Compendiumof Sopro cameras articles SOPRO a company of ACTEON Group • ZAC Athélia IV • Avenue des Genévriers 13705 LA CIOTAT cedex • FRANCE • Tel +33 (0) 442 980 101 • Fax +33 (0) 442 717 690 E-mail: [email protected] • www.acteongroup.com Table of Contents SOPROLIFE ARTICLES N° 1. A New Concept in Restorative Dentistry: Light-Induced Fluorescence Evaluator for Diagnosis and Treatment: Part 1 – Diagnosis and Treatment of Initial Occlusal Caries. E.Terrer, S. Koubi, A. Dionne, G. Weisrock, C. Sarraquigne, A. Mazuir, H. Tassery, in the Journal of Contemprary Dental Practise, 1 November, 2009 .....................................................P. 6 N° 2. A New Concept in Restorative Dentistry: Light-Induced Fluorescence Evaluator for Diagnosis and Treatment: Part 2 – Treatment of Dentinal Caries. E.Terrer, A. Raskin, S. Koubi, A. Dionne, G. Weisrock, C. Sarraquigne; A. Mazuir; H. Tassery, in the Journal of Contemporary Dental Practise, 1 January 2010 ..........................................................P. 18 N° 3. Naturally aesthetic restorations and minimally invasive dentistry. G. Weisrock, E. Terrer, G. Couderc, S. Koubi, B. Levallois, D. Manton, H. Tassery, in Journal of Minimum Intervention in Dentistry, 2011 ............................................................................... P. 30 N° 4. Light induced fluorescence evaluation: A novel concept for caries diagnosis and excavation. N. Gugnani, IK. Pandit, N. Srivastava, M. Gupta, S. Gugnani, in Journal of Conservative Dentistry, October- December 2011 ................................................................................................... P. 42 N° 5. Molecular structural analysis of carious lesions using micro- Raman spectroscopy. B. Levallois, E. Terrer, I. Panayotov, H. Salehi, H. Tassery, P. Tramini, F. Cuisinier, in European Journal of Oral sciences, June 2012 ........................................................................................ P. 48 N° 6. In vitro investigation of fluorescence of carious dentin observed with a Soprolife® camera. I. Panayotov, E. Terrer, H. Salehi, H. Tassery, J. Yachouh, F. J. G.Cuisinier, B. Levallois, in Clin Oral Invert, 10 June, 2012 ..................................................................................................... P. 65 N° 7. Multiphoton imaging of the dentine-enamel junction. T. Cloitre, I. Panayotov, H. Tassery, C. Gergely, B. Levallois, F. J. G. Cuisinier, in Journal of BioPhotonics, 23 July, 2012 .......................................................................................................P. 72 N° 8. Suivi orthodontique et concept LIFEDT - La fluorescence au service de la prophylaxie Michel Blique, Hervé Tassery, Sophie Grosse, Jean-Marc Bondy, dans l’Information Dentaire, n°14, avril 2012 ................................................................................................................ P. 81 N° 9. Functional mapping of human sound and carious enamel and dentin with Raman pectroscopy. H. Salehi, E. Terrer, I. Panayotov, B. Levallois, B. Jacquot, H. Tassery, F. J. G. Cuisinier, in Journal of BioPhotonics, 20 September, 2012 .............................................................................P. 86 N° 10. Use of new minimum intervention dentistry technologies in caries management. H. Tassery, B. Levallois, E. Terrer, D.J. Manton, M. Otsuki, S. Koubi, N. Gugnani, I. Panayotov, B. Jacquot, F. J. G. Cuisinier, P. Rechmann, in Australian Dental Journal, 2013 ........................ P. 97 N° 11. Performance of laser fluorescence devices and visual examination for the detection of occlusal caries in permanent molars. P. Rechmann, D. Charland, B. M. T. Rechmann, J. D. B. Featherstone, in Journal of Biomedical Optics, March 2013 ....................................................................................................... P. 116 N° 12. Gestion thérapeutique de lésions carieuses proximales sur dents adjacentes. H. Tassery, A. Slimani, A. Lavenant, E. Terrer, dans Réalités Cliniques, Vol.24, 2013 ................ P. 133 N° 13. Decay diagnosis camera: is it a valid alternative? Kosmas Tolidis, DDS, Christina Boutsiouki, DDS, in The international journal of microdentistry P. 140 N° 14. In-Vivo Occlusal Caries Prevention by Pulsed CO2-Laser and Fluoride Varnish Treatment—A Clinical Pilot Study Peter Rechmann, DDS, PhD, Daniel A. Charland, DDS, Beate M.T. Rechmann, Charles Q. Le, and John D.B. Featherstone, MSc, PhD, in Lasers in Surgery and Medecine ......................... P. 145 N° 15. Performance of a fluorescence device against conventional caries diagnostic methods K. Tolidis, E. Parasidi, C. Boutsiouki, in CED - IADR 2013 ................................................ P. 154 N° 16. Détection de la carie dentaire : il y a-t-il quelques chose de nouveau ? Prof. David Manton, in DTI 2013 ............................................................................. P. 155 N° 17. Evaluation of Caries Dentin Using Light-Induced Fluorescence: a case report Lecturer Sebnem Erol, PhD Student Hanife Kamak, Prof. Hülya Erten, in Journal of Clinical and Diagnostic Reasearch 2014 ................................................................................................. P. 158 N° 18. SOPROLIFE System: An Accurate Diagnostic Enhancer Prof. Mona Zeitouny, Prof. Mireille Feghali, Prof. Assaad Nasr, Prof. Philippe Abou-Samra, Prof. Nadine Saleh, Prof. Denis Bourgeois, Prof. Pierre Farge, in The Scientific World Journal volume 2014 ..... P. 160 N° 19. Porphyrin involvement in redshift fluorescence in dentin decay A. Slimani, I. Panayotov, B. Levallois, T. Cloitre, C. Gergely, N. Bec, C. Larroque, H Tassery, F. Cuisinier, in SPIE Belgium 2014 .......................................................................................... P. 169 N° 20. Méthodologie du diagnostic en cariologie Apport des nouvelles technologies PH. Tassery, A. Slinami, M. Acquaviva, C. Cautain, M.N. Beverini, E. Terrer, in Réalités Cliniques. Vol. 25, n°2, 2014 ......................................................................................................... P. 177 SOPROCARE ARTICLES N° 1. Democratised fluorescence. H. Tassery, in L’information Dentaire, 24 October 2012 .................................................. P. 187 N° 2. Contribution of fluorescence and selective chromatic amplification in daily preventive dentistry practise. M. Blique, S. Grosse, in Dental Asia, May/June 2013 ......................................................P. 189 N° 3. SOPROCARE - 450 nm wavelength detection tool for microbial plaque and gingival inflammation - a clinical study. P. Rechmann*a, Shasan W. Lioub, Beate M.T. Rechmanna, and John D. B. Featherstonea a Dept. of Preventive and Restorative Dental Sciences; b Division of Pediatric Dentistry, School of Dentistry, University of California at San Francisco, San Francisco, CA 94143, SPIE Vol.8929 February 2014 ....................................................................................................P. 193 N° 4. SOPROCARE prophylaxis camera: improved patient communication leads to so much more. Todd Snyder, DDS in Dental Learning, May/June 2013 .................................................... P. 200 N° 5. La videocamera intraorale, un valido supporto nella pratica clinica. Dr Gianna Maria Nardi, Dr Fabio Scarano Catanzaro in Hygiene Tribune Italian Edition, April 2014 P. 203 N° 6. Get your hygiene patients «Off the fence»! M. J.Rosenberg - DDS, Ms J.Papanier – RDH, LLA and Ms B.ABDULLAH – RDH, LLA in Dentistry Today, 2014 ....................................................................................... P. 205 N° 7. Performance of a light fluorescence device for the detection of microbial plaque and gingival inflammation Peter Rechmann1 & Shasan W. Liou2 & Beate M. T. Rechmann1 & John D. B. Featherstone1 in Springer-Verlag Berlin Heidelberg (outside the USA) 2015, 2015 ..................................... P. 209 Soprolife articles 5 A New Concept in Restorative Dentistry: Light-Induced Fluorescence Evaluator for Diagnosis and Treatment: Part 1 – Diagnosis and Treatment of Initial Occlusal Caries Elodie Terrer, DDS; Stephen Koubi, DDS; Alexandro Dionne; Gauthier Weisrock, DDS; Caroline Sarraquigne; Alain Mazuir; Hervé Tassery, DDS, MS, PhD Abstract Aim: The objective of this in vivo experiment is to propose an innovative therapeutic concept using a light-induced fluorescence evaluator for diagnosis and treatment (LIFEDT) that is based on the imaging and autofluorescence of dental tissues. Background: Processes with the aim of diagnosing carious lesions in the initial stage with optimum sensitivity and specificity employ a wide variety of technologies, but like the conventional diagnosis tools, they remain either inefficient or too subjective. Technique: This experiment evaluated a fluorescence light-induced camera that illuminates tooth surfaces within an excitation radiation band of light with a wavelength of 450 nm and facilitates a high magnification image. Conclusions: An analysis of 50 occlusal grooves enables observation of any variations in the revealed three clinical forms of enamel caries: optical properties to refine a caries diagnosis (1) enamel caries on the surface, (2) suspicious and facilitates more than a 50x magnification of grooves with a positive autofluorescent red occlusal groove anatomy to provide additional signal, and (3) suspicious grooves with a neutral information on the carious potential of the tooth fluorescent dark signal. Two decision-making surface. diagrams were proposed in
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