Fluoride Distribution in Sound and Carious Root Tissues of Human Teeth
Proton probe analysis has been used to provide for the first time quantitative F concentration data in carious root tissues from subjects consuming water containing 1 ppm F. In small lesions at the neck of the tooth with minimal tissue loss the F concentration was significantly higher at the outer l...
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| Vydané v: | Caries research Ročník 32; číslo 4; s. 239 - 246 |
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| Hlavní autori: | , , , , |
| Médium: | Journal Article |
| Jazyk: | English |
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Basel, Switzerland
S. Karger AG
1998
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| ISSN: | 0008-6568, 1421-976X |
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| Abstract | Proton probe analysis has been used to provide for the first time quantitative F concentration data in carious root tissues from subjects consuming water containing 1 ppm F. In small lesions at the neck of the tooth with minimal tissue loss the F concentration was significantly higher at the outer lesion edge than at the outer edge of adjacent sound root tissue. In one sample with high F values the lesion edge had 19,000 ppm F and the adjacent sound root surface 5,400 ppm F (μg F/g apatite). In large lesions with extensive cavitation F was again concentrated in the outer edge of the lesion and was significantly higher (1,800–4,100 ppm) than in adjacent sound inner dentine (190–290 ppm). Fluoride concentrations varied markedly along the outer edge of both normal and carious root tissues. Fluoride increase at the lesion edge is not an effect of tissue shrinkage but probably a result of remineralisation events during caries. This additional F may be expected to increase tissue resistance to further acid attacks. |
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| AbstractList | Proton probe analysis has been used to provide for the first time quantitative F concentration data in carious root tissues from subjects consuming water containing 1 ppm F. In small lesions at the neck of the tooth with minimal tissue loss the F concentration was significantly higher at the outer lesion edge than at the outer edge of adjacent sound root tissue. In one sample with high F values the lesion edge had 19,000 ppm F and the adjacent sound root surface 5,400 ppm F ( mu g F/g apatite). In large lesions with extensive cavitation F was again concentrated in the outer edge of the lesion and was significantly higher (1,800-4,100 ppm) than in adjacent sound inner dentine (190-290 ppm). Fluoride concentrations varied markedly along the outer edge of both normal and carious root tissues. Fluoride increase at the lesion edge is not an effect of tissue shrinkage but probably a result of remineralisation events during caries. This additional F may be expected to increase tissue resistance to further acid attacks. Proton probe analysis has been used to provide for the first time quantitative F concentration data in carious root tissues from subjects consuming water containing 1 ppm F. In small lesions at the neck of the tooth with minimal tissue loss the F concentration was significantly higher at the outer lesion edge than at the outer edge of adjacent sound root tissue. In one sample with high F values the lesion edge had 19,000 ppm F and the adjacent sound root surface 5,400 ppm F microg F/g apatite). In large lesions with extensive cavitation F was again concentrated in the outer edge of the lesion and was significantly higher (1,800-4,100 ppm) than in adjacent sound inner dentine (190-290 ppm). Fluoride concentrations varied markedly along the outer edge of both normal and carious root tissues. Fluoride increase at the lesion edge is not an effect of tissue shrinkage but probably a result of remineralisation events during caries. This additional F may be expected to increase tissue resistance to further acid attacks. Proton probe analysis has been used to provide for the first time quantitative F concentration data in carious root tissues from subjects consuming water containing 1 ppm F. In small lesions at the neck of the tooth with minimal tissue loss the F concentration was significantly higher at the outer lesion edge than at the outer edge of adjacent sound root tissue. In one sample with high F values the lesion edge had 19,000 ppm F and the adjacent sound root surface 5,400 ppm F (μg F/g apatite). In large lesions with extensive cavitation F was again concentrated in the outer edge of the lesion and was significantly higher (1,800–4,100 ppm) than in adjacent sound inner dentine (190–290 ppm). Fluoride concentrations varied markedly along the outer edge of both normal and carious root tissues. Fluoride increase at the lesion edge is not an effect of tissue shrinkage but probably a result of remineralisation events during caries. This additional F may be expected to increase tissue resistance to further acid attacks. Proton probe analysis has been used to provide for the first time quantitative F concentration data in carious root tissues from subjects consuming water containing 1 ppm F. In small lesions at the neck of the tooth with minimal tissue loss the F concentration was significantly higher at the outer lesion edge than at the outer edge of adjacent sound root tissue. In one sample with high F values the lesion edge had 19,000 ppm F and the adjacent sound root surface 5,400 ppm F microg F/g apatite). In large lesions with extensive cavitation F was again concentrated in the outer edge of the lesion and was significantly higher (1,800-4,100 ppm) than in adjacent sound inner dentine (190-290 ppm). Fluoride concentrations varied markedly along the outer edge of both normal and carious root tissues. Fluoride increase at the lesion edge is not an effect of tissue shrinkage but probably a result of remineralisation events during caries. This additional F may be expected to increase tissue resistance to further acid attacks.Proton probe analysis has been used to provide for the first time quantitative F concentration data in carious root tissues from subjects consuming water containing 1 ppm F. In small lesions at the neck of the tooth with minimal tissue loss the F concentration was significantly higher at the outer lesion edge than at the outer edge of adjacent sound root tissue. In one sample with high F values the lesion edge had 19,000 ppm F and the adjacent sound root surface 5,400 ppm F microg F/g apatite). In large lesions with extensive cavitation F was again concentrated in the outer edge of the lesion and was significantly higher (1,800-4,100 ppm) than in adjacent sound inner dentine (190-290 ppm). Fluoride concentrations varied markedly along the outer edge of both normal and carious root tissues. Fluoride increase at the lesion edge is not an effect of tissue shrinkage but probably a result of remineralisation events during caries. This additional F may be expected to increase tissue resistance to further acid attacks. |
| Author | Pearce, E. I. F. Sissons, C.H. Coote, G.E. Miller, J. H. Shu, M. |
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| Issue | 4 |
| Keywords | Root caries Dental caries Fluoride Proton microprobe Roots of teeth |
| Language | English |
| License | Copyright: All rights reserved. No part of this publication may be translated into other languages, reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying, recording, microcopying, or by any information storage and retrieval system, without permission in writing from the publisher. https://www.karger.com/Services/SiteLicenses |
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| References | Furseth R, Johansen E: A microradiographic comparison of sound and carious human dental cementum. Arch Oral Biol 1968;13:1197-1206.4885781 Westbrook JL, Miller AS, Chilton NW, Williams FL, Mumma RD Jr: Root surface caries: A clinical, histopathologic and micro-radiographic investigation. Caries Res 1974;8:249-255.4525333 Tohda H, Fejerskov O, Yanagisawa T: Transmission electron microscopy of cementum crystals correlated with Ca and F distribution in normal and carious human root surfaces. J Dent Res 1996;75:949-954.8675807 Yoon SH, Brudevold F, Gardner DE, Smith FA: Distribution of fluoride in teeth from areas with different levels of fluoride in the water supply. J Dent Res 1960;39:845-856. Dunipace AJ, Zhang W, Beiswanger AJ, Stookey GK: An in vitro model for studying the efficacy of fluoride dentifrices in preventing root caries. Caries Res 1994;28:315-321.8001052 Richards A, Coote GE, Pearce EIF: Proton probe and acid etching for determining fluoride profiles in porous enamel. J Dent Res 1994;73:644-651.8163735 Sanchez M, Mellberg JR: Fluoride uptake in vivo by artificial caries lesions in root surface dentin from sodium monofluorophosphate dentifrices. Caries Res 1988;22:150-152.3163521 Beck JD: The epidemiology of root surface caries: North American studies. Adv Dent Res 1993;7:42-51.8259996 ten Cate JM, Nyvad B, van de Plasche-Simons YM, Fejerskov O: A quantitative analysis of mineral loss and shrinkage of in vitro demineralized human root surfaces. J Dent Res 1991;70:1371-1374.1939832 Crawford AW, Sampson WJ, de Bruin HJ: Shallow fluorine depth profiles of cementum in periodontal disease: A pilot study. J Dent Res 1983;62:806-810.6575019 Takuma S, Ogiwara H, Suzuki H: Electron-probe and electron microscope studies of carious dentinal lesions with a remineralized surface layer. Caries Res 1975;9:278-285.1054304 Leach SA: Some notes on the solubility of enamel and dentine in acid. Arch Oral Biol 1959;1:218-232. Hals E, Selvig KA: Correlated electron probe microanalysis and microradiography of carious and normal dental cementum. Caries Res 1977;11:62-75.264248 Nakagaki H, Kawai K, Murakami T, Sakakibara Y, Ohno N, Weatherell JA, Robinson C: Fluoride distribution and histological structure of human cementum. Arch Oral Biol 1988;33:257-264.3165260 Pearce EIF, Guha-Chowdhury N, Iwami Y, Cutress TW: Stoichiometry of fluoride release from fluorhydroxyapatite during acid dissolution. Caries Res 1995;29:130-136.7728827 Schüpbach P, Guggenheim B, Lutz F: Histopathology of root surface caries. J Dent Res 1990b;69:1195-1204. Hoppenbrouwers PMM, Driessens FCM, Borggreven JMPM: The demineralization of human dental roots in the presence of fluoride. J Dent Res 1987b;66: 1370-1374. de Aisenberg EY, Ubois AM: Determination of fluoride content in human teeth by neutron activation analysis. J Dent Res 1974;53:755. Wefel JS, Maharry G, Jensen ME, Hayes P, Clarkson BH: In vivo demineralization and remineralization of enamel and root surfaces; in Leach SA (ed): Factors Relating to Demineralisation and Remineralisation of the Teeth. Oxford, IRL Press, 1986, pp 181-190. Mount GJ: Root surface caries: A recurrent dilemma. Aust Dent J 1986;31:288-291.3465305 Mukai M, Ikeda M, Yamagihara Y, Hara G, Kato K, Ishiguro K, Nakagaki H, Robinson C: Fluoride distribution in dentine and cementum in human permanent teeth with vital and non-vital pulps. Arch Oral Biol 1994;39:191-196.8018051 Kinney JH, Balooch M, Haupt DL Jr, Marshall SJ, Marshall GW Jr: Mineral distribution and dimensional changes in human dentin during demineralization. J Dent Res 1995;74:1179-1184.7790595 Nyvad B, Fejerskov O: Root surface caries: Clinical, histopathological and microbiological features and clinical implications. Int Dent J 1982;32:312-326. Teranaka T, Koulourides T: Effect of a 100-ppm fluoride mouthrinse on experimental root caries in humans. Caries Res 1987;21:326-332.3475177 Pearce EIF, Coote GE, Larsen MJ: The distribution of fluoride in carious human enamel. J Dent Res 1995;74:1775-1782.8530740 Schüpbach P, Guggenheim B, Lutz F: Human root caries: Histopathology of advanced lesions. Caries Res 1990a;24:145-158. Winn DM, Brunelle JA, Selwitz RH, Kaste LM, Oldakowski RJ, Kingman A, Brown LJ: Coronal and root caries in the dentition of adults in the United States, 1988-1991. J Dent Res 1996;75:642-651.8594088 Nelson DGA, Coote GE, Vickridge IC, Suckling G: Proton microprobe determination of fluorine profiles in the enamel and dentine of erupting incisors from sheep given low and high daily doses of fluoride. Arch Oral Biol 1989;34:419-429.2597035 Lawrence HP, Hunt RJ, Beck JD, Davies GM: Five-year incidence rates and intraoral distribution of root caries among community-dwelling older adults. Caries Res 1996;30:169-179.8860026 Neiders ME, Eick JD, Miller WA, Leitner JW: Electron probe microanalysis of cementum and underlying dentin in young permanent teeth. J Dent Res 1972;51:122-130.4500412 Tveit AB, Tötdal B: Fluoride uptake by cavity walls from a fluoride-containing amalgam in vitro: An electron microprobe analysis. Acta Odontol Scand 1981;39:107-113.694848210.1080/000163500429226 Iijima Y, Koulourides T: Mineral density and fluoride content of in vitro remineralized lesions. J Dent Res 1988;67:577-581.3170896 Burt BA, Ismail AI, Eklund SA: Root caries in an optimally fluoridated and a high-fluoride community. J Dent Res 1986;65:1154-1158.3461032 Hoppenbrouwers PMM, Driessens FCM, Borggreven JMPM: The vulnerability of unexposed human dental roots to demineralization. J Dent Res 1986;65:955-958.3011869 Vickridge IC: The INS nuclear microprobe: Description and application. NZ J Technol 1985;1:61-66. Hoppenbrouwers PMM, Driessens FCM, Borggreven JMPM: The mineral solubility of human tooth roots. Arch Oral Biol 1987a;32:319-322. Herkströter FM, Witjes M, Arends J: Demineralization of human dentine compared with enamel in a pH-cycling apparatus with a constant composition during de- and remineralization periods. Caries Res 1991;25:317-322.1747881 Tveit AB: Fluoride uptake by enamel surfaces, root surfaces and cavity walls following application of a fluoride varnish in vitro. Caries Res 1980;14:315-323.6931642 Takeuchi K, Nakagaki H, Toyama Y, Kimata N, Ito F, Robinson C, Weatherell JA, Stösser L, Künzel W: Fluoride concentrations and distribution in premolars of children from low and optimal fluoride areas. Caries Res 1996;30:76-82.8850587 Schüpbach P, Lutz F, Guggenheim B: Human root caries: Histopathology of arrested lesions. Caries Res 1992;26:153-164.1628289 Volker JF, Hodge HC, Wilson HJ, Van Hoorhis SN: The adsorption of fluoride by enamel, dentin, bone and hydroxyapatite as shown by the radioactive isotope. J Biol Chem 1940;134:543-548. Kato K, Nakagaki H, Robinson C, Weatherell JA: Distribution of fluoride across cementum, dentine and alveolar bone in rats. Caries Res 1990;24:117-120.2340541 Cutress TW, Powell RN, Ball ME: Differing profiles of periodontal disease in two similar South Pacific island populations. Community Dent Oral Epidemiol 1982;10:193-203.6956482 Coote GE: Ion beam analysis of fluorine: Its principles and applications. Nucl Inst Meth Phys Res 1992;B66:191-204. Phankosol P, Ettinger RL, Hicks MJ, Wefel JS: Histopathology of the initial lesion of the root surface: An in vitro study. J Dent Res 1985;64:804-809.3858300 Nakagaki H, Koyama Y, Sakakibara Y, Weatherell JA, Robinson C: Distribution of fluoride across human dental enamel, dentine and cementum. Arch Oral Biol 1987;32:651-654.3481966 Mellberg JR, Sanchez M: Remineralization by a monofluorophosphate dentifrice in vitro of root dentin softened by artificial caries. J Dent Res 1986;65:959-962.3458756 Banting DW, Courtright PN: Distribution and natural history of carious lesions on the roots of teeth. J Can Dent Assoc 1975;41:45-49.1053745 Levine RS: Distribution of fluoride in active and arrested carious lesions in dentine. J Dent Res 1972;51:1025-1029.4504690 Dérand T, Lodding A, Petersson LG: Effect of topical F solutions on caries-like lesions in root surfaces. Caries Res 1989;23:135-140.2736573 Beiraghi S, Rosen S, Beck F: The effect of stannous and sodium fluoride on coronal caries, root caries and bone loss in rice rats. Arch Oral Biol 1990;35:79-802202279 Gillings B: An apparatus for the preparation of thin serial sections of undecalcified tissues. J Dent Res 1959;38:1156-1165. Perry MW, Armstrong WD: On the manner of acquisition of fluorine by mature teeth. J Nutr 1941;21:35-44. ref1 |
| References_xml | – reference: Mukai M, Ikeda M, Yamagihara Y, Hara G, Kato K, Ishiguro K, Nakagaki H, Robinson C: Fluoride distribution in dentine and cementum in human permanent teeth with vital and non-vital pulps. Arch Oral Biol 1994;39:191-196.8018051 – reference: Hoppenbrouwers PMM, Driessens FCM, Borggreven JMPM: The demineralization of human dental roots in the presence of fluoride. J Dent Res 1987b;66: 1370-1374. – reference: Burt BA, Ismail AI, Eklund SA: Root caries in an optimally fluoridated and a high-fluoride community. J Dent Res 1986;65:1154-1158.3461032 – reference: Hoppenbrouwers PMM, Driessens FCM, Borggreven JMPM: The mineral solubility of human tooth roots. Arch Oral Biol 1987a;32:319-322. – reference: Vickridge IC: The INS nuclear microprobe: Description and application. NZ J Technol 1985;1:61-66. – reference: Kato K, Nakagaki H, Robinson C, Weatherell JA: Distribution of fluoride across cementum, dentine and alveolar bone in rats. Caries Res 1990;24:117-120.2340541 – reference: Banting DW, Courtright PN: Distribution and natural history of carious lesions on the roots of teeth. J Can Dent Assoc 1975;41:45-49.1053745 – reference: Pearce EIF, Guha-Chowdhury N, Iwami Y, Cutress TW: Stoichiometry of fluoride release from fluorhydroxyapatite during acid dissolution. Caries Res 1995;29:130-136.7728827 – reference: Westbrook JL, Miller AS, Chilton NW, Williams FL, Mumma RD Jr: Root surface caries: A clinical, histopathologic and micro-radiographic investigation. Caries Res 1974;8:249-255.4525333 – reference: Takeuchi K, Nakagaki H, Toyama Y, Kimata N, Ito F, Robinson C, Weatherell JA, Stösser L, Künzel W: Fluoride concentrations and distribution in premolars of children from low and optimal fluoride areas. Caries Res 1996;30:76-82.8850587 – reference: Volker JF, Hodge HC, Wilson HJ, Van Hoorhis SN: The adsorption of fluoride by enamel, dentin, bone and hydroxyapatite as shown by the radioactive isotope. J Biol Chem 1940;134:543-548. – reference: Levine RS: Distribution of fluoride in active and arrested carious lesions in dentine. J Dent Res 1972;51:1025-1029.4504690 – reference: Leach SA: Some notes on the solubility of enamel and dentine in acid. Arch Oral Biol 1959;1:218-232. – reference: Nakagaki H, Kawai K, Murakami T, Sakakibara Y, Ohno N, Weatherell JA, Robinson C: Fluoride distribution and histological structure of human cementum. Arch Oral Biol 1988;33:257-264.3165260 – reference: Gillings B: An apparatus for the preparation of thin serial sections of undecalcified tissues. J Dent Res 1959;38:1156-1165. – reference: Yoon SH, Brudevold F, Gardner DE, Smith FA: Distribution of fluoride in teeth from areas with different levels of fluoride in the water supply. J Dent Res 1960;39:845-856. – reference: Beiraghi S, Rosen S, Beck F: The effect of stannous and sodium fluoride on coronal caries, root caries and bone loss in rice rats. Arch Oral Biol 1990;35:79-802202279 – reference: Mellberg JR, Sanchez M: Remineralization by a monofluorophosphate dentifrice in vitro of root dentin softened by artificial caries. J Dent Res 1986;65:959-962.3458756 – reference: Mount GJ: Root surface caries: A recurrent dilemma. Aust Dent J 1986;31:288-291.3465305 – reference: Kinney JH, Balooch M, Haupt DL Jr, Marshall SJ, Marshall GW Jr: Mineral distribution and dimensional changes in human dentin during demineralization. J Dent Res 1995;74:1179-1184.7790595 – reference: Nyvad B, Fejerskov O: Root surface caries: Clinical, histopathological and microbiological features and clinical implications. Int Dent J 1982;32:312-326. – reference: Hals E, Selvig KA: Correlated electron probe microanalysis and microradiography of carious and normal dental cementum. 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| Snippet | Proton probe analysis has been used to provide for the first time quantitative F concentration data in carious root tissues from subjects consuming water... |
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| SubjectTerms | Acids - adverse effects Apatites - analysis Calcium - analysis Cariostatic Agents - analysis Dental Caries Susceptibility Dental Pulp Cavity - chemistry Dental Pulp Cavity - ultrastructure Dentin - chemistry Dentin - ultrastructure Electron Probe Microanalysis Fluorides - analysis Humans Original Paper Root Caries - metabolism Root Caries - pathology Tooth Cervix - chemistry Tooth Cervix - ultrastructure Tooth Remineralization Tooth Root - chemistry Tooth Root - ultrastructure Water Supply - analysis |
| Title | Fluoride Distribution in Sound and Carious Root Tissues of Human Teeth |
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