. Aramouni, « Fracture resistance and failure location of zirconium and metallic implant abutments

. Kim, « In vitro assessment of three types of zirconia implant abutments under static load, 2013.

. Yilmaz, « Load to failure of different zirconia abutments for an internal hexagon implant

C. , « Fracture strength study of internally connected zirconia abutments reinforced with titanium inserts

A. , « Fracture resistance of zirconia-based implant abutments after artificial long-term aging

. Elsayed, « Comparison of fracture strength and failure mode of different ceramic implant abutments

. Salaita, « Strain analysis of 9 different abutments for cement-retained crowns on an internal hexagonal implant

. Aramouni, « Fracture resistance and failure location of zirconium and metallic implant abutments

C. , « Fracture strength study of internally connected zirconia abutments reinforced with titanium inserts

. Yilmaz, « Load to failure of different zirconia abutments for an internal hexagon implant

A. , « Fracture resistance of zirconia-based implant abutments after artificial long-term aging

. Yilmaz, « Load to failure of different zirconia abutments for an internal hexagon implant

. Kim, « In vitro assessment of three types of zirconia implant abutments under static load, 2013.

. Kim,

. Mascarenhas, « Load to failure of different zirconia implant abutments with titanium components

. Mascarenhas,

, En fonction des contraintes mécaniques

, Alors qu'une contrainte excessive sur l'os péri-implantaire peut induire des micro-fractures au sein de l'os et une résorption, une contrainte insuffisante entraîne des pertes de l'homéostasie osseuse et de l'atrophie osseuse 111

. Salaita, 112 analysent les contraintes en traction et compression autour de l'implant pour 9 piliers différents

. Kim, « In vitro assessment of three types of zirconia implant abutments under static load

. Mascarenhas, « Load to failure of different zirconia implant abutments with titanium components

. Butz, « Survival rate, fracture strength and failure mode of ceramic implant abutments after chewing simulation

. Kim, « In vitro assessment of three types of zirconia implant abutments under static load

. Gehrke, « Retentive strength of two-piece cad/ cam zirconia implant abutments

. Joo, « Influence of preparation depths on the fracture load of customized zirconia abutments with titanium insert

. Mascarenhas, « Load to failure of different zirconia implant abutments with titanium components

A. , « Fracture resistance of zirconia-based implant abutments after artificial long-term aging

«. Frost, update of bone physiology and wolff's law for clinicians, 2003.

. Salaita, « Strain analysis of 9 different abutments for cement-retained crowns on an internal hexagonal implant ». Bibliographie 3M ESPE. « Lava zirconia for implant abutments handling guide, 2013.

I. Abrahamsson, T. Berglundh, P. O. Glantz, and J. Lindhe, « The mucosal attachment at different abutments. an experimental study in dogs, Journal of clinical periodontology, vol.25, issue.9, pp.721-748, 1998.

F. Alqahtani, R. Et, and . Flinton, « Postfatigue fracture resistance of modified prefabricated zirconia implant abutments ». The journal of prosthetic dentistry 112, pp.299-305, 2014.

A. Alsahhaf, . B.-c, K. Spies, R. Vach, and . Kohal, « Fracture resistance of zirconia-based implant abutments after artificial long-term aging, Journal of the mechanical behavior of biomedical materials, vol.66, pp.224-256, 2017.

P. Aramouni, E. Zebouni, E. Tashkandi, S. Kurbad, Z. Salameh et al., « Fracture resistance and failure location of zirconium and metallic implant abutments ». The journal of contemporary dental practice 9, pp.41-48, 2008.

J. Attal, G. Et, and . Tirlet, « Le cantilever : une nouvelle géométrie pour les bridges collés, Réalités cliniques, vol.26, issue.1, pp.25-34, 2015.

M. Audran, B. Guillaume, D. Chappard, and E. D. Cantaloube, Tissu osseux et biomatériaux en chirurgie dentaire, Quintessence international, 2014.

A. Bidra, P. Et, and . Rungruanganunt, « Clinical outcomes of implant abutments in the anterior region : a systematic review, Journal of esthetic and restorative dentistry, vol.25, issue.3, pp.159-76, 2013.

. Biohorizons, Prosthetics catalog

. Biomet-3i.-«-zireal-brochure, , 2009.

E. Bressan, G. Paniz, D. Lops, B. Corazza, E. Romeo et al., « Influence of abutment material on the gingival color of implant-supported all-ceramic restorations : a prospective multicenter study, Clinical oral implants research, vol.22, issue.6, pp.631-668, 2011.

F. Butz, G. Heydecke, M. Okutan, and J. R. Strub, « Survival rate, fracture strength and failure mode of ceramic implant abutments after chewing simulation », Journal of oral rehabilitation, vol.32, pp.838-881, 2005.

Y. Cavusoglu, K. Akça, R. Gürbüz, and M. Cehreli, « A pilot study of joint stability at the zirconium or titanium abutment/titanium implant interface, International journal of oral & maxillofacial implants, vol.29, issue.2, pp.338-381, 2014.

H. Chun, J. H. Yeo, S. Lee, S. Kim, J. Heo et al., « Fracture strength study of internally connected zirconia abutments reinforced with titanium inserts ». International journal of oral & maxillofacial implants 30, pp.346-50, 2015.

R. Coray, M. Zeltner, and M. Özcan, « Fracture strength of implant abutments after fatigue testing : a systematic review and a meta-analysis », Journal of the mechanical behavior of biomedical materials, vol.62, pp.333-379, 2016.

R. Coray, M. Zeltner, and M. Özcan, « Fracture strength of implant abutments after fatigue testing : A systematic review and a meta-analysis », Journal of the mechanical behavior of biomedical materials, vol.62, pp.333-379, 2016.

R. Cosgarea, C. Gasparik, D. Dudea, B. Culic, B. Dannewitz et al., « Peri-implant soft tissue colour around titanium and zirconia abutments : a prospective randomized controlled clinical study, Clinical oral implants research, vol.26, issue.5, pp.537-581, 2015.

M. Davarpanah, S. Szmukler-moncler, and E. P. Rajzbaum, Manuel d'implantologie clinique : concepts, intégration des protocoles et esquisses de nouveaux paradigmes. 3e éd, 2012.

J. Dejou and . Société-francophone-de-biomatériaux-dentaires, « Les céramiques, 2010.

A. Elsayed, S. Wille, M. Al-akhali, and E. M. Kern, « Comparison of fracture strength and failure mode of different ceramic implant abutments ». The journal of prosthetic dentistry 117, pp.499-506, 2017.

M. Ferrari, M. Carrabba, A. Vichi, C. Goracci, and M. Cagidiaco, « Influence of abutment color and mucosal thickness on soft tissue color, International journal of oral & maxillofacial implants, vol.32, issue.2, pp.393-99, 2017.

J. K. Foong, R. B. Judge, J. E. Palamara, and M. V. Swain, « Fracture resistance of titanium and zirconia abutments : an in vitro study ». The journal of prosthetic dentistry 109, pp.60306-60312, 2013.

H. Frost, update of bone physiology and wolff's law for clinicians, vol.74, pp.3-15, 2003.

R. Fürhauser, D. Florescu, T. Benesch, R. Haas, G. Mailath et al., « Evaluation of soft tissue around single-tooth implant crowns : the pink esthetic score, Clinical oral implants research, vol.16, issue.6, pp.639-683, 2005.

P. Gehrke, J. Alius, C. Fischer, K. Erdelt, and E. F. Beuer, « Retentive strength of two-piece cad/ cam zirconia implant abutments ». Clinical implant dentistry & related research 16, pp.920-945, 2014.

, Haute autorité de santé. « Guide d'analyse de la littérature et gradation des recommandations

E. Helkimo, G. E. Carlsson, and M. Helkimo, « Bite force and state of dentition, Acta odontologica scandinavica, vol.35, issue.6, pp.297-303, 1977.

B. Hervy, M. L. Et, and . Gall, Agénésie(s) d'incisive(s) latérale(s) maxillaire(s) : la solution implantaire n'est pas un dogme, respect des indications, Orthodontie française, vol.88, pp.113-113, 2016.

H. Joo, H. Yang, S. Park, H. Kim, K. Yun et al., « Influence of preparation depths on the fracture load of customized zirconia abutments with titanium insert, Journal of advanced prosthodontics, vol.7, issue.3, pp.183-90, 2015.

D. Kammoun and . Le-titane,

A. Kim, S. Campbell, M. Viana, and E. K. Knoernschild, « Abutment material effect on peri-implant soft tissue color and perceived esthetics, Journal of prosthodontics, vol.25, pp.634-674, 2016.

J. Kim, A. J. Seon, B. D. Raigrodski, J. E. Flinn, K. Rubenstein et al., « In vitro assessment of three types of zirconia implant abutments under static load, The Journal of Prosthetic Dentistry, vol.109, issue.4, pp.60054-60056

J. Kim, A. Raigrodski, B. Flinn, S. Rubenstein, J. R. et al., « In vitro assessment of three types of zirconia implant abutments under static load, Journal of prosthetic dentistry, vol.109, issue.4, pp.255-63, 2013.

M. Klotz, Wear at the titanium-zirconia implant-abutment interface : a pilot study ». The international journal of oral & maxillofacial Implants 6, pp.970-75, 2011.

F. Koen, Soudage par friction ». Institut belge de la soudure

O. Landwerlin, « Cas clinique de couronne sur pilier implantaire CFAO (système Ti-Base de Sirona), 2016.

T. Linkevicius, J. Et, and . Vaitelis, « The effect of zirconia or titanium as abutment material on soft peri-implant tissues : a systematic review and meta-analysis », Clinical oral implants research, vol.26, pp.139-186, 2015.

F. Lobbezoo, J. Ahlberg, A. G. Glaros, T. Kato, K. Koyano et al., « Bruxism defined and graded : an international consensus », Journal of oral rehabilitation, vol.40, pp.2-4, 2013.

Y. Mahiat and . La-zircone, , vol.6, pp.56-68, 2006.

N. Maltzahn, J. Von, P. Holstermann, and . Kohorst, « Retention forces between titanium and zirconia components of two-part implant abutments with different techniques of surface modification, vol.18, pp.735-779, 2016.

H. Martinez, P. Renault, G. Renault, L. Pierrisnard, and E. T. Rouach, Les implants : chirurgie et prothèse : choix thérapeutique stratégique, 2008.

F. Martínez-rus, M. Prieto, M. Salido, C. Madrigal, M. Özcan et al., « A clinical study assessing the influence of anodized titanium and zirconium dioxide abutments and peri-implant soft tissue thickness on the optical outcome of implant-supported lithium disilicate single crowns ». The international journal of oral & maxillofacial implants 32, pp.156-63, 2017.

F. Mascarenhas, B. Yilmaz, E. Mcglumphy, N. Clelland, and J. Seidt, « Load to failure of different zirconia implant abutments with titanium components ». The journal of prosthetic dentistry 117, pp.749-54, 2017.

J. Mccartney, S. Vermilyea, and E. T. Fosdal, « Modification of angulated abutments to avoid unesthetic display of metal ». The journal of prosthetic dentistry 69, pp.439-480, 1993.

P. Millet and . Weiss, Propriétés physiques des matériaux dentaires, 2009.

H. Nguyen, K. Tan, and J. Nicholls, « Load fatigue performance of implant-ceramic abutment combinations, International journal of oral & maxillofacial implants, vol.24, issue.4, pp.636-682, 2009.

K. Nishigawa, E. Bando, and M. Nakano, « Quantitative study of bite force during sleep associated bruxism », Journal of oral rehabilitation, vol.28, issue.5, pp.485-91, 2001.

A. G. Pangas and . Technique-de-soudage-au-titane, Procédés de soudage de matériaux à base de titane, 2015.

J. Paris, A. Et, and . Faucher, Le guide esthétique : comment réussir le sourire de vos patients, Quintessence International, 2003.

M. Payer, A. Heschl, M. Koller, G. Arnetzl, M. Lorenzoni et al., « All-ceramic restoration of zirconia two-piece implants : a randomized controlled clinical trial, Clinical oral implants research, vol.26, issue.4, pp.371-76, 2015.

S. Perelmuter, F. Duret, and E. F. Lelievre, La prothèse céramo-céramique par CFAO, Quintessence international, 2009.

C. Piconi, G. Et, and . Maccauro, « Zirconia as a ceramic biomaterial, Biomaterials, vol.20, issue.1, pp.10-16, 1999.

B. Polder, M. Van't-hof, F. Van-der-linden, and E. Kuijpers-jagtman, « A meta-analysis of the prevalence of dental agenesis of permanent teeth ». Community dentistry and oral epidemiology 32, pp.217-243, 2004.

I. Sailer, T. Sailer, B. Stawarczyk, R. Jung, and C. H. Hämmerle, « In vitro study of the influence of the type of connection on the fracture load of zirconia abutments with internal and external implantabutment connections ». The international journal of oral & maxillofacial implants 24, pp.850-58, 2009.

L. Salaita, B. Yilmaz, J. Seidt, N. Clelland, H. Chien et al., « Strain analysis of 9 different abutments for cement-retained crowns on an internal hexagonal implant ». The journal of prosthetic dentistry 118, pp.166-71, 2017.

I. Sanz-martín, I. Sanz-sánchez, A. Albornoz, E. Figuero, and M. Sanz, « Effects of modified abutment characteristics on peri-implant soft tissue health : a systematic review and meta-analysis », Clinical oral implants research, vol.29, issue.1, pp.118-147, 2018.

A. Scarano, M. Piattelli, S. Caputi, G. Favero, and E. A. Piattelli, « Bacterial adhesion on commercially pure titanium and zirconium oxide disks : an in vivo human study, Journal of periodontology, vol.75, issue.2, pp.292-96, 2004.

. Sirona, ;. M. Tibase, S. Sagerer, K. Erdelt, and E. F. Beuer, « In vitro fatigue and fracture strength testing of onepiece zirconia implant abutments and zirconia implant abutments connected to titanium cores, International journal of oral & maxillofacial implants, vol.28, issue.2, pp.488-93, 2013.

. Straumann, Informations de base sur les procédures implanto portées_straumann-cares, 2013.

, Les solutions cad/cam de thommen medical, Thommen Medical

B. Troadec, Piliers zircone : rien que pour vos yeux ? : résistance et survie : comparatif zircone vs titane, 2014.

A. Waltimo, M. Et, and . Könönen, « A novel bite force recorder and maximal isometric bite force values for healthy young adults, Scandinavian journal of dental research, vol.101, issue.6, pp.372-75, 1993.

B. Yilmaz, L. Salaita, J. Seidt, E. Mcglumphy, and E. N. Clelland, « Load to failure of different zirconia abutments for an internal hexagon implant ». The journal of prosthetic dentistry 114, pp.373-77, 2015.

A. Zembic, A. Bösch, R. Jung, C. Hämmerle, and E. I. Sailer, « Five-year results of a randomized controlled clinical trial comparing zirconia and titanium abutments supporting single-implant crowns in canine and posterior regions, Clinical oral implants research, vol.24, issue.4, pp.384-90, 2013.

G. L. Zhu, R. F. Wang, and H. L. Chen, « Clinical study on base bonding cad/cam customized zirconium abutment, Shanghai journal of stomatology, vol.22, issue.6, pp.676-79, 2013.

. Zimmer, Zimmer contour zirconia abutment, 2008.

Z. Zimmer, Brochure des composants zfx, 2014.