel after Single Exposures to Sodium Fluoride. Journal of dental research, vol.71, no.3, 867-870.
Kidd, E.A.M., Richards, A., Thylstrup, A., Fejerskov, O.. The Susceptibility of ‘Young’ and ‘Old’ Human Enamel to Artificial Caries in vitro. Caries research, vol.18, no.3, 226-230.
Klinger, H.G., Wiedemann, W.. Enhancement of in-vivo remineralization of approximal initial caries in man by an organic and inorganic remineralization agent. Archives of oral biology, vol.31, no.5, 269-272.
Kotsanos, N., Darling, A.I., Levers, B.G.H.. A model for the production of artificial caries in the mouth in man. Archives of oral biology, vol.31, no.7, 491-495.
AL J Med Sci KOULOURIDES T. 435 1 1964
Larsen, M.J.. Chemical Events during Tooth Dissolution. Journal of dental research, vol.69, no.2, 575-580.
Leach, S.A., Green, R.M.. Reversal of Fissure Caries in the Albino Rat by Sweetening Agents. Caries research, vol.15, no.6, 508-511.
Mallon, D.E., Mellberg, J.R.. Analysis of Dental Hard Tissue by Computerized Microdensitometry. Journal of dental research, vol.64, no.2, 112-116.
Mellberg, J.R.. Demineralization and Remineralization of Root Surface Caries. Gerodontology, vol.5, no.1, 25-31.
Mellberg, J.R., Castrovince, L.A., Rotsides, I.D.. In vivo Remineralization by a Monofluorophosphate Dentifrice as Determined with a Thin-section Sandwich Method. Journal of dental research, vol.65, no.8, 1078-1083.
Mellberg, J.R., Fletcher, R., Grote, N.E.. Effect of a Steel Mesh and Human Dental Plaque on Fluoride Uptake in vitro. Caries research, vol.25, no.6, 402-405.
Mellberg, James R., Loertscher, Kenneth L.. Comparison of In Vitro Fluoride Uptake by Human and Bovine Enamel from Acidulated Phosphate-Fluoride Solutions. Journal of dental research, vol.53, no.1, 64-67.
Mellberg, J.R., Petrou, I.D., Grote, N.E.. The Effect of Plaque Thickness on Progression of Artificial Caries Lesion Formation in situ. Journal of dental research, vol.69, no.3, 865-867.
Mellberg, J.R., Petrou, I.D., Grote, N.E.. Findings from an in situ Thin-section Sandwich Model for Evaluating Cariogenic and Anti-cariogenic Activity. Journal of dental research, vol.71, no.3, 850-855.
Mobley, M.J.. Fluoride Uptake from in situ Brushing with a SnF2 and a NaF Dentifrice. Journal of dental research, vol.60, no.12, 1943-1948.
Acta Odontol Scand NYGAARD-ÖSTBY B. 357 5 1957
Nyvad, B., ten Cate, J.M., Fejerskov, O.. Microradiography of Experimental Root Surface Caries in Man. Caries research, vol.23, no.4, 218-224.
Ogaard, B.. Prevalence of white spot lesions in 19-near-olds: A study on untreated and orthodontically treated persons 5 years after treatment. American journal of orthodontics and dentofacial orthopedics, vol.96, no.5, 423-427.
Øgaard, B., Arends, J., Rølla, G.. Action of Fluoride on Initiation of Early Root Surface Caries in vivo (Short Communication). Caries research, vol.24, no.2, 142-144.
Øgaard, B., Arends, J., Schuthof, J., Rølla, G., Ekstrand, J., Oliveby, A.. Action of Fluoride on Initiation of Early Enamel Caries in vivo. Caries research, vol.20, no.3, 270-277.
Øgaard, B., Rølla, G., Arends, J.. In vivo Progress of Enamel and Root Surface Lesions under Plaque as a Function of Time. Caries research, vol.22, no.5, 302-305.
Scand J Dent Res ØGAARD B. 209 96 1988
O'Reilly, M.M., Featherstone, J.D.B.. Demineralization and remineralization around orthodontic appliances: An in vivo study. American journal of orthodontics and dentofacial orthopedics, vol.92, no.1, 33-40.
Ostrom, Carl A., Koulourides, Theodore, Hickman, Frances, Phantumvanit, Prathip. Combined Effects of Sucrose and Fluoride on Experimental Caries and on the Associated Microbial Plaque. Journal of dental research, vol.56, no.3, 212-221.
Pearce, E.I.F.. Effect of Plaque Mineralization on Experimental Dental Caries. Caries research, vol.16, no.6, 460-471.
Pearce, E.I.F., Moore, A.J.. Remineralization of Softened Bovine Enamel following Treatment of Overlying Plaque with a Mineral-enriching Solution. Journal of dental research, vol.64, no.3, 416-421.
Petersson, L.G., Frostell, G., Lodding, A.. Secondary Ion Microanalysis of Fluorine in Apatites of Biological Interest. Zeitschrift für Naturforschung. Section C, Biosciences, vol.29, no.7, 417-420.
Phankosol, P., Ettinger, R.L., Hicks, M.J., Wefel, J.S.. Histopathology of the Initial Lesion of the Root Surface: an in vitro Study. Journal of dental research, vol.64, no.5, 804-809.
Poole, D.F.G., Shellis, R.P., Tyler, J.E.. Rates of formation in vitro of dental caries-like enamel lesions in man and some non-human primates. Archives of oral biology, vol.26, no.5, 413-417.
Schäfer, F.. Evaluation of the Anticaries Benefit of Fluoride Toothpastes Using an Enamel Insert Model. Caries research, vol.23, no.2, 81-86.
Schäfer, F., Raven, S.J., Parr, T.A.. The Effect of Lesion Characteristic on Remineralization and Model Sensitivity. Journal of dental research, vol.71, no.3, 811-813.
Caries Res SILVERSTONE L. 168 17 1983
J Dent Res SIMONE A. J. 403 70 1991
Smits, M.T., Arends, J.. Influence of Xylitol- and/or Fluoride-Containing Toothpastes on the Remineralization of Surface Softened Enamel Defects in vivo. Caries research, vol.19, no.6, 528-535.
Strang, R., Damato, F.A., Creanor, S.L., Stephen, K.W.. The Effect of Baseline Lesion Mineral Loss on in situ Remineralization. Journal of dental research, vol.66, no.11, 1644-1646.
Strange, R., Damato, F.A., Stephen, K.W.. Comparison of in vitro Demineralization of Enamel Sections and Slabs (Short Communication). Caries research, vol.22, no.6, 348-349.
Caries Res STRANG R. 185 20 1986
ten Cate, J.M., Duijsters, P.P.E.. Influence of Fluoride in Solution on Tooth Demineralization. Caries research, vol.17, no.6, 513-519.
ten Cate, J.M., Exterkate, R.A.M.. Use of the Single-Section Technique in Caries Research (Short Communication). Caries research, vol.20, no.6, 525-528.
Dentin and Dentin Reactions in the Oral Cavity TEN CATE J.M. 67 1987
Ten Cate, J.M., Van De Plassche-Simons, Y.M., Van Strijp, A.J.P.. Importance of Model Parameters in the Assessment of Intra-oral Remineralization. Journal of dental research, vol.71, no.3, 879-883.
J Biol Buccale THEUNS H.M. 229 8 1980
Theuns, H.M., Driessens, F.C.M., van Dijk, J.W.E., Groeneveld, A.. Experimental Evidence for a Gradient in the Solubility and in the Rate of Dissolution of Human Enamel. Caries research, vol.20, no.1, 24-31.
Theuns, H.M., van Dijk, J.W.E., Jongebloed, W.L., Groeneveld, A.. The mineral content of human enamel studied by polarizing microscopy, microradiography and scanning electron microscopy. Archives of oral biology, vol.28, no.9, 797-803.
Advances in Fluorine Research and Dental Caries Prevention VON DER FEHR F.R. 121 4 1966
von der Fehr, F.R.. A study of carious lesions produced in vivo in unabraded, abraded, exposed, and F-treated human enamel surfaces, with emphasis on the X-ray dense outer layer. Archives of oral biology, vol.12, no.7, 797-810,IN3-IN4,811-812,IN5-IN6,813-814,IN7.
Wefel, J.S.. Effects of Fluoride on Caries Development and Progression Using Intraoral Models. Journal of dental research, vol.69, no.2, 626-633.
Wefel, J. S., Clarkson, B. H., Heilman, J. R.. Natural root caries: a histologic and microradiographic evaluation. Journal of oral pathology, vol.14, no.8, 615-623.
Wefel, J.S., Maharry, G.J., Jensen, M.E., Harless, J.D.. Development of an Intra-oral Single-section Remineralization Model. Journal of dental research, vol.66, no.9, 1485-1489.
J Dent Res WHITTAKER D.K. 439 62 1983
J Biol Buccale WOLTGENS J.H.M. 35 11 1983
Woltgens, J.H.M., Bervoets, T.J.M., Witjes, F., Driessens, F.C.M.. Effect of post-eruptive age on Ca and P loss from human enamel during demineralization in vitro. Archives of oral biology, vol.26, no.9, 721-725.
Wöltgens, J.H.M., Koulourides, T.. Comparison of Diphosphonate Effects on Enamel in vitro and in vivo. Caries research, vol.17, no.4, 357-364.
Zero, D.T., van Houte, J., Russo, J.. Enamel demineralization by acid produced from endogenous substrate in oral Streptococci. Archives of oral biology, vol.31, no.4, 229-234.
Zuidgeest, T.G.M., Herkströter, F.M., Arends, J.. Mineral Density and Mineral Loss after Demineralization at Various Locations in Human Root Dentine. Caries research, vol.24, no.3, 159-163.
해당 논문의 주제분야에서 활용도가 높은 상위 5개 콘텐츠를 보여줍니다.
더보기 버튼을 클릭하시면 더 많은 관련자료를 살펴볼 수 있습니다.
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
Copyright KISTI. All Rights Reserved.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.