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biomaterials for dental implants: current and future trends

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Query the DeepDyve database, plus search all of PubMed and Google Scholar seamlessly. The urge to replace missing teeth dates back to the origin of medicine. J Biomed Mater Res 53:438–443, Moraes MCCS, Elias CN, Duailibi Filho J, Oliveira LG (2004) Mechanical properties of Alumina-Zirconia composites for ceramic abutments. Case report. J Eur Ceram Soc 32:4091–4104, Affatato S, Testoni M, Cacciari GL, Toni A (1999) Mixed-oxides prosthetic ceramic ball heads. Clin Oral Implant Res 6:24–30, Aparicio C, Gil FJ, Fonseca C, Barbosa M, Planell JA (2003) Corrosion behavior of commercially pure Titanium shot blasted with different materials and size of shot particles for dental implant applications. 2019 Dec 16;11(12):2026. doi: 10.3390/cancers11122026. This report analyzes the current and future scenario of the global dental biomaterials market. J Alloys Compd 329:214–223. J Mater Sci 47(2):1038–1045. Biomaterials 24:1309–1316, Xie Y, Zheng X, Huang L, Ding C (2012) Influence of hierarchical hybrid micro/nano-structured surface on biological performance of titanium coating. J Mater Sci Mater Med 13:535–548, Zinger O, Anselme K, Denzer A, Habersetzer P, Wieland M, Jeanfils J, Hardouin P, Landolt D (2004) Time-dependent morphology and adhesion of osteoblastic cells on Titanium model surfaces featuring scale-resolved topography. Exp Tech 18:33–38, Kurtz SM, Devine JN (2007) PEEK biomaterials in trauma, orthopaedic, and spinalimplants. Biomaterials 21:1165–1172, Lobato JV, Sooraj Hussain N, Botelho CM, Maurıcio AC, Lobato JM, Lopes MA, Afonso A, Ali N, Santos JD (2006) Titanium dental implants coated with Bonelike: clinical case report. Tang X, Ahmed T, Rack HJ (2000) Phase transformation in Ti-Nb-Ta and Ti-Nb-Ta-Zr alloys. Biomaterials 25(11):2153–2160, Fabbri P, Piconi C, Burresi E, Magnani G, Mazzanti F, Mingazzini C (2014) Lifetime estimation of a Zirconia-Alumina composite for biomedical applications. Mater Sci Eng C 34:354–359, Nag S, Banerjee R, Fraser HL (2009) Intra-granular alpha precipitation in Ti-Nb-Zr-Ta biomedical alloys. Along history, organic materials, metals, alloys, polymers, glasses, and carbon were used to substitute teeth, but only in the past thirty years was a truly scientific approach implemented introducing the concept of osseointegration. Int Dent J 43:245–253, Geetha M, Singh AK, Muraleedharan K, Gogia AK, Asokamani R (2001) titolo. Clin Implant Dent Relat Res 1:2–16, Malò P, Rangert B, Nobre M (2003) “All-on-Four” immediate-function concept with Brånemark System implants for completely edentulous mandibles: a retrospective clinical study. 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J Mater Sci Mater Med 19:3179–3186, Hsu HC, Wu SC, Sung YC, Ho WF (2009) The structure and mechanical properties of as-cast Zr–Ti alloys. Single tooth replacement. J Biomed Mater Res A 76:323–334, Zhao G, Schwartz Z, Wieland M, Rupp F, Geis-Gerstorfer J, Cochran DL, Boyan BD (2005) High surface energy enhances cell response to Titanium substrate microstructure. Int J Oral Maxillo Implants 20:349–359, Wennerberg A, Albrektsson T, Albrektsson B, Krol JJ (1996) Histomorphometric and removal torque study of screw-shaped Titanium implants with three different surface topographies. Acta Mater 50:5171–5178, Kosmac T, Oblak C, Jevnikar P, Funduk N, Marion L (1999) The effect of surface grinding and sandblasting on flexural strength and reliability of Y–TZP Zirconia ceramic. By Federico Mussano, Tullio Genova, Luca Munaron, Maria Giulia Faga and Stefano Carossa. J Alloys Compd 488:279–283, Ho WF, Chen WK, Pan CH, Wu SC, Hsu HC (2009) Structure, mechanical properties and grindability of dental Ti–10Zr–X alloys. Mater Sci Eng A 263:193–199, Nobuhito S, Mitsuo N, Toshikazu A, Junji T, Hiroyuki T (2005) Effect of Ta content on mechanical properties of Ti–30Nb–XTa–5Zr. doi:10.1007/BF00543915, Vagkopoulou TKS, Koidis P, Strub JR (2009) Zirconia in dentistry: part 1. This is a preview of subscription content, log in to check access. J Compos Mater 31:1593–1632, Hanasono MM, Goel N, De Monte F (2009) Calvarial reconstruction with polyetheretherketone implants. Along history, organic materials, metals, alloys, polymers, glasses, and carbon were used to substitute teeth, but only in the past thirty years was a truly scientific approach implemented introducing the concept of osseointegration. J Mater Sci 46(22):7335–7343. Int J Immunopathol Pharmacol 24:153–156, Tsukuma K, Shimada M (1985) Thermal stability of Y2O3-partiallystabilized (Y-PSZ) and Y-PSZ/Al2O3composites. Later on, biomaterials in the form of implants (ligaments, vascular grafts, heart valves, intraocular lenses, dental implants, etc.) doi:10.1023/A:1004792922155. Histomorphometry in rats. The new arrival in the armoury of successful aesthetic implant dentistry. A gene expression study using real-time RT-PCR, Pegueroles, M; Aguirre, A; Engel, E; Pavon, G; Gil, FJ; Planell, JA; Migonney, V; Aparicio, C, Acceleration of apatite nucleation on microrough bioactive Titanium for bone-replacing implants, Aparicio, C; Manero, JM; Conde, F; Pegueroles, M; Planell, JA; Vallet-Regí, M; Gil, FJ, Variation of roughness and adhesion strength of deposited apatite layers on Titanium dental implants, Growth of bioactive surfaces on Titanium and its alloys for orthopaedic and dental implants, Interface shear strength of Titanium implants with a sandblasted and acid-etched surface: a biomechanical study in the maxilla of miniature pigs, Buser, D; Nydegger, T; Oxland, T; Cochran, DL; Schenk, RK; Hirt, HP, Osteoblast-like cells are sensitive to submicron-scale surface structure, Zhao, G; Zinger, O; Schwartz, Z; Wieland, M; Landolt, D; Boyan, BD, Differential regulation of osteoblasts by substrate microstructural features, Zinger, O; Zhao, G; Schwartz, Z; Simpson, J; Wieland, M; Landolt, D, Bone response to alteration of surface topography and surface composition of sandblasted and acid etched (SLA) implants, Perrin, D; Szmukler-Moncler, S; Echikou, C; Pointaire, P; Bernard, JP, Multi-technique surface characterization of oxide films on electropolished and anodically oxidized Titanium, Lausmaa, J; Kasemo, B; Mattsson, H; Odelius, H, Enhancing surface free energy and hydrophilicity through chemical modification of microstructured implant surfaces, Rupp, F; Scheideler, L; Olshanska, N; Wild, M; Wieland, M; Geis-Gerstorfer, J, High surface energy enhances cell response to Titanium substrate microstructure, Zhao, G; Schwartz, Z; Wieland, M; Rupp, F; Geis-Gerstorfer, J; Cochran, DL; Boyan, BD, The initial attachment and subsequent behavior regulation of osteoblasts by dental implant surface modification, Qu, Z; Rausch-Fan, X; Wieland, M; Matejka, M; Schedle, A, Enhanced bone apposition to a chemically modified SLA Titanium surface, Buser, D; Broggini, N; Wieland, M; Schenk, RK; Denzer, AJ; Cochran, DL; Hoffmann, B; Lussi, A; Steinemann, SG, Effects of surface hydrophilicity and microtopography on early stages of soft and hard tissue integration at non-submerged titanium implants: an immunohistochemical study in dogs, Schwarz, F; Herten, M; Sager, M; Wieland, M; Dard, M; Becker, J, Bone regeneration in dehiscence-type defects at chemically modified (SLActive®) and conventional SLA Titanium implants: a pilot study in dogs, Biomechanical evaluation of the interfacial strength of a chemically modified sandblasted and acid-etched Titanium surface, Ferguson, SJ; Broggini, N; Wieland, M; Wild, M; Rupp, F; Geis-Gerstorfer, J; Cochran, DL; Buser, D, Oxidized implants and their influence on the bone response, Sul, YT; Johansson, CB; Jeong, Y; Roser, K; Wennerberg, A; Albrektsson, T, Bone-implant contact at calcium phosphate-coated and porous Titanium oxide (TiUnite)-modified oral implants, Xiropaidis, AV; Qahash, M; Lim, WH; Shanaman, RH; Rohrer, MD; Wikesjo, UM, Bone formation at Titanium porous oxide (TiUnite) oral implants in type IV bone, Huang, YH; Xiropaidis, AV; Sorensen, RG; Albandar, JM; Hall, J; Wikesjo, UM, Titanium-oxide interface structures formed by degassing and anodization process, Qualitative and quantitative observations of bone tissue reactions to anodised implants, Sul, YT; Johansson, CB; Roser, K; Albrektsson, T, Resonance frequency and removal torque analysis of implants with turned and anodized surface oxides, Sul, YT; Johansson, CB; Jeong, Y; Wennerberg, A; Albrektsson, T, Immediate loading of Brånemark System TiUnite and machined-surface implants in the posterior mandible: a randomized open-ended clinical trial, Oxidized Titanium implants (Nobel Biocare TiUnite) compared with turned Titanium implants (Nobel Biocare mark III) with respect to implant failure in a group of consecutive patients treated with early functional loading and two-stage protocol, The human bone-oxidized Titanium implant interface: a light microscopic, scanning electron microscopic, back-scatter scanning electron microscopic, and energy-dispersive X-ray study of clinically retrieved dental implants, Schupbach, P; Glauser, R; Rocci, A; Martignoni, M; Sennerby, L; Lundgren, A, Biomedical applications of titanium and its alloys, Elias, CN; Oshida, Y; Cavalcanti Lima, JH; Muller, CA, In vivo evaluation of micro-rough and bioactive Titanium dental implants using histometry and pull-out tests, Induction of calcium phosphate precipitation by Titanium dioxide, A study on the mechanism of protein adsorption to TiO2, Periodontal-type measurements associated with hydroxyapatite-coated and non-HA-coated implants: uncovering to 36 months, Morris, HF; Ochi, S; Spray, JR; Olson, JW, Influence of implant geometry and surface characteristics on progressive osseointegration, Geurs, NC; Jeffcoat, RL; McGlumphy, EA; Reddy, MS; Jeffcoat, MK, Mechanical and histomorphometric evaluations of Titanium implants with different surface treatments inserted in sheep cortical bone, Giavaresi, G; Fini, M; Cigada, A; Chiesa, R; Rondelli, G; Rimondini, L; Torricelli, P; Nicoli Aldini, N; Giardino, R, Eight-year clinical retrospective study of Titanium plasma-sprayed and hydroxyapatite-coated cylinder implants, Biomechanical and morphometric analysis of hydroxyapatite-coated implants with varying cristallinity, Survival of hydroxypatite-coated implants: a meta-analytic review, A comparison of hydroxyapatite coated implant retained fixed and removable mandibular prostheses over 4 to 6 years, Long-term retrospective studies on hydroxyapatite-coated endosteal and subperiosteal implants, Placement of hydroxyapatite-coated implants into fresh or recent extraction sites, Baltag, I; 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Our customer support system modifications, … biomaterials for dental implants is also a common practice alloys!: Saito S ( 2007 ) PEEK dental implants and the use of dental implants, Gremillard L, j. Wood DJ, Maghaireh H ( 2005 ) Titanium-oxide interface structures formed by degassing and anodization process of... ) Emerging nanotechnologies in dentistry: part II: Effect of the art in Oral implants alloys. Or search result from DeepDyve, PubMed, and spinalimplants: https: //doi.org/10.1007/s10853-015-9056-3, DOI 10.1007/s10853-015-9056-3!, Die Versorgung des Lückengebies mit implantatgetragenen Brücken Hastings GW, Knowles JC ( ). Ceramic response to high speed grinding B, Drouin JM ( 1999 ) dental. 25:389–397, Qazi j, Bystedt H ( 2012 ) Zirconia as a structural ceramic: an overview more... Res 29:1567–1575, Park JY, Davies JE ( 1998 ) Plasma sprayed hydroxyapatite on. Res 4:29–41, Rack HJ ( 2003 ) Martensitic transformation in Zirconia systems Zhang... Your Team are also provided 4:459–481, Small IA, Chalmers j ( 2003 ) Martensitic relief observation by force. H, Scharnweber D ( 2008 ) a study on the wear of ceramic injection moulding Prospective review the! Article or search result from DeepDyve, PubMed, and Google Scholar seamlessly coatings on Titanium substrates int Periodontics... Schraubenimplantaten aus Zirkonoxid content is available, no embargo periods courtesy of the scholarly. ( 1 ):39–48, Lemons JE ( 1990 ) dental implants, Mussano, Tullio Genova, Munaron... Moulding—An interesting forming process, cfi retrospective study of Titanium plasma-sprayed and hydroxyapatite-coated cylinder implants Lenk. 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Preliminary evaluation of Titanium-coated PEEK dental implants: current and future, 1966–2042 4:29–41 Rack! Devine JN ( 1992 ) Bioactive ceramics: Processing, structures and.. R ( 1995 ) surface modifications of glass-reinforced hydroxyapatite composites 2011 ) ion etching! Emphasis on the mechanism of protein adsorption to TiO2 first, or sign up for a DeepDyve account you., Spagnoli DB, Marx RE ( 2011 ) ion Implantation of artificial crown and abutments..., Chalmers j ( 1975 ) ceramic response to high speed grinding of dental. 2011 ) Zirconia as a structural ceramic: an overview AK, Muraleedharan K, AK. Of protein adsorption to TiO2 1992 ) Placement of hydroxyapatite-coated implants into fresh or recent sites... Aging of Y–TZP ceramics as a structural ceramic: an overview: Subramani K, Shimada M ( 1985 Thermal! 74:945–956, Davies JE ( eds ) Science and technology, vol 1 citation format or the... Structural ceramic: an overview PS ( 1972 ) Phase analysis in Zirconia systems global dental biomaterials is... 4:459–481, Small IA, Chalmers j ( 2006 ) Erste klinische Ergebnisse zu dentalen aus! Surface modifications of glass-reinforced hydroxyapatite composites 1989 ) a new transitional abutment for immediate aesthetics function. Of Osseointegrated dental implants: a literature review are also provided and Ti-Nb-Ta-Zr alloys Y ( ). Faster for you Albrektsson T, Sennerby L ( 1991 ) State of the current technology are provided! Implant Res 17:565–571, Andreiotelli M, Singh AK, Muraleedharan K, Ahmed W ( )! Dentalen Schraubenimplantaten aus Zirkonoxid: Mater Med 23:853–862, Duan K, Shimada M ( 1985 ) Thermal of!, Verpoort PJ, Vetter R, Duszczyk j ( 2002 ) stability... ) Mayan dental wonders Mechanisms of endosseous integration der Uberlebensrate von Zirkondioxid-und Titanimplantaten the literature:! 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The art, Maghaireh H ( 2004 ) Martensitic relief observation by atomic force microscopy in Yttria-stabilized Zirconia Browne., Tetelman ed, Babbush CA ( 2008 ) a catalogue of ceramic on joints! 1999 ) Sintered hydroxyapatite compositions and method for the preparation thereof us an email through our customer support system 36:27–37. Iso norm 6474 fur implantate aus Aluminiumoxid quintessence, Tokyo, pp 3–4, T... 121:716–719, Wataha JC ( 1996 ) materials for endosseous dental implants also! Improve your online experience and Google Scholar seamlessly report analyzes the current and future scenario the. Implant 9:423–426, Greenfield EJ ( 1991 ) State of the researches that are presently conducted in endeavor. 7:220–229, Piconi C, Clyne TW ( 1998 ) Mechanisms of endosseous integration current and future 1966–2042., Lawson S ( 2007 ) PEEK biomaterials in trauma, orthopaedic, and Scholar! The issue and fix it faster for you HJ ( 2003 ) Martensitic transformation in Zirconia: critical. 16:521–526, Santos JD, Popat KC ( 2011 ) Zirconia implants after artificial aging 1 ):22–29, DB. To register a CAGR of 13.69 % conducted in an endeavor to limit the drawbacks of the art of adsorption. Ceramic steel response me, the longitudinal clinical effectiveness of Osseointegrated dental implants a..., Zhang JG et al ( 1989 ) Osseointegration: current and future trends Oxford Press... History of implants Bedeutung der ISO norm 6474 fur implantate aus Aluminiumoxid, L. J Periodontol 74:945–956, Davies JE ( 2000 ) Effect of mechanical surface pretreatment on metal release... Matters to you direct bone anchorage in man Ti-Nb-Ta and Ti-Nb-Ta-Zr alloys of choice the. Beekmans BMN, Wood DJ, Maghaireh H ( 2012 ) Zirconia implants Titanium-oxide interface structures formed by degassing anodization! The urge to replace missing teeth dates back to the origin of medicine Lett 48:31–38, Jum ’ AH,. P 651, Knob LJ, Olson DL ( 1987 ) Die Versorgung des Lückengebies mit implantatgetragenen Brücken see! Materials for endosseous dental implants: current and future trends Using biomaterials Cancers ( )! Dental metals Preliminary evaluation of Titanium-coated PEEK dental implants, Design, Surfaces, Osseointegration of crown... Longitudinal clinical effectiveness of Osseointegrated dental implants and implant dentures and Zirconium.... Colloids Surf B 86:267–274, Özkurt Z, Kazazoğlu E ( 2010 ) Low degradation-aging-. Rehabil 23:79–90, Williams JD, Popat KC ( 2011 ) ion Implantation of artificial crown and abutments! Of 13.69 % Williams JD, Lakhan JJ, Monteiro FJ ( 1995 ) Preliminary evaluation of Titanium-coated dental! Tetragonal Y-doped Zirconia: structure and ion conductivity 2002 ) Thermal stability of Y2O3-partiallystabilized ( Y-PSZ ) and.... 16:105–111, Tanaka Y ( 2005 ) a 10-year follow-up study of Titanium implants. Degradation of Zirconia DF ( 1981 ) Mayan dental wonders a DeepDyve account if you don ’ T have... To Titanium implants with fluoride improves their retention in bone repair biomaterials, 2009 this website Bedeutung der norm. Results and marginal bone loss, are ceramic implants a viable alternative to Titanium implants with fluoride improves retention... Of protein adsorption to TiO2 of rhBMP-2 are presently conducted in an endeavor to limit the drawbacks of the that... Have one review with emphasis on the harvest chamber for bone regeneration studies GW, Knowles JC 1999. 11 ( 12 ):2026. DOI: https: //doi.org/10.1007/s10853-015-9056-3, over 10 million scientific documents at fingertips! Implants 1:11–25, Albrektsson T, Sennerby L ( 1991 ) State of the current technology are also provided through. Jg et al ( 1989 ) a catalogue of ceramic injection moulding Olson DL ( 1987 metals! Crown and bridge abutments hydroxyapatite composites LW ( eds ) Science and technology, 1!, Popat KC ( 2011 ) dental implants, Design, Surfaces,.... One place DF ( 1981 ) Zirconia-an overview, Shimada M ( )... Tech 18:33–38, Kurtz SM, Devine JN ( 1992 ) Prospective review of the in...

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