S. Bürklein, S. Benten, and S. E. , Quantitative Evaluation of Apically Extruded Debris with Different Single-File Systems: Reciproc, F360 and OneShape versus Mtwo, International Endodontic Journal, vol.47, issue.5, pp.405-414, 2014.

S. Bürklein, T. Poschmann, and S. E. , Shaping Ability of Different Nickel

, Titanium Systems in Simulated S-Shaped Canals with and without Glide Path, Journal of Endodontics, vol.40, issue.8, pp.1231-1265, 2014.

S. Bürklein, S. Benten, and S. E. , Critical Evaluation of Root Canal Transportation by Instrumentation: Critical Evaluation of Root Canal Transportation by Instrumentation, Endodontic Topics, vol.29, issue.1, pp.110-134, 2013.

S. Bürklein, K. Hinschitza, D. T. Schäfer, and E. , Shaping Ability and Cleaning Effectiveness of Two Single-File Systems in Severely Curved Root Canals of Extracted Teeth: Reciproc and Wave One versus Mtwo and ProTaper: Single-File SystemsShaping and Cleaning, International Endodontic Journal, vol.45, issue.5, pp.449-61, 2012.

A. Castellucci and . Endodontics, Université de Californie : Tridente, 2009.

P. J. Chiche, Conceptions et évolution de La Thérapeutique Endodontique de 1900 a

N. Jours, Les Systèmes Nickel-Titane En Rotation Continue, vol.16, 1982.

A. Claisse-crinquette and R. L. , Sécuriser Nos Mises En Forme Canalaire

, L'Information Dentaire, issue.21, pp.25-27, 2014.

M. Craveirodemelo, M. Deazevedobahia, and L. V. , Fatigue Resistance of

, Engine-Driven Rotary Nickel-Titanium Endodontic Instruments, Journal of Endodontics, vol.28, issue.11, pp.765-69, 2002.

. Hulsmann, O. A. Michael, P. M. Peters, and . Dummer, Mechanical Preparation of Root Canals: Shaping Goals, Techniques and Means, pp.30-76, 2005.

J. Ingle, L. K. Ide, and . Bakland, , 2002.

M. Iqbal, . Maggiore, . Suh, J. Edwards, S. Kang et al., Art dentaire-Instruments pour canaux radiculaires-Partie 1: Exigences générales et méthodes d'essai, Journal of Endodontics, vol.29, issue.9, pp.587-91, 2003.

E. Johnson, A. Lloyd, S. Kuttler, and N. K. , Comparison between a Novel Nickel-Titanium Alloy and 508 Nitinol on the Cyclic Fatigue Life of ProFile 25/.04 Rotary Instruments, Journal of Endodontics, vol.34, issue.11, pp.1406-1415, 2008.

L. Jordan and R. P. , Les Alliages Nickel-Titane (Ni-Ti), Société Francophone de Biomatériaux Dentaires, 2009.

R. B. Kazemi, E. Stenman, and L. Spngberg, Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology, and Endodontology 81, pp.80055-80057, 1996.

H. C. Kim, Mechanical and geometric features of endodontic instruments and its clinical effect, Journal of Korean Academy of Conservative Dentistry, vol.36, issue.1, p.1, 2011.

H. C. Kim, S. W. Kwak, G. Cheung, D. H. Ko, S. M. Chung et al., Cyclic Fatigue and Torsional Resistance of Two New Nickel-Titanium Instruments Used in Reciprocation Motion: Reciproc Versus Wave One, Journal of Endodontics, vol.38, issue.4, pp.541-585, 2012.

P. Parashos, P. Linsuwanont, and H. H. Messer, A Cleaning Protocol for Rotary Nickel

. Titanium-endodontic-instruments, Australian Dental Journal, vol.49, issue.1, pp.20-27, 2004.

M. Perard, L. Clerc, J. Colon, P. Vulcain, and J. M. , INITIAL®: début d'une nouvelle ère d'instruments endodontiques ?, Roots, vol.1, pp.32-38, 2012.

F. Pérez and A. Godin, Comment Rationaliser La Mise En Forme Canalaire, Dento

. Reseau, , 2013.

W. J. Pertot, Du Wave One® Au Wave One® Gold En Réciprocité, pp.19-20, 2015.

C. Pirani, A. Paolucci, O. Ruggeri, M. Bossù, A. Polimeni et al.,

M. G. Gandolfi and C. Prati, Wear and Metallographic Analysis of Wave One and Reciproc NiTi Instruments before and after Three Uses in Root Canals: Wear and Metallographic Analysis of NiTi Files, Scanning, vol.36, issue.5, pp.517-542, 2014.

C. Pirani, F. Iacono, V. Tinarelli, F. Bonaccorsi, M. G. Gandolfi et al., Wear Analysis of Different Nickel Titanium Instruments after Clinical Uses, Dental Materials, vol.30, pp.123-147, 2014.

G. Plotino, N. M. Grande, and P. Pf, Deformation and Fracture Incidence of

, Reciproc Instruments: A Clinical Evaluation, International Endodontic Journal, vol.48, issue.2, pp.199-205, 2015.

G. Plotino, N. M. Grande, L. Testarelli, and G. G. , Cyclic Fatigue of Reciproc and Wave One Reciprocating Instruments: Cyclic Fatigue of Reciprocating Instruments, International Endodontic Journal, vol.45, issue.7, pp.614-632, 2012.

J. P. Pruett, D. J. Clement, and C. Dl, Cyclic Fatigue Testing of Nickel-Titanium Endodontic Instruments, Journal of Endodontics, vol.23, issue.2, pp.80250-80256, 1997.

J. Putters, K. Sukul, D. Zeeuw, G. R. Bijma, A. Besselink et al., Comparative Cell Culture Effects of Shape Memory Metal (Nitinol®), Nickel and Titanium: A Biocompatibility Estimation, European Surgical Research, vol.24, issue.6, pp.378-82, 1992.

L. P. Renaud and K. Js, Proceedings: Response of Identified Ventromedial

, Hypothalamic Nucleus Neurons to Putative Neurotransmitters Applied by

. Microiontophoresis, British Journal of Pharmacology, vol.55, issue.2, pp.277-278, 1975.

J. Roane, C. Sabala, and M. Duncansonjr, The 'balanced Force' Concept for Instrumentation of Curved Canals, Journal of Endodontics, vol.11, issue.5, pp.80061-80064, 1985.

M. B. Rowan, J. I. Nicholls, and J. Steiner, Torsional Properties of Stainless Steel and Nickel-Titanium Endodontic Files, Journal of Endodontics, vol.22, issue.7, pp.80214-80221, 1996.

G. Ruchi, D. Annil, A. Neha, and Y. Vikrant, A New Approach To Single File Endodontics : Neoniti Rotary File System, International Journal Of Advances in Case Reports, pp.1030-1062, 2015.

S. Saber, M. M. Nagy, and S. E. , Comparative Evaluation of the Shaping Ability of Wave One, Reciproc and OneShape Single-File Systems in Severely Curved Root Canals of Extracted Teeth, International Endodontic Journal, vol.48, issue.1, pp.109-123, 2015.

E. Schäfer, Root Canal Instruments for Manual Use: A Review

, Shaping Ability of Hero 642 Rotary Nickel-Titanium Instruments and Stainless Steel, Dental Traumatology, vol.13, issue.2, pp.51-64, 1997.

K. Hand, Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology, and Endodontics 92, pp.215-235, 2001.

, Wave One: Glide Path Effect on Surface Topography of Instruments, Scanning, vol.36, issue.6, pp.608-621, 2014.

S. A. Türker, E. Uzuno?lu, and M. H. Aslan, Evaluation of Apically Extruded Bacteria Associated with Different Nickel-Titanium Systems, Journal of Endodontics, vol.41, issue.6, pp.953-55, 2015.

Y. Üstün, B. C. Çanakçi, A. N. Dinçer, O. Er, and S. Düzgün, Evaluation of Apically Extruded Debris Associated with Several Ni-Ti Systems, International Endodontic Journal, vol.48, issue.7, pp.701-705, 2015.

P. Varela-patiño, A. Ibañez-párraga, B. Rivas-mundiña, G. Cantatore, and X. L. Otero,

B. Martin-biedma, Alternating versus Continuous Rotation: A Comparative Study of the Effect on Instrument Life, Journal of Endodontics, vol.36, issue.1, pp.157-59, 2010.

C. Villat and M. Lucchini, Apports Du Système AlphaKite® En Pratique Quotidienne, Clinic, vol.34, pp.239-282, 2013.

A. Viteaux, L'instrumentation Unique En Rotation Continue, 2014.

H. M. Walia, B. A. Brantley, and H. Gerstein, An Initial Investigation of the Bending and Torsional Properties of Nitinol Root Canal Files, Journal of Endodontics, vol.14, issue.7, pp.346-51, 1988.

R. Walton, Histologic Evaluation of Different Methods of Enlarging the Pulp Canal Space, Journal of Endodontics, vol.2, issue.10, pp.304-315, 1976.

F. S. Weine, R. F. Kelly, and L. Pj, The Effect of Preparation Procedures on Original Canal Shape and on Apical Foramen Shape, Journal of Endodontics, vol.1, issue.8, pp.80037-80046, 1975.

J. Wilhelm, Mise En Forme Canalaire Monoinstrumentale En Mouvement Réciproque, pp.44-47, 2013.

J. Wilke, Nickel in the environment, Herausgegeben von J. O. NRIAGU, vol.833

. Abb, , 1980.

, , vol.26, pp.847-895, 1982.

F. Xavier, G. Nevares, M. K. Romeiro, K. Gonçalves, L. Gominho et al.,

, Apical Extrusion of Debris from Root Canals Using Reciprocating Files Associated with Two Irrigation Systems, International Endodontic Journal, vol.48, issue.7, pp.661-65, 2015.

G. Yared, Canal Preparation Using Only One Ni-Ti Rotary Instrument: Preliminary Observations, International Endodontic Journal, vol.41, issue.4, pp.339-383, 2008.

O. Zmener, C. H. Pameijer, S. A. Serrano, and S. R. Hernandez, Cleaning Efficacy Using Two Engine-Driven Systems versus Manual Instrumentation in Curved Root Canals: A Scanning Electron Microscopic Study, Journal of Endodontics, vol.37, issue.9, pp.1279-82, 2011.

A. S. Zuolo, J. E. Mello, R. S. Cunha, M. L. Zuolo, and C. Bueno, Efficacy of Reciprocating and Rotary Techniques for Removing Filling Material during Root Canal Retreatment, International Endodontic Journal, vol.46, issue.10, pp.947-53, 2013.

. .. Sommaire,

. .. Liste-des-tableaux,

). .. Ni-ti, 25 1.1. Instruments de préparation canalaire en acier inoxydable, Des instruments en acier inoxydable aux instruments en Nickel-Titane

. , Caractéristiques des instruments de préparation canalaire manuels

. , Résumé des caractéristiques des trois principaux instruments manuels de réparation canalaire en acier inoxydable

. , Caractéristiques des instruments de préparation canalaire mécanisés

.. .. La-mémoire-de-forme,

. .. La-flexibilité,

L. 'efficacité-de-coupe and .. .. ,

.. .. La-résistance-du-ni-ti,

. , Synthèse comparative des propriétés de l'acier inoxydable et du Ni-Ti

L. 'instrumentation-mécanisée-unique-de-mise-en-forme-canalaire and .. .. ,

. , Principe de la mise en forme mono-instrumentale

, Règles d'utilisation des instruments uniques rotatifs de mise en forme canalaire, p.56

L. .. Principaux-systèmes-mono-instrumentaux-de-mise-en-forme-canalaire,

). .. , , 2014.

. , Protocole d'utilisation (Komet®, 2015)

M. .. , One Shape® New Generation

.. .. Profil-de-l'instrument,

. Neoniti and ). .. Neolix,

.. .. Mouvement-réciproque,

. , 3.1. Respect de l'anatomie canalaire et de la position du foramen apical, Etude comparative des systèmes de mise en forme canalaire mécanisés multi-et mono-instrumentaux

. , 3.6. Rapidité d'exécution de l'acte endodontique

. .. Conclusion,

.. .. Références,