QLF™ Papers
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| Whelton H (2004) Overview of the impact of changing global patterns of dental caries experience on caries clinical trials. J Dent Res. 83 Spec No C: p. C29-34 |
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| Wenzel A (2004) Bitewing and digital bitewing radiography for detection of caries lesions. J Dent Res. 83 Spec No C: p. C72-5 |
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| Stookey GK (2004) Optical methods--quantitative light fluorescence. J Dent Res. 83 Spec No C: p. C84-8 |
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| Stamm JW (2004) The classic caries clinical trial: constraints and opportunities. J Dent Res. 83 Spec No C: p. C6-14 |
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| Pretty IA, Edgar WM and Higham SM (2004) The effect of dehydration on quantitative light-induced fluorescence analysis of early enamel demineralization. J Oral Rehabil. 31: p. 179-84 |
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| Pretty IA, Edgar WM and Higham SM (2004) The validation of quantitative light-induced fluorescence to quantify acid erosion of human enamel. Arch Oral Biol. 49: p. 285-94 |
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| Pitts NB and Stamm JW (2004) International Consensus Workshop on Caries Clinical Trials (ICW-CCT)--final consensus statements: agreeing where the evidence leads. J Dent Res. 83 Spec No C: p. C125-8 |
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| Pitts NB (2004) Modern concepts of caries measurement. J Dent Res. 83 Spec No C: p. C43-7 |
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| Mujat C, Van Der Veen MH, Ruben JL, Dogariu A and Ten Bosch JJ (2004) The influence of drying on quantitative laser fluorescence and optical pathlengths in incipient natural caries lesions. Caries Res. 38: p. 484-92 |
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| Mancl LA, Hujoel PP and DeRouen TA (2004) Efficiency issues among statistical methods for demonstrating efficacy of caries prevention. J Dent Res. 83 Spec No C: p. C95-8 |
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| Longbottom C and Huysmans MC (2004) Electrical measurements for use in caries clinical trials. J Dent Res. 83 Spec No C: p. C76-9 |
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| Katz BP and Huntington E (2004) Statistical issues for combining multiple caries diagnostics for demonstrating caries efficacy. J Dent Res. 83 Spec No C: p. C109-12 |
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| Johnson MF (2004) The role of risk factors in the identification of appropriate subjects for caries clinical trials: design considerations. J Dent Res. 83 Spec No C: p. C116-8 |
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| Ismail AI (2004) Visual and visuo-tactile detection of dental caries. J Dent Res. 83 Spec No C: p. C56-66 |
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| Imrey PB and Kingman A (2004) Analysis of clinical trials involving non-cavitated caries lesions. J Dent Res. 83 Spec No C: p. C103-8 |
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| Hannigan A (2004) Using survival methodologies in demonstrating caries efficacy. J Dent Res. 83 Spec No C: p. C99-102 |
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| Guggenheim B, Guggenheim M, Gmur R, Giertsen E and Thurnheer T (2004) Application of the Zurich biofilm model to problems of cariology. Caries Res. 38: p. 212-22 |
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| Featherstone JD (2004) The continuum of dental caries--evidence for a dynamic disease process. J Dent Res. 83 Spec No C: p. C39-42 |
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| Ekstrand KR (2004) Improving clinical visual detection--potential for caries clinical trials. J Dent Res. 83 Spec No C: p. C67-71 |
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| Chesters RK, Ellwood RP, Biesbrock AR and Smith SR (2004) Potential modern alternative designs for caries clinical trials (CCTs) and how these can be validated against the conventional model. J Dent Res. 83 Spec No C: p. C122-4 |
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| Biesbrock AR, Chesters RK, Ellwood RP and Smith SR (2004) The challenges of validating diagnostic methods relative to a conventional two-year caries clinical trial. J Dent Res. 83 Spec No C: p. C53-5 |
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| Ando M, Gonzalez-Cabezas C, Isaacs RL, Eckert GJ and Stookey GK (2004) Evaluation of several techniques for the detection of secondary caries adjacent to amalgam restorations. Caries Res. 38: p. 350-6 |
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| Ando M, Eckert GJ, Stookey GK and Zero DT (2004) Effect of imaging geometry on evaluating natural white-spot lesions using quantitative light-induced fluorescence. Caries Res. 38: p. 39-44 |
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| van der Veen MH, Buchalla W and de Josselin de Jong E (2003) QLF™ Technologies: Recent Advances. Early Detection of Dental Caries III: Proceedings of the 6th Indiana Conference. Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. in print |
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| Waller E, de Josselin de Jong E and Van der Veen M (2003) QLF™: A new diagnostic tool for oral health assessment.. Woman Dentist Journal. 1: p. 8-16,60 |
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| Verdonschot EH and Angmar-Månsson B (2003) advanced methods of caries diagnosis and quantification. Dental Caries - The disease and its clinical management Feyerskov O and Kidd E (ed.). Oxford, Blackwell Munksgaard. p. 129-139 |
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| Shi XQ, Tranaeus S and Angmar-Månsson B (2003) Clinical Caries Studies using QLF. Early Detection of Dental Caries III: Proceedings of the 6th Indiana Conference. Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. in print |
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| Pretty IA, Smith PW, Edgar WM and Higham SM (2003) Detection of in vitro demineralization adjacent to restorations using quantitative light induced fluorescence (QLF). Dent Mater. 19: p. 368-74 |
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| Pretty IA, Pender N, Edgar WM and Higham SM (2003) The in vitro detection of early enamel de- and re-mineralization adjacent to bonded orthodontic cleats using quantitative light-induced fluorescence. Eur J Orthod. 25: p. 217-23 |
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| Pretty IA, Ingram GS, Agalamanyi EA, Edgar WM and Higham SM (2003) The use of fluorescein-enhanced quantitative light-induced fluorescence to monitor de- and re-mineralization of in vitro root caries. J Oral Rehabil. 30: p. 1151-6 |
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| Pretty IA, Edgar WM and Higham SM (2003) The erosive potential of commercially available mouthrinses on enamel as measured by Quantitative Light-induced Fluorescence (QLF). J Dent. 31: p. 313-9 |
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| Pretty IA, Edgar WM and Higham SM (2003) A review of the effectiveness of quantitative light-induced fluorescence (QLF) to detect early caries.. Early Detection of Dental Caries III: Proceedings of the 6th Indiana Conference. Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. in print |
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| Pitts NB (2003) Review of the ICW-CCT meeting — The importance of early detection and the philosophy and approach of ICDAS. Early Detection of Dental Caries III: Proceedings of the 6th Indiana Conference. Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. in print |
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| Mujat C, van der Veen MH, Ruben JL, ten Bosch JJ and Dogariu A (2003) Optical path-length spectroscopy of incipient caries lesions in relation to quantitative light-induced fluorescence and lesion characteristics. Appl Opt. 42: p. 2979-86 |
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| Lennon AM (2003) Fluorescence-aided caries excavation (FACE) compared to conventional method. Oper Dent. 28: p. 341-5 |
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| Lennon AM (2003) Fluorescence Aided Caries Excavation.. Early Detection of Dental Caries III: Proceedings of the 6th Indiana Conference. Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. in print |
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| Kambara M, Uemura M and Doi T (2003) Results of clinical trial of fluoride dentifrices using QLF. Early Detection of Dental Caries III: Proceedings of the 6th Indiana Conference. Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. in print |
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| Higham SM, Pretty IA and Smith PW (2003) Detection of Caries and Erosion using QLF. Early Detection of Dental Caries III: Proceedings of the 6th Indiana Conference. Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. in print |
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| Heinrich-Weltzien R, Kühnisch J, van der Veen M, de Josselin de Jong E and Stosser L (2003) Quantitative light-induced fluorescence (QLF)--a potential method for the dental practitioner. Quintessence Int. 34: p. 181-188 |
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| Hazelrigg CO, Dean JA and Fontana M (2003) Fluoride varnish concentration gradient and its effect on enamel demineralization. Pediatr Dent. 25: p. 119-26 |
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| Gonzalez-Cabezas C, Fontana M, Gomes-Moosbauer D and Stookey GK (2003) Early detection of secondary caries using quantitative, light-induced fluorescence. Oper Dent. 28: p. 415-22 |
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| Girkin J and Hall AF (2003) Fluorescence Spectroscopy of Natural Carious Lesions.. Early Detection of Dental Caries III: Proceedings of the 6th Indiana Conference. Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. in print |
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| Feyerskov O and Kidd E (2003) Dental Caries - The disease and its clinical management. Dental Caries - The disease and its clinical management. p. 350 |
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| Featherstone JD, Adair SM, Anderson MH, Berkowitz RJ, Bird WF, Crall JJ, Den Besten PK, Donly KJ, Glassman P, Milgrom P, Roth JR, Snow R and Stewart RE (2003) Caries management by risk assessment: consensus statement, April 2002. J Calif Dent Assoc. 31: p. 257-69 |
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| Buchalla W (2003) Fluorescence Spectroscopy of Sound and Carious Enamel. Early Detection of Dental Caries III: Proceedings of the 6th Indiana Conference. Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. in print |
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| Benson PE, Pender N and Higham SM (2003) Quantifying enamel demineralization from teeth with orthodontic brackets--a comparison of two methods. Part 2: validity. Eur J Orthod. 25: p. 159-65 |
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| Benson PE, Pender N and Higham SM (2003) Quantifying enamel demineralization from teeth with orthodontic brackets--a comparison of two methods. Part 1: repeatability and agreement. Eur J Orthod. 25: p. 149-58 |
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| Ando M, Schemehorn BR, Eckert GJ, Zero DT and Stookey GK (2003) Influence of enamel thickness on quantification of mineral loss in enamel using laser-induced fluorescence. Caries Res. 37: p. 24-28 |
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| Amaechi BT, Podoleanu A, Higham SM and Jackson DA (2003) Correlation of quantitative light-induced fluorescence and optical coherence tomography applied for detection and quantification of early dental caries. J Biomed Opt. 8: p. 642-7 |
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| van der Veen MH, Ando M, Stookey GK and de Josselin de Jong E (2002) A Monte Carlo simulation of the influence of sound enamel scattering coefficient on lesion visibility in light-induced fluorescence. Caries Res. 36: p. 10-8 |
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| Verdonschot EH and van der Veen MH (2002) [Lasers in dentistry 2. Diagnosis of dental caries with lasers]. Ned Tijdschr Tandheelkd. 109: p. 122-6 |
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| Tranaeus S, Shi XQ, Lindgren LE, Trollsas K and Angmar-Månsson B (2002) In vivo Repeatability and Reproducibility of the Quantitative Light-Induced Fluorescence Method. Caries Res. 36: p. 3-9 |
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| Rousseau C, Vaidya S, Creanor SL, Hall AF, Girkin JM, Whitters CJ, Strang R and McHugh S (2002) The Effect of Dentine on Fluorescence Measurements of Enamel Lesions in vitro. Caries Res. 36: p. 381-5 |
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| Pretty IA, Smith PW, Edgar WM and Higham SM (2002) The use of quantitative light-induced fluorescence (QLF) to identify composite restorations in forensic examinations. J Forensic Sci. 47: p. 831-6 |
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| Pretty IA, Hall AF, Smith PW, Edgar WM and Higham SM (2002) The intra- and inter-examiner reliability of quantitative light-induced fluorescence (QLF) analyses. Br Dent J. 193: p. 105-9 |
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| Pretty IA, Edgar WM and Higham SM (2002) The effect of ambient light on QLF analyses. J Oral Rehabil. 29: p. 369-73 |
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| Pretty IA, Edgar WM and Higham SM (2002) Detection of in vitro demineralization of primary teeth using quantitative light-induced fluorescence (QLF). Int J Paediatr Dent. 12: p. 158-67 |
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| Lennon ÁM, Buchalla W, Switalski L and Stookey GK (2002) Residual caries detection using visible fluorescence. Caries Res. 36: p. 315-9 |
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| Kühnisch J, Heinrich-Weltzien R, Tranaeus S, Angmar-Månsson B and Stösser L (2002) Quantitative light-induced fluorescence (QLF)--a potential method for the dental practitioner. Die Quintessenz. 53: p. 131-141 |
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| Everett ET, McHenry MA, Reynolds N, Eggertsson H, Sullivan J, Kantmann C, Martinez-Mier EA, Warrick JM and Stookey GK (2002) Dental fluorosis: variability among different inbred mouse strains. J Dent Res. 81: p. 794-8 |
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| Buchalla W, Lennon AM, van der Veen MH and Stookey GK (2002) Optimal camera and illumination angulations for detection of interproximal caries using quantitative light-induced fluorescence. Caries Res. 36: p. 320-6 |
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| Becker MR, Paster BJ, Leys EJ, Moeschberger ML, Kenyon SG, Galvin JL, Boches SK, Dewhirst FE and Griffen AL (2002) Molecular analysis of bacterial species associated with childhood caries. J Clin Microbiol. 40: p. 1001-9 |
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| Amaechi BT and Higham SM (2002) Development of a quantitative method to monitor the effect of a tooth whitening agent. J Clin Dent. 13: p. 100-3 |
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| Amaechi BT and Higham SM (2002) Quantitative light-induced fluorescence: A potential tool for general dental assessment. J Biomed Opt. 7: p. 7-13 |
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| Al-Khateeb S, Exterkate RA, de Josselin de Jong E, Angmar-Månsson B and ten Cate JM (2002) Light-induced fluorescence studies on dehydration of incipient enamel lesions. Caries Res. 36: p. 25-30 |
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| Tranaeus S, Heinrich-Weltzien R, Kühnisch J, Stösser L and Angmar-Månsson B (2001) Potential Applications and Limitations of Quantitative Light-induced Fluorescence in Dentistry.. Med. Laser Appl.. 16: p. 195-204 |
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| Tranaeus S, Al-Khateeb S, Björkman S, Twetman S and Angmar-Månsson B (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: p. 71-5 |
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| Tam LE and McComb D (2001) Diagnosis of occlusal caries: Part II. Recent diagnostic technologies. J Can Dent Assoc. 67: p. 459-63 |
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| Stookey GK and Gonzalez-Cabezas C (2001) Emerging methods of caries diagnosis. J Dent Educ. 65: p. 1001-6 |
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| Shi XQ, Tranaeus S and Angmar-Månsson B (2001) Comparison of QLF and DIAGNOdent for quantification of smooth surface caries. Caries Res. 35: p. 21-6 |
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| Reich E (2001) How to measure the effects of fluoride treatments in clinical trials? The role of caries prevalence and caries assessment. Caries Res. 35 Suppl 1: p. 34-9 |
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| Pretty IA, Edgar WM and Higham SM (2001) The use of QLF to quantify in vitro whitening in a product testing model. Br Dent J. 191: p. 566-9 |
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| Higham SM, Edgar WM, Hall AG and Pretty IA (2001) Inter- And Intra-Examiner Reliability Of QLF Analyses Of In Vitro Lesions. Caries Res. 35: p. 269-270 |
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| Angmar-Månsson B and ten Bosch JJ (2001) Quantitative light-induced fluorescence (QLF): a method for assessment of incipient caries lesions. Dentomaxillofac Radiol. 30: p. 298-307 |
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| Angmar-Månsson B (2001) How to measure the effects of fluoride treatments in clinical trials? Assessment: modern versus traditional methods. Caries Res. 35 Suppl 1: p. 30-3 |
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| Ando M, van Der Veen MH, Schemehorn BR and Stookey GK (2001) Comparative study to quantify demineralized enamel in deciduous and permanent teeth using laser- and light-induced fluorescence techniques. Caries Res. 35: p. 464-470 |
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| Amaechi BT and Higham SM (2001) Diagnosis of dental caries using Quantitative Light-induced Fluorescence.. SPIE. 4432: p. 110-117 |
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| - (2001) NIH Consensus Development Conference on Diagnosis and Management of Dental Caries Throughout Life. Bethesda, MD, March 26-28, 2001. Conference Papers. J Dent Educ. 65: p. 935-1179 |
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| van der Veen MH, Al-Khateeb S and de Josselin de Jong E (2000) Caries Activity Detection by Dehydration with Quantitative Light-induced Fluorescence. Early Detection of Dental Caries II: Proceedings of the 4th Annual Indiana Conference Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. 251-259 |
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| van der Veen MH and de Josselin de Jong E (2000) Application of quantitative light-induced fluorescence for assessing early caries lesions. Monogr Oral Sci. 17: p. 144-62 |
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| ten Cate JM, Lagerweij MD, Wefel JS, Angmar-Månsson B, Hall AF, Ferreira Zandoná AG, Stookey GK and Faller RV (2000) In vitro validation studies of quantitative light-induced fluorescence. Early Detection of Dental Caries II: Proceedings of the 4th Annual Indiana Conference Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. 231-250 |
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| ten Bosch JJ and Angmar-Månsson B (2000) Characterization and validation of diagnostic methods. Monogr Oral Sci. 17: p. 174-89 |
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| ten Bosch JJ (2000) Summary of research on quantitative light-induced fluorescence. Early Detection of Dental Caries II: Proceedings of the 4th Annual Indiana Conference Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. 261-277 |
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| Tranaeus S and Angmar-Månsson B (2000) Experience teaching early caries detection methods to dental students. Early Detection of Dental Caries II: Proceedings of the 4th Annual Indiana Conference Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. 365-378 |
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| Tinanoff N and Palmer CA (2000) Dietary determinants of dental caries and dietary recommendations for preschool children. J Public Health Dent. 60: p. 197-206; discussion 207-9 |
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| Taubinsky IM, Alexandrov MT, Koz'ma SY and Chernyi VV (2000) Prospects for applying fluorescence spectroscopy to diagnose the hard tissues of a tooth. Crit Rev Biomed Eng. 28: p. 137-44 |
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| König K, Teschke M, Sigusch B, Glockmann E, Eick S and Pfister W (2000) Red light kills bacteria via photodynamic action. Cell Mol Biol (Noisy-le-grand). 46: p. 1297-303 |
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| König K (2000) Multiphoton microscopy in life sciences. J Microsc. 200 ( Pt 2): p. 83-104 |
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| Gonzalez-Cabezas C, Fontana M, Gomez-Moosbauer D, Ando M, Analoui M and Stookey GK (2000) Comparative studies of several methods for the early detection of secondary caries. Early Detection of Dental Caries II: Proceedings of the 4th Annual Indiana Conference Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. 317-342 |
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| Fontana M, Yanikoglu FC, Ozturk F, Ando M, Hayran O, Gonzalez-Cabezas C, Haider A, Baldridge LE and Stookey GK (2000) Comparison of QLF, ultrasound and confocal microscopy in the measurement of demineralization/remineralization of enamel lesions developed on natural smooth surfaces. Early Detection of Dental Caries II: Proceedings of the 4th Annual Indiana Conference Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. 301-316 |
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| Ferreira Zandoná AG, Isaacs RL, van der Veen MH and Stookey GK (2000) Indiana pilot clinical study of quantitative light fluorescence. Early Detection of Dental Caries II: Proceedings of the 4th Annual Indiana Conference Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. 219-230 |
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| Borgstrom MK, Edwardsson S, Svensater G and Twetman S (2000) Acid formation in sucrose-exposed dental plaque in relation to caries incidence in schoolchildren. Clin Oral Investig. 4: p. 9-12 |
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| Angmar-Månsson B, Al-Khateeb S and Tranaeus S (2000) Current research with quantitative light fluorescence. Early Detection of Dental Caries II: Proceedings of the 4th Annual Indiana Conference Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. 203-217 |
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| Ando M, Eggertsson H, Isaacs R, Analoui M and Stookey GK (2000) Comparative studies of several methods for the early detection of fissure lesions. Early Detection of Dental Caries II: Proceedings of the 4th Annual Indiana Conference Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. 279-299 |
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| Al-Khateeb S, Exterkate R, Angmar-Månsson B and ten Cate B (2000) Effect of acid-etching on remineralization of enamel white spot lesions. Acta Odontol Scand. 58: p. 31-6 |
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| Verdonschot EH, Angmar-Månsson B, ten Bosch JJ, Deery CH, Huysmans MC, Pitts NB and Waller E (1999) Developments in caries diagnosis and their relationship to treatment decisions and quality of care.ORCA Saturday Afternoon Symposium 1997. Caries Res. 33: p. 32-40 |
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| Stookey GK, Jackson RD, Zandona AG and Analoui M (1999) Dental caries diagnosis. Dent Clin North Am. 43: p. 665-77, vi |
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| Lagerweij M, van der Veen M, Ando M, Lukantsova L and Stookey G (1999) The validity and repeatability of three light-induced fluorescence systems: An in vitro study. Caries Res. 33: p. 220-6 |
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| König K, Schneckenburger H and Hibst R (1999) Time-gated in vivo autofluorescence imaging of dental caries. Cell Mol Biol (Noisy-le-grand). 45: p. 233-9 |
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| Eggertsson H, Analoui M, van der Veen M, Gonzalez-Cabezas C, Eckert G and Stookey G (1999) Detection of early interproximal caries in vitro using laser fluorescence, dye-enhanced laser fluorescence and direct visual examination. Caries Res. 33: p. 227-33 |
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| So PT, König K, Berland K, Dong CY, French T, Buhler C, Ragan T and Gratton E (1998) New time-resolved techniques in two-photon microscopy. Cell Mol Biol (Noisy-le-grand). 44: p. 771-93 |
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| König K, Flemming G and Hibst R (1998) Laser-induced autofluorescence spectroscopy of dental caries. Cell Mol Biol (Noisy-le-grand). 44: p. 1293-300 |
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| Ferreira Zandona AG, Analoui M, Schemehorn BR, Eckert GJ and Stookey GK (1998) Laser fluorescence detection of demineralization in artificial occlusal fissures. Caries Res. 32: p. 31-40 |
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| Ferreira Zandona AG, Analoui M, Beiswanger BB, Isaacs RL, Kafrawy AH, Eckert GJ and Stookey GK (1998) An in vitro comparison between laser fluorescence and visual examination for detection of demineralization in occlusal pits and fissures. Caries Res. 32: p. 210-8 |
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| Angmar-Månsson B, Al-Khateeb S and Tranaeus S (1998) Caries diagnosis. J Dent Educ. 62: p. 771-80 |
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| Al-Khateeb S, Forsberg CM, de Josselin de Jong E and Angmar-Månsson B (1998) A longitudinal laser fluorescence study of white spot lesions in orthodontic patients. Am J Orthod Dentofacial Orthop. 113: p. 595-602 |
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| Al-Khateeb S (1998) Studies on the remineralization of white spot lesions: Longitudinal assessment with quantitative light-induced fluorescence. Karolinska institutet, department of odontology. p. 1-100 |
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| ten Bosch JJ, de Vries J and van der Veen MH (1997) X-ray-induced photoelectron spectroscopy of dentin as a function of duration of Ar(+)-ion etching. Adv Dent Res. 11: p. 395-402 |
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| Hall AF, DeSchepper E, Ando M and Stookey GK (1997) In vitro studies of laser fluorescence for detection and quantification of mineral loss from dental caries. Adv Dent Res. 11: p. 507-14 |
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| Ferreira Zandona AG, Kleinrichert T, Analoui M, Schemehorn BR, Eckert GJ and Stookey GK (1997) Effect of two fluorescent dyes on color of restorative materials. Am J Dent. 10: p. 203-7 |
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| Ando M, Hall AF, Eckert GJ, Schemehorn BR, Analoui M and Stookey GK (1997) Relative ability of laser fluorescence techniques to quantitate early mineral loss in vitro. Caries Res. 31: p. 125-131 |
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| Al-Khateeb S, ten Cate JM, Angmar-Månsson B, de Josselin de Jong E, Sundström G, Exterkate RA and Oliveby A (1997) Quantification of formation and remineralization of artificial enamel lesions with a new portable fluorescence device. Adv Dent Res. 11: p. 502-6 |
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| Al-Khateeb S, Oliveby A, de Josselin de Jong E and Angmar-Månsson B (1997) Laser fluorescence quantification of remineralisation in situ of incipient enamel lesions: influence of fluoride supplements. Caries Res. 31: p. 132-40 |
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| van der Veen MH, Tsuda H, Arends J and ten Bosch JJ (1996) Evaluation of sodium fluorescein for quantitative diagnosis of root caries. J Dent Res. 75: p. 588-93 |
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| van der Veen MH and ten Bosch JJ (1996) A fiber-optic setup for quantification of root surface demineralization. Eur J Oral Sci. 104: p. 118-22 |
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| van der Veen MH and ten Bosch JJ (1996) The influence of mineral loss on the auto-fluorescent behaviour of in vitro demineralised dentine. Caries Res. 30: p. 93-9 |
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| ten Bosch JJ (1996) Light scattering and related methods in caries diagnosis. Early Detection of Dental Caries: Proceedings of the 1st Annual Indiana Conference. Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. 81-90 |
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| de Josselin de Jong E, Hall AF and van der Veen MH (1996) Quantitative light-induced fluorescence detection method. A Monte Carlo simulation model. Early Detection of Dental Caries: Proceedings of the 1st Annual Indiana Conference. Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. 91-104 |
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| Pine CM and ten Bosch JJ (1996) Dynamics of and diagnostic methods for detecting small carious lesions. Caries Res. 30: p. 381-388 |
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| Hall AF, Ando M, Schemehorn BR and Stookey GK (1996) Dye-Enhanced laser fluorescence method. Early Detection of Dental Caries: Proceedings of the 1st Annual Indiana Conference. Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. 119-143 |
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| Emami Z, Al-Khateeb S, de Josselin de Jong E, Sundström F, Trollsås K and Angmar-Månsson B (1996) Mineral loss in incipient caries lesions quantified with laser fluorescence and longitudinal microradiography. A methodologic study. Acta Odontol Scand. 54: p. 8-13 |
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| DeSchepper EJ, Hall AF, de Josselin de Jong E, Benedict S, Analoui M, Ando M, Beiswanger BB, Dixon SE, Willis GP and Stookey GK (1996) Demineralization detection adjacent to amalgam using quantitative laser fluorescence and dye-enhanced laser fluorescence. Early Detection of Dental Caries: Proceedings of the 1st Annual Indiana Conference. Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. 165-182 |
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| Angmar-Månsson B, Al-Khateeb S and Tranaeus S (1996) Monitoring the caries process. Optical methods for clinical diagnosis and quantification of enamel caries. Eur J Oral Sci. 104: p. 480-5 |
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| Angmar-Månsson B, Al-Khateeb S and Tranaeus S (1996) Intraoral use of quantitative light-induced fluorescence for caries detection. Early Detection of Dental Caries: Proceedings of the 1st Annual Indiana Conference. Stookey GK (ed.). Indianapolis, IN, USA, Indiana University School of Dentistry. p. 105-118 |
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| van der Veen MH and ten Bosch JJ (1995) Autofluorescence of bulk sound and in vitro demineralized human root dentin. Eur J Oral Sci. 103: p. 375-81 |
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| de Josselin de Jong E, Sundström F, Westerling H, Tranaeus S, ten Bosch JJ and Angmar-Månsson B (1995) A new method for in vivo quantification of changes in initial enamel caries with laser fluorescence. Caries Res. 29: p. 2-7 |
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| Dolowy WC, Brandes ML, Gouterman M, Parker JD and Lind J (1995) Fluorescence of dental calculus from cats, dogs, and humans and of bacteria cultured from dental calculus. J Vet Dent. 12: p. 105-9 |
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| Øgaard B and ten Bosch JJ (1994) Regression of white spot enamel lesions: a new optical method for quantitative longitudinal evaluation in vivo. Am J Orthod Dentofacial Orthop. 106: p. 238-242 |
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| Angmar-Månsson B, de Josselin de Jong E, Sundström F and ten Bosch JJ (1994) Strategies for improving the assessment of dental fluorosis: focus on optical techniques. Adv Dent Res. 8: p. 75-9 |
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| van der Veen MH and ten Bosch JJ (1993) An in vitro evaluation of fluorescein penetration into natural root surface carious lesions. Caries Res. 27: p. 258-61 |
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| Schneckenburger H, König K, Kunzi-Rapp K, Westphal-Frosch C and Ruck A (1993) Time-resolved in-vivo fluorescence of photosensitizing porphyrins. J Photochem Photobiol B. 21: p. 143-7 |
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| König K, Schneckenburger H, Ruck A and Steiner R (1993) In vivo photoproduct formation during PDT with ALA-induced endogenous porphyrins. J Photochem Photobiol B. 18: p. 287-90 |
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| König K, Hibst R, Meyer H, Flemming G and Schneckenburger H (1993) Laser-induced autofluorescence of carious regions of human teeth and caries-involved bacteria. SPIE. 2080: p. 170-180 |
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| Angmar-Månsson B and ten Bosch JJ (1993) Advances in methods for diagnosing coronal caries--a review. Adv Dent Res. 7: p. 70-9 |
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| Hafström-Björkman U, Sundström F, de Josselin de Jong E, Oliveby A and Angmar-Månsson B (1992) Comparison of laser fluorescence and longitudinal microradiography for quantitative assessment of in vitro enamel caries. Caries Res. 26: p. 241-7 |
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| ten Bosch JJ and Angmar-Månsson B (1991) A review of quantitative methods for studies of mineral content of intra-oral caries lesions. J Dent Res. 70: p. 2-14 |
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| Hafström-Björkman U, Sundström F and ten Bosch J (1991) Fluorescence in dissolved fractions of human enamel. Acta Odontol Scand. 49: p. 133-8 |
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| Hafström-Björkman U, Sundström F and Angmar-Månsson B (1991) Initial caries diagnosis in rat molars, using laser fluorescence. Acta Odontol Scand. 49: p. 27-33 |
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| König K, Wabnitz H and Dietel W (1990) Variation in the fluorescence decay properties of haematoporphyrin derivative during its conversion to photoproducts. J Photochem Photobiol B. 8: p. 103-11 |
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| Sundström F, Hafström-Björkman U, Strom J, Angmar-Månsson B, Frostell G and Takazoe I (1989) Evaluation of a model for short-term clinical testing of cariogenicity. J Biol Buccale. 17: p. 115-20 |
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| Kvaal S and Solheim T (1989) Fluorescence from dentin and cementum in human mandibular second premolars and its relation to age. Scand J Dent Res. 97: p. 131-8 |
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| Øgaard B, Rölla G and Arends J (1988) Orthodontic appliances and enamel demineralization. Part 1:Lesion development. Am J Orthod Dentofacial Orthop. 94: p. 68-73 |
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| Brinkman J, ten Bosch JJ and Borsboom PC (1988) Optical quantitation of natural caries in smooth surfaces of extracted teeth. Caries Res. 22: p. 257-62 |
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| ten Bosch JJ and Zijp JR (1987) Optical properties of dentine.. Dentine and dentine reactions in the oral cavity. Thylstrup A, Leach SA and Qvist V (ed.). Oxford, IRL Press limited. p. 59-65. |
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| ten Bosch JJ (1987) General aspects of optical methods in dentistry. Adv Dent Res. 1: p. 5-7 |
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| Angmar-Månsson B and ten Bosch JJ (1987) Optical methods for the detection and quantification of caries. Adv Dent Res. 1: p. 14-20 |
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| Sundström F, Fredriksson K, Montan S, Hafström-Björkman U and Ström J (1985) Laser-induced fluorescence from sound and carious tooth substance: spectroscopic studies. Swed Dent J. 9: p. 71-80 |
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| Foreman PC (1983) Ultraviolet light as an aid to endodontic diagnosis. Int Endod J. 16: p. 121-6 |
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| Booij M and ten Bosch JJ (1982) A fluorescent compound in bovine dental enamel matrix compared with synthetic dityrosine. Arch Oral Biol. 27: p. 417-21 |
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| Bjelkhagen H, Sundström F, Angmar-Månsson B and Ryden H (1982) Early detection of enamel caries by the luminescence excited by visible laser light. Swed Dent J. 6: p. 1-7 |
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| Bjelkhagen H and Sundström F (1981) A clinically applicable laser luminescence method for the early detection of dental caries. IEEE J Quant Elect. 17: p. 266-270 |
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| Foreman PC (1980) The excitation and emission spectra of fluorescent components of human dentine. Arch Oral Biol. 25: p. 641-7 |
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| Spitzer D and ten Bosch JJ (1977) Luminescence quantum yields of sound and carious dental enamel. Calcif Tissue Res. 29: p. 249-251 |
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| Spitzer D and Bosch JJ (1976) The total luminescence of bovine and human dental enamel. Calcif Tissue Res. p. 201-8 |
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| Hoerman KC (1975) Spectral characteristics of tetracycline-induced luminescence in rat teeth and bones. J Dent Res. 54 Spec No B: p. B131-6 |
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