S. Abrams, Detecting Caries at the Restoration Margins. Clinical Challenge, Technological Solution-The Canary System, Oral Health, vol.2, pp.27-30, 2014.

S. Abrams, Do We Really Need caries detection devices ? Dent Teamwork, vol.7, pp.47-50, 2014.

S. Abrams, Using the canary system to develop a caries management program for children, Dent Teamwork, vol.6, pp.46-50, 2013.

E. Achilleos, C. Rahiotis, A. Kakaboura, and G. Vougiouklakis, Evaluation of a new fluorescence-based device in the detection of incipient occlusal caries lesions, Lasers Med Sci, vol.28, pp.193-201, 2013.

M. Ahmed, G. R. Davis, and F. Wong, X-Ray Microtomography Study to Validate the Efficacies of Caries Removal in Primary Molars by Hand Excavation and ChemoMechanical Technique, Caries Res, vol.46, pp.561-567, 2012.

P. A. Ana, C. Tabchoury, J. A. Cury, and D. M. Zezell, Effect of Er,Cr:YSGG Laser and Professional Fluoride Application on Enamel Demineralization and on Fluoride Retention, Caries Res, vol.46, pp.441-451, 2012.

L. Antunes, R. L. Pedro, Á. Vieira, and L. C. Maia, Effectiveness of high speed instrument and air abrasion on different dental substrates, Braz Oral Res, vol.22, pp.235-241, 2008.

A. Rodrigues, L. K. , N. Santos, M. Pereira, D. et al., Carbon dioxide laser in dental caries prevention, J Dent, vol.32, pp.531-540, 2004.

G. Bail, Prise en charge des lésions carieuses initiales : proposition d'un protocole d'évaluation de la résine d'infiltration comme nouvelle approche thérapeutique. Thèse d'exercice en chirurgie dentaire, p.123, 2012.

A. Bakhshandeh, V. Qvist, and K. R. Ekstrand, Sealing occlusal caries lesions in adults referred for restorative treatment: 2-3 years of follow-up, Clin Oral Investig, vol.16, pp.521-529, 2012.

A. Banerjee, E. Kidd, and T. F. Watson, Scanning electron microscopic observations of human dentine after mechanical caries excavation, J Dent, vol.28, pp.179-186, 2000.

A. Banerjee, I. D. Thompson, and T. F. Watson, Minimally invasive caries removal using bioactive glass air-abrasion, J Dent, vol.39, pp.2-7, 2011.

A. Banerjee, T. F. Watson, and E. Kidd, Conservative dentistry: dentine caries excavation: a review of current clinical techniques, Br Dent J, vol.188, pp.476-482, 2000.

E. Betrisey, N. Rizcalla, I. Krejci, and S. Ardu, Caries diagnosis using light fluorescence devices: VistaProof and DIAGNOdent, Odontology, vol.102, pp.330-335, 2014.

A. R. Boob, M. Manjula, E. R. Reddy, N. Srilaxmi, and R. T. , Evaluation of the Efficiency and Effectiveness of Three Minimally Invasive Methods of Caries Removal: An in vitro Study, Int J Clin Pediatr Dent, vol.7, pp.11-17, 2014.

G. Bulut, O. Zekioglu, C. Eronat, and H. Bulut, Effect of Carisolv on the human dental pulp: a histological study, J Dent, vol.32, pp.309-314, 2004.

Z. C. Çehreli, A. R. Yazici, T. Akca, and G. Özgünaltay, A morphological and micro-tensile bond strength evaluation of a single-bottle adhesive to caries-affected human dentine after four different caries removal techniques, J Dent, vol.31, pp.429-435, 2003.

P. Celiberti, P. Francescut, and A. Lussi, Performance of Four Dentine Excavation Methods in Deciduous Teeth, Caries Res, vol.40, pp.117-123, 2006.

P. Celiberti, P. Francescut, and A. Lussi, Performance of Four Dentine Excavation Methods in Deciduous Teeth, Caries Res, vol.40, pp.117-123, 2006.

S. Chowdhry, S. Saha, F. Samadi, J. N. Jaiswal, A. Garg et al., Recent vs Conventional Methods of Caries Removal: A Comparative in vivo Study in Pediatric Patients, Int J Clin Pediatr Dent, vol.8, p.6, 2015.

T. N. Clementino-luedemann, A. Dabanoglu, N. Ilie, R. Hickel, and K. H. Kunzelmann, Microcomputed tomographic evaluation of a new enzyme solution for cariesremoval in deciduous teeth, Dent Mater J, vol.25, pp.675-683, 2006.

A. M. Correa-afonso, J. C. Ciconne-nogueira, J. D. Pécora, and R. G. Palma-dibb, In vitro assessment of laser efficiency for caries prevention in pits and fissures, Microsc Res Tech, vol.75, pp.245-252, 2012.

T. Dammaschke, T. N. Rodenberg, E. Schäfer, and K. Ott, Efficiency of the Polymer Bur SmartPrep Compared with Conventional Tungsten Carbide Bud Bur in Dentin Caries Excavation, Oper Dent, vol.31, pp.256-260, 2006.

T. Dammaschke, U. Stratmann, K. Mokrys, M. Kaup, and K. Ott, Reaction of sound and demineralised dentine to Carisolv in vivo and in vitro, J Dent, vol.30, pp.59-65, 2002.

T. Dammaschke, A. Vesni?, and E. Schäfer, In vitro comparison of ceramic burs and conventional tungsten carbide bud burs in dentin caries excavation, Quintessence Int, vol.39, issue.6, pp.495-499, 2008.

D. Benedetto, M. S. Morais, C. C. Novaes, T. F. De-almeida-rodrigues, J. Braga et al., Comparing the reliability of a new fluorescence camera with conventional laser fluorescence devices in detecting caries lesions in occlusal and smooth surfaces of primary teeth, Lasers Med Sci, vol.26, pp.157-162, 2011.

D. Oliveira, M. T. , D. Freitas, P. M. , D. Paula-eduardo et al., Influence of diamond sono-abrasion, air-abrasion and Er: YAG laser irradiation on bonding of different adhesive systems to dentin, Eur J Dent, vol.1, pp.158-166, 2007.

F. Decup and J. Lasfargues, Minimal intervention dentistry II: part 4. Minimal intervention techniques of preparation and adhesive restorations. The contribution of the sonoabrasive techniques, BDJ, vol.216, pp.393-400, 2014.

G. Divya, M. Prasad, A. Vasa, D. Vasanth, B. Ramanarayana et al., Evaluation of the Efficacy of Caries Removal Using Polymer Bur, Stainless Steel Bur, Carisolv, Papacarie-An In vitro Comparative Study, J Clin Diagn Res, vol.9, issue.7, pp.42-46, 2015.

S. Doméjean, R. Ducamp, S. Léger, and C. Holmgren, Resin Infiltration of Non-Cavitated Caries Lesions: A Systematic Review, Med Princ Pract, vol.24, pp.216-221, 2015.

M. S. Duggal, A. Nikolopoulou, and J. F. Tahmassebi, The Additional Effect of Ozone in combination with adjunct remineralisation products on Inhibition of Demineralisation of the Dental Hard Tissues in Situ, J Dent, vol.40, pp.934-940, 2012.

J. Duran, Apport de l'ozone dans la prise en charge des maladies parodontales. Thèse d'exercice en chirurgie dentaire, p.102, 2014.

S. Erol, H. Kamak, and H. Erten, Evaluation of Caries Dentin using Light-Induced Fluorescence: A Case Report, J Clin Diagn Res, vol.8, issue.1, pp.297-298, 2014.

L. Flückiger, T. Waltimo, H. Stich, and A. Lussi, Comparison of chemomechanical caries removal using Carisolv TM or conventional hand excavation in deciduous teeth in vitro, J Dent, vol.33, pp.87-90, 2005.

S. Fure and P. Lingström, Evaluation of the chemomechanical removal of dentine caries in vivo with a new modified Carisolv gel, Clin Oral Investig, vol.8, pp.139-144, 2004.

P. Ganter, A. , A. Wrbas, K. Hellwig, E. Altenburger et al., The use of computerassisted FACE for minimal-invasive caries excavation, Clin Oral Investig, vol.18, pp.745-751, 2014.

M. Goldberg and A. J. Smith, Cells and extracellular matrices of dentin and pulp: a biological basis for repair and tissue engineering, Crit Rev Oral Biol Med, vol.15, pp.13-27, 2004.

J. Gomez, C. Zakian, S. Salsone, S. Pinto, A. Taylor et al., In vitro performance of different methods in detecting occlusal caries lesions, J Dent, vol.41, pp.180-186, 2013.

J. Gomez, Detection and diagnosis of the early caries lesion, BMC Oral Health, vol.15, issue.S3, 2015.

A. Guerrieri, C. Gaucher, E. Bonte, and J. J. Lasfargues, Minimal intervention dentistry: part 4. Detection and diagnosis of initial caries lesions, BDJ, vol.213, pp.551-557, 2012.

N. Gugnani, I. K. Pandit, N. Srivastava, M. Gupta, and S. Gugnani, Light induced fluorescence evaluation : a novel concept of caries diagnosis and excavation, J Conserv Dent, vol.14, pp.418-422, 2011.

I. Hauser-gerspach, V. Pfäffli-savtchenko, J. E. Dähnhardt, J. Meyer, and A. Lussi, Comparison of the immediate effects of gaseous ozone and chlorhexidine gel on bacteria in cavitated carious lesions in children in vivo, Clin Oral Investig, vol.13, pp.287-291, 2009.

A. Hellen, A. Mandelis, Y. Finer, and B. T. Amaechi, Quantitative remineralization evolution kinetics of artificially demineralized human enamel using photothermal radiometry and modulated luminescence, J Biophotonics, vol.4, pp.788-804, 2011.

D. Hesse, C. C. Bonifácio, F. M. Mendes, M. M. Braga, J. Imparato et al., Sealing versus partial caries removal in primary molars: a randomized clinical trial, BMC Oral Health, vol.14, p.1, 2014.

C. Holmgren, C. Gaucher, N. Decerle, and S. Doméjean, Minimal intervention dentistry II: part 3. Management of non-cavitated (initial) occlusal caries lesions-non-invasive approaches through remineralisation and therapeutic sealants, BDJ, vol.216, pp.237-243, 2014.

C. J. Holmgren, D. Roux, and S. Doméjean, Minimal intervention dentistry: part 5. Atraumatic restorative treatment (ART)-a minimum intervention and minimally invasive approach for the management of dental caries, BDJ, vol.214, pp.11-12, 2013.

E. Houvion, Le biofilm dentaire : composition, formation et propriétés, p.129, 2014.

K. C. Huth, A. Lussi, M. Gygax, M. Thum, A. Crispin et al., In vivo performance of a laser fluorescence device for the approximal detection of caries in permanent molars, J Dent, vol.38, pp.1019-1026, 2010.

K. C. Huth, K. W. Neuhaus, M. Gygax, K. Bücher, A. Crispin et al., Clinical performance of a new laser fluorescence device for detection of occlusal caries lesions in permanent molars, J Dent, vol.36, pp.1033-1040, 2008.

A. I. Ismail, W. Sohn, M. Tellez, A. Amaya, A. Sen et al., The international caries detection and assessment system (ICDAS): an intergrated system for measuring dental caries, Community Dent Oral Epidemiol, vol.35, pp.170-178, 2007.

A. Jablonski-momeni, F. Liebegall, R. Stoll, M. Heinzel-gutenbrunner, and K. Pieper, Performance of a new fluorescence camera for detection of occlusal caries in vitro

, Lasers Med Sci, vol.28, pp.101-109, 2013.

A. Jablonski-momeni, H. M. Schipper, S. M. Rosen, M. Heinzel-gutenbrunner, M. J. Roggendorf et al., Performance of a fluorescence camera for detection of occlusal caries in vitro, Odontology, vol.99, pp.55-61, 2011.

A. Jablonski-momeni, J. Stucke, T. Steinberg, and M. Heinzel-gutenbrunner, Use of ICDAS-II, Fluorescence-Based Methods, and Radiography in Detection and Treatment Decision of Occlusal Caries Lesions: An In Vitro Study, Int J Dent, vol.2012, pp.1-8, 2012.

M. Jallad, D. Zero, G. Eckert, F. Zandona, and A. , In vitro Detection of Occlusal Caries on Permanent Teeth by a Visual, Light-Induced Fluorescence and Photothermal Radiometry and Modulated Luminescence Methods, Caries Res, vol.49, pp.523-530, 2015.

M. Javaheri, S. Maleki-kambakhsh, and S. Etemad-moghadam, Efficacy of two caries detector dyes in the diagnosis of dental caries, J Dent Tehran Iran, vol.7, p.71, 2010.

M. Jingarwar, N. Bajwa, and A. Pathak, Minimal Intervention Dentistry-A New Frontier in Clinical Dentistry, J Clin Diagn Res, vol.8, issue.7, pp.4-08, 2014.

J. Chong, H. Lee, E. Chang, N. , C. Cho et al., Effects of various toothpastes on remineralization of white spot lesions, Korean J Orthod, vol.44, p.113, 2014.

E. Johansson, R. Claesson, and J. Van-dijken, Antibacterial effect of ozone on cariogenic bacterial species, J Dent, vol.37, pp.449-453, 2009.

E. Johansson, J. Van-dijken, and L. Karlsson, Andersson-Wenckert I. Treatment effect of ozone and fluoride varnish application on occlusal caries in primary molars: a 12-month study, Clin Oral Investig, vol.18, pp.1785-1792, 2014.

R. Joharji and J. Adenubi, Prevention of pits and fissure caries using an antimicrobial varnish: 9 month clinical evaluation, J Dent, vol.29, pp.247-254, 2001.

J. Khun, Les indications des lasers en médecine dentaire. Thèse d'exercice en chirurgie dentaire, 2010.

J. Kumar, M. Nayak, K. L. Prasad, and N. Gupta, A comparative study of the clinical efficiency of chemomechanical caries removal using Carisolv and Papacarie-a papain gel, Indian J Dent Res, vol.23, p.697, 2012.

J. J. Lasfargues, P. Colon, and . Odontology-conservatrice, Tome 1 : une approche médicale globale. Editions CdP, vol.480, 2009.

J. J. Lasfargues, E. Bonte, A. Guerrieri, and L. Fezzani, Minimal intervention dentistry: part 6. Caries inhibition by resin infiltration, BDJ, vol.214, pp.53-59, 2013.

M. Lennon, T. Attin, and W. Buchalla, Quantity of Remaining Bacteria and Cavity Size After Excavation with FACE, Caries Detector Dye and Conventional Excavation In Vitro, Oper Dent, vol.32, pp.236-241, 2007.

M. Lennon, Fluorescence-aided caries excavation compared to conventionnal method, Oper Dent, vol.28, pp.341-345, 2003.

M. Lennon, W. Buchalla, B. Rassner, K. Becker, and T. Attin, Efficiency of 4 Caries Excavation Methods Compared, Oper Dent, vol.31, pp.551-555, 2006.

R. Li, Y. Zhao, and L. Ye, How to make choice of the carious removal methods, Carisolv or traditional drilling? A meta-analysis, J Oral Rehabil, vol.41, pp.432-442, 2014.

A. Linde, M. Goldberg, and . Dentinogenesis, Crit Rev Oral Biol Med, vol.4, pp.679-728, 1993.

J. Liu, Y. Liu, and H. Stephen, Optimal Er:YAG laser energy for preventing enamel demineralization, J Dent, vol.34, pp.62-66, 2006.

A. Lussi and E. Hellwig, Performance of a new laser fluorescence device for the detection of occlusal caries in vitro, J Dent, vol.34, pp.467-471, 2006.

D. Manton, Diagnosis of the early carious lesion, Aust Dent J, vol.58, pp.35-39, 2013.

S. Martignon, K. R. Ekstrand, J. Gomez, J. S. Lara, and A. Cortes, Infiltrating/Sealing Proximal Caries Lesions: A 3-year Randomized Clinical Trial, J Dent Res, vol.91, pp.288-292, 2012.

D. Mccomb, Caries detector dyes-How accurate and useful are they ?, J-Can Dent Assoc, vol.66, pp.195-198, 2000.

A. Mehl, L. Kremers, K. Salzmann, and R. Hickel, 3D volume-ablataion rate and thermal side effects with the Er:YAG and Nd:YAG laser, Dent Mater, vol.13, pp.246-251, 1997.

C. Meller, A. Welk, T. Zeligowski, and C. Splieth, Comparison of dentin caries excavation with polymer and conventional tungsten carbide burs, Quintessence Int, vol.38, 2007.

M. Melo, A. Pascual, I. Camps, and D. Campo, In vivo study of different methods for diagnosing pit and fissure caries, J Clin Exp Dent, pp.387-391, 2015.

C. C. Mobley, Nutrition and dental caries, Dent Clin North Am, vol.47, pp.319-336, 2003.

C. M. Moriyama, J. A. Rodrigues, A. Lussi, and M. B. Diniz, Effectiveness of Fluorescence-Based Methods to Detect in situ Demineralization and Remineralization on Smooth Surfaces

, Caries Res, vol.48, pp.507-514, 2014.

C. M. Moriyama, J. A. Rodrigues, A. Lussi, and M. B. Diniz, Effectiveness of Fluorescence-Based Methods to Detect in situ Demineralization and Remineralization on Smooth Surfaces

, Caries Res, vol.48, pp.507-514, 2014.

L. Motta, S. Bussadori, A. Campanelli, A. Silva, T. Alfaya et al., Efficacy of Papacarie® in reduction of residual bacteria in deciduous teeth: a randomized, controlled clinical trial, Clinics, vol.69, pp.319-322, 2014.

L. J. Motta, S. K. Bussadori, A. P. Campanelli, A. L. Silva, . Da et al., Randomized controlled clinical trial of long-term chemo-mechanical caries removal using PapacarieTM gel, J Appl Oral Sci, vol.22, pp.307-313, 2014.

J. Nancy and Y. Delbos, Carisolv ou la dissolution chimique de la carie à la portée de tous enfin opérationnelle, Rev Odontostomatol (Paris), vol.34, pp.293-300, 2005.

O. Naute, les techniques d'éviction carieuse : mise au point en 2014. Thèse d'exercice en chirurgie dentaire, p.118, 2014.

A. Neves, E. Coutinho, M. V. Cardoso, P. Lambrechts, V. Meerbeek et al., Current concepts and techniques for caries excavation and adhesion to residual dentin, J Adhes Dent, vol.13, pp.7-22, 2011.

A. Neves, E. Coutinho, D. Munck, J. Van-meerbeek, and B. , Caries-removal effectiveness and minimal-invasiveness potential of caries-excavation techniques: A micro-CT investigation, J Dent, vol.39, pp.154-162, 2011.

G. Paolinelis, A. Banerjee, and T. F. Watson, An in vitro investigation of the effect and retention of bioactive glass air-abrasive on sound and carious dentine, J Dent, vol.36, pp.214-218, 2008.

G. Paolinelis, T. F. Watson, and A. Banerjee, Microhardness as a Predictor of Sound and Carious Dentine Removal Using Alumina Air Abrasion, Caries Res, vol.40, pp.292-295, 2006.

S. Paris, W. Hopfenmuller, and H. Meyer-lueckel, Resin Infiltration of Caries Lesions: an Efficacy Randomized Trial, J Dent Res, vol.89, pp.823-826, 2010.
DOI : 10.1177/0022034510369289

S. Paris, F. Schwendicke, J. Keltsch, C. Dörfer, and H. Meyer-lueckel, Masking of white spot lesions by resin infiltration in vitro, J Dent, vol.41, pp.28-34, 2013.

C. Peskersoy, M. Turkun, and B. Onal, Comparative clinical evaluation of the efficacy of a new method for caries diagnosis and excavation, J Conserv Dent, vol.18, pp.364-368, 2015.

J. H. Phark, S. Duarte, H. Meyer-lueckel, and S. Paris, Caries Infiltration with Resins : a novel treatment option for interproximal caries, Compend Cont Educ Dent, vol.3, pp.13-17, 2009.

M. Poosti, F. Ahrari, H. Moosavi, and H. Najjaran, The effect of fractional CO2 laser irradiation on remineralization of enamel white spot lesions, Lasers Med Sci, vol.29, pp.1349-1355, 2014.

I. A. Pretty, Caries detection and diagnosis: Novel technologies, J Dent, vol.34, pp.727-739, 2006.
DOI : 10.1016/j.jdent.2006.06.001

P. Rechmann, D. A. Charland, B. Rechmann, and J. Featherstone, Performance of laser fluorescence devices and visual examination for the detection of occlusal caries in permanent molars, J Biomed Opt, vol.17, pp.360061-03600615, 2012.

P. Rechmann, D. A. Charland, B. Rechmann, C. Q. Le, and J. Featherstone, In-vivo occlusal caries prevention by pulsed CO 2-laser and fluoride varnish treatment-A clinical pilot study: in-vivo occlusal caries prevention, Lasers Surg Med, vol.45, pp.302-310, 2013.

P. Rechmann, D. Fried, C. Q. Le, G. Nelson, M. Rapozo-hilo et al., Caries inhibition in vital teeth using 9,6µm CO2 laser irradiation, J Biomed Opt, vol.16, pp.1-6, 2011.
DOI : 10.1117/1.3564908

URL : http://europepmc.org/articles/pmc3144970?pdf=render

A. Reis, F. M. Mendes, V. Angnes, G. Angnes, R. Grande et al., Performance of methods of occlusal caries detection in permanent teeth under clinical and laboratory conditions, J Dent, vol.34, pp.89-96, 2006.

S. Shetty, M. Hegde, and T. Bopanna, Enamel remineralization assessment after treatment with three different remineralizing agents using surface microhardness: An in vitro study, J Conserv Dent, vol.17, p.49, 2014.
DOI : 10.4103/0972-0707.124136

URL : https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3915386/pdf

Y. Shimada, A. Sadr, Y. Sumi, and J. Tagami, Application of Optical Coherence Tomography (OCT) for Diagnosis of Caries, Cracks, and Defects of Restorations, Curr Oral Health Rep, vol.2, pp.73-80, 2015.

B. B. Silva, N. B. Severo, and M. Maltz, Validity of diode laser to monitor carious lesions in pits and fissures, J Dent, vol.35, pp.679-682, 2007.

S. Simon, P. Cooper, A. Berdal, P. Machtou, and A. J. Smith, Biologie pulpaire : comprendre pour appliquer au quotidien, Rev Odontostomatol (Paris), vol.37, pp.209-235, 2008.

R. J. Simonsen, From prevention to therapy: Minimal intervention with sealants and resin restorative materials, J Dent, vol.39, pp.27-33, 2011.
DOI : 10.1016/j.jdent.2011.11.001

E. Sirin-karaarslan, E. Yildiz, M. A. Cebe, Z. Yegin, and B. Ozturk, Evaluation of micro-tensile bond strength of caries-affected human dentine after three different caries removal techniques, J Dent, vol.40, pp.793-801, 2012.

A. E. Souza-gabriel, C. P. Turssi, V. Colucci, L. Tenuta, M. C. Serra et al., In situ study of the anticariogenic potential of fluoride varnish combined with CO2 laser on enamel, Arch Oral Biol, vol.60, pp.804-810, 2015.

C. Splieth, M. Rosin, and B. Gellissen, Determination of residual dentine caries after conventional mechanical and chemomechanical caries removal with Carisolv, Clin Oral Investig, vol.5, pp.250-253, 2001.

J. F. Tahmassebi, N. Chrysafi, and M. S. Duggal, The effect of ozone on progression or regression of artificial caries-like enamel lesions in vitro, J Dent, vol.42, pp.167-174, 2014.

M. Tan, R. G. Hill, and P. Anderson, Comparing the Air Abrasion Cutting Efficacy of Dentine Using a Fluoride-Containing Bioactive Glass versus an Alumina Abrasive: An In Vitro Study, Int J Dent, vol.2015, pp.1-8, 2015.

H. Tassery, B. Levallois, E. Terrer, D. Manton, M. Otsuki et al., Use of new minimum intervention dentistry technologies in caries management, Aust Dent J, vol.58, pp.40-59, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01743328

H. Tassery, J. L. Victor, G. Coudert, J. L. Brouillet, and S. Koubi, Dentisterie restauratrice a minima, EMC-Odontol Elsevier Paris, pp.23-145, 2006.

T. Teo, P. F. Ashley, and C. Louca, An in vivo and in vitro investigation of the use of ICDAS, DIAGNOdent pen and CarieScan PRO for the detection and assessment of occlusal caries in primary molar teeth, Clin Oral Investig, vol.18, pp.737-744, 2014.

S. A. Tepper, M. Zehnder, G. F. Pajarola, and P. R. Schmidlin, Increased fluoride uptake and acid resistance by CO2 laser-irradiation through topically applied fluoride on human enamel in vitro, J Dent, vol.32, pp.635-641, 2004.

T. Toro, V. C. , D. Reis-derceli, J. , J. Faraoni-romano et al., The use of an Er:YAG laser to remove demineralized dentin and its influence on dentin permeability: Removal of Demineralized Dentin using the Er:YAG Laser, Microsc Res Tech, vol.76, pp.225-230, 2013.

R. A. Valério, M. C. Borsatto, M. C. Serra, F. Polizeli, S. A. et al., Caries removal in deciduous teeth using an Er:YAG laser : a randomized split-mouth clinical trial, Clin Oral Invest, vol.20, pp.65-73, 2016.

M. Vinay, A. J. Sai, V. Girish, H. Kolli, H. Ganta et al., Efficacy of antimicrobial property of two commercially available chemomechanical caries removal agents (Carisolv and Papacarie) : an ex vivo study, J Int Soc Prev Community Dent, vol.5, pp.183-189, 2015.

A. U. Yap, Dentisterie cosmétique micro-invasive : quand moins c'est plus. Cosmetic dent, vol.3, pp.14-20, 2012.

A. R. Yazici, P. Atilla, G. Özgünaltay, and S. Müftüoglu, In vitro comparison of the efficacy of CarisolvTM and conventional rotary instrument in caries removal, J Oral Rehabil, vol.30, pp.1177-1182, 2003.

C. B. Zamataro, P. A. Ana, C. Benetti, and D. M. Zezell, Influence of Er,Cr:YSGG Laser on CaF 2like products formation because of professional acidulated fluoride or to domestic dentifrice application: ER,CR:YSGG, APF and Dentifrice on F FORMATION, Microsc Res Tech, vol.76, pp.704-713, 2013.

A. V. Zavgorodniy, R. Rohanizadeh, and M. V. Swain, Ultrastructure of dentine carious lesions, Arch Oral Biol, vol.53, pp.124-132, 2008.
DOI : 10.1111/j.1834-7819.2007.tb06145.x

M. Zeitouny, M. Feghali, A. Nasr, P. Abou-samra, N. Saleh et al., An Accurate Diagnostic Enhancer. Sci World J, vol.2014, pp.1-8, 2014.

, Références Bibliographiques électroniques

. Dmg, Icon®-une révolution dans le traitement des caries sans fraiser, 2016.

D. Mode-d'emploi-du-produit-icon®, , 2016.

D. Dental, Livret de présentation de VistacamiX

, Appréciation du risque carieux et indications du scellement prophylactique des sillons des premières et deuxièmes molaires permanentes chez les sujets de moins de 18 ans, HAS, 2005.

, Disponible sur

, Stratégies de prévention de la carie dentaire, HAS, 2010.

M. E. Jensen and R. V. Faller, An update on demineralization/reminéralisation

, Consulté le 18 octobre, 2015.

K. Dental, Mode d'emploi DiagnoDent Pen

, _pdf.pdf?077309b3-51a7-4d76-a6a8-91c573c20fb9 Consulté le 03 mars, 2016.

J. C. Robert, Cours de bactériologie

H. Tassery and . Soprolife®, Livret clinique, 2009.

Y. Tolila, Le laser dentaire : déjà demain ! comment et pourquoi faire entrer le laser dans nos cabinets, Considérations économiques et pratiques, 2008.

, UFSBD. Nouvelles recommandations. L'UFSBD réactualise ses stratégies de prévention, 2013.

, Disponible sur

. .. Introduction,

1. .. ,

.. .. Structure-dentaire,

.. .. La-carie,

. .. De-diagnostic-récentes,

. .. La-radiographie-numérique,

. .. Techniques-de-transillumination, 2.2.2 Transillumination par fibre optique avec image numérique (DIFOTI)

. .. Techniques-de-fluorescence,

. .. Operatoires,

. , 72 3.1.1 Enseignement à l'hygiène buccale et au contrôle de plaque

. , 79 3.2.3 Scellement et infiltration des lésions non-cavitaires, Techniques opératoires sans

. , Techniques opératoires avec

C. .. ,

R. .. Bibliographiques,

, SHKARPETINA Anna-La dentisterie micro-invasive : techniques et intérêts Nancy 2016. 144 p. tab 34. fig 92. Th : Chir.-Dent, 2016.

, Mots clés :-Dentisterie a minima-Diagnostic carieux-Éviction carieuse-Préparation cavitaire-Préparation non cavitaire SHKARPETINA Anna-La dentisterie micro-invasive : techniques et intérêts Th : Chir.-Dent. : Nancy 2016 'observation (sondage, radiographie) ont une sensibilité, une spécificité et une reproductibilité limitées. Notre travail décrit les nouveaux outils d'aide au diagnostic et à la prise de décision thérapeutique. Les techniques opératoires sans préparation cavitaire (reminéralisation, ozonothérapie, infiltration, etc.) ainsi que les techniques opératoires avec préparation cavitaire

(. Faculté, . ~·-d&apos;-odontologie, and . Jury, Président: J.M. MARTRETTE-Profess<mr des Un iversités Juges: E. MORTIER-Maîu·e de Conférence des Universités R. BALTH'AZARD-Maître de Conférence des Universités M. VINCENT-Assistant Hospitalier Universitaire T hèse potu· obtenir le diplôme D'Etat de Docteur en Chi.ru.rQ'Ïe Dentaii·e Présemée par: Mademoiselle SBKARPETINA Anna né(e) à: OUST-KAIVIBNOGORSK (Kazakhstan) le, vol.7, 1988.

, et ayant pour tiu·e: « Les techniques e n de. utisteric micro-invasive

, Autorise à soutenir e t imprime r la thèse 9 A 't. i NANCY, 2016.

. Unlvous, ité de Lorraine· 24-30 rue UônJlOIS