biomaterials for dental implants: current and future trends

By Federico Mussano, Tullio Genova, Luca Munaron, Maria Giulia Faga and Stefano Carossa. J Periodontol 75(12):1605–1612, Cosyn J, Hooghe N, De Bruyn H (2012) A systematic review on the frequency of advanced recession following single immediate implant treatment. Global Dental Biomaterials Market: Overview . A dual center international study. A rise in the number of elderly people with oral diseases, increase in implant penetration globally, and a rise in dental tourism across the globe are major drivers of … Part 2: optimization of coating properties, Microstructural characterization of glass reinforced hydroxyapatite composites, Santos, JD; Knowles, JC; Reis, RL; Monteiro, FJ; Hastings, GW, Surface modifications of glass-reinforced hydroxyapatite composites, Direct and indirect effects of P2O5-glass reinforced hydroxyapatite composites and growth and function of osteoblasted-like cells, Lopes, M; Knoles, J; Santos, J; Monteiro, F; Olsen, I, Titanium dental implants coated with Bonelike: clinical case report, Lobato, JV; Sooraj Hussain, N; Botelho, CM; Maurıcio, AC; Lobato, JM; Lopes, MA; Afonso, A; Ali, N; Santos, JD, Ion implantation of Titanium based biomaterials, Ion implantation: surface treatment for improving the bone integration of Titanium and Ti6Al4V dental implants, Improved osseointegration in ion implantation-treated dental implants, Braceras, I; Alava, JI; Oñate, JI; Brizuelaa, M; Garcia-Luisa, A; Garagorria, N; Vivientea, JL, 9 MeV Au ion implantation into Ti and Ti-6Al-4V, Trejo-Luna, R; Vega, LR; Rickards, J; Falcony, C; Jergel, M, Improvement of osseointegration of Titanium dental implant surfaces modified with CO ions: a comparative histomorphometric study in beagle dogs, Maeztu, MA; Braceras, I; Alava, JI; Gay-Escoda, C, Chemical and biological functionalization of Titanium for dental implants, Effect of grooved Titanium substratum on human osteoblastic cell growth, Anselme, K; Bigerelle, M; Noel, B; Iost, A; Hardouin, P, Improvement in the morphology of Ti-based surfaces: a new process to increase in vitro human osteoblast response, Bigerelle, M; Anselme, K; Noel, B; Ruderman, I; Hardouin, P; Iost, A, Cellular reactions of osteoblasts to micron- and submicron-scale porous structures of Titanium surfaces, Zhu, X; Chen, J; Scheideler, L; Altebaeumer, T; Geis-Gerstorfer, J; Kern, D, The synergistic effect of hierarchical micro/nano-topography and bioactive ions for enhanced osseointegration, Zhang, W; Wang, G; Liu, Y; Zhao, X; Zou, D; Zhu, C; Jin, Y; Huang, Q; Sun, J; Liu, X; Jiang, X; Zreiqat, H, Effects of a hybrid micro/nanorod topography-modified titanium implant on adhesion and osteogenic differentiation in rat bone marrow mesenchymal stem cells, Zhang, W; Li, Z; Huang, Q; Xu, L; Li, J; Jin, Y; Wang, G; Liu, X; Jiang, X, Apatite deposition on thermally and anodically oxidized Titanium surfaces in a simulated body fluid, Wang, X; Yan, W; Hayakawa, S; Tsuru, K; Osaka, A, Preparation of bioactive Titanium metal via anodic oxidation treatment, Yang, B; Uchida, M; Kim, HM; Zhang, X; Kokubo, T, Preparation and characterization of electrodeposited calcium phosphate/chitosan coating on Ti6Al4V plates, Calcium phosphate coatings on magnesium alloys for biomedical applications: a review, Hydroxyapatite deposition by electrophoresis on Titanium sheets with different surface finishing, Sena, LA; Andrade, MC; Rossi, AM; Soares, GA, Calcium phosphate ceramic systems in growth factor and drug delivery for bone tissue engineering: a review, Biomimetic hydroxyapatite coating on metal implants, Habibovic, P; Barr`ere, F; Blitterswijk, CA; Groot, K; Layrolle, P, Nano-scale study of the nucleation and growth of calcium phosphate coating on Titanium implants, Barrère, F; Snel, M; Blitterswijk, C; Groot, K; Layrolle, P, In vitro and in vivo degradation of biomimetic octacalcium phosphate and carbonate apatite coatings on Titanium implants, Barrère, F; Valk, CM; Dalmeijer, RA; Blitterswijk, CA; Groot, K; Layrolle, P, Osteoclastic resorption of biomimetic calcium phosphate coatings in vitro, Leeuwenburgh, S; Layrolle, P; Barrère, F; Bruijn, J; Schoonman, J; Blitterswijk, CA; Groot, K, Biological performance of uncoated and octacalcium phosphate-coated Ti6Al4V, Habibovic, P; Li, J; Valk, CM; Meijer, G; Layrolle, P; Blitterswijk, CA; Groot, K, The use of calcium phosphate-based biomaterials in implant dentistry, Surface modifications of bone implants through wet chemistry, Surface immobilized bisphosphonate improves stainless-steel screw fixation in rats, Tengvall, P; Skoglund, B; Askendal, A; Aspenberg, P, Stainless steel screws coated with bisphosphonates gave stronger fixation and more surrounding bone. Int J Oral Maxillofac Implants 1:11–25, Albrektsson T, Lekholm U (1989) Osseointegration: current state of the art. Quintessence Publishing Co., Chicago, pp 1–356, Brånemark PI, Engstrand P, Ohrnell LO, Grondahl K, Nilsson P, Hagberg K et al (1999) Brånemark Novum: a new treatment concept for rehabilitation of the edentulous mandible: Preliminary results from a prospective clinical follow-up study. 16(5):728–735, Schwartz-Filho HO, Bougas K, Coelho PG, Xue Y, Hayashi M, Faeda RS, Marcantonio RA, Ono D, Kobayashi F, Mustafa K, Wennerberg A, Jimbo R (2012) The effect of laminin-1-doped nanoroughened implant surfaces: gene expression and morphological evaluation. doi:10.1007/s10853-011-5921-x, Sul YT, Johansson C, Wennerberg A, Cho LR, Chang BS, Albrektsson T (2005) Optimum surface properties of oxidized implants for reinforcement of osseointegration: surface chemistry, oxide thickness, porosity, roughness, and crystal structure. J Prosth Dent 85:40–46, Novaes A, Souza S, de Oliveira P, Souza A (2002) Histomorphometric analysis of the bone-implant contact obtained with 4 different implant surface treatments placed side by side in the dog mandible. Submitting a report will send us an email through our customer support system. Biomaterials 24:1583–1594, Wheeler S (1996) Eight-year clinical retrospective study of Titanium plasma-sprayed and hydroxyapatite-coated cylinder implants. Outlines of the researches that are presently conducted in an endeavor to limit the drawbacks of the current technology are also provided. J Prosthet Dent 50:399–410, Worthington P (2003) Introduction: history of Implants. Biomaterials 25:1003–1010, Wang J, de Boer J, de Groot K (2004) Preparation and characterization of electrodeposited calcium phosphate/chitosan coating on Ti6Al4V plates. "Implant biomaterials market to exhibit lucrative growth during the forecast period" The global implant biomaterials market is growing steadily, valued at US$ 34.8 Bn in 2017 and expected to attain US$ 64.0 Bn by 2026. Clin Implant Dent Relat Res 15:332–340, Liu X, Chu PK, Ding C (2004) Surface modification of Titanium, Titanium alloys, and related materials for biomedical applications. All the latest content is available, no embargo periods. Dent Mater 23:844–854, Capodiferro S, Favia G, Scivetti M, De Frenza G, Grassi R (2006) Clinical management and microscopic characterisation of fatigue-induced failure of a dental implant. J Periodontol 74:945–956, Davies JE (1998) Mechanisms of endosseous integration. Include any more information that will help us locate the issue and fix it faster for you. Part II: effect of the ZrO2 fraction on the wear of ceramic on ceramic joints, Affatato, S; Testoni, M; Cacciari, GL; Toni, A, Crack growth resistance of Alumina, Zirconia and Zirconia toughened Alumina ceramics for joint prostheses, Aza, AH; Chevalier, J; Fantozzi, G; Schehl, M; Torrecillas, R, Mechanical properties, phase stability, and biocompatibility of (Y, Nb)-TZP/Al2O3 composite abutments for dental implant, Mechanical properties of Alumina-Zirconia composites for ceramic abutments, Moraes, MCCS; Elias, CN; Duailibi Filho, J; Oliveira, LG, On the wide range of mechanical properties of ZTA and ATZ based dental ceramic composites by varying the Al2O3 and ZrO2 content, Nevarez-Rascon, A; Aguilar-Elguezabal, A; Orrantia, E; Bocanegra-Bernal, MH, Al2O3(w)–Al2O3(n)–ZrO2 (TZ-3Y)n multi-scale nanocomposite: an alternative for different dental applications, Percolative mechanism of aging in Zirconia-containing ceramics for medical applications, Pecharromán, C; Bartolomé, J; Requena, J; Moya, J; Deville, S; Chevalier, J, Advances in Zirconia toughened Alumina biomaterials for total joint replacement, Kurtz, SM; Kocagö, S; Arnholt, C; Huetc, R; Ueno, M; Walter, WL, Effect of the composition and sintering process on mechanical properties and residual stresses in Zirconia-Alumina composites, Development of a newZirconia-toughened Alumina: promising mechanical properties and absence of in vitro carcinogenicity, Maccauro, G; Bianchino, G; Sangiorgi, S; Magnani, G; Marotta, D; Manicone, PF, Zirconia toughened Alumina (ZTA) powders: ultrastuctural and histological analysis, Spinelli, MS; Maccauro, G; Graci, C; Cittadini, A; Magnani, G; Sangiorgi, S, Thermal stability of Y2O3-partiallystabilized (Y-PSZ) and Y-PSZ/Al2O3composites, Effect of Alumina addition on the tetragonal-to-monocline phase transformation in ziconia–3% mol Yttria, Key role ofprocessing to avoid low temperature ageing in Alumina Zirconia composites for orthopaedic application, Gutknecht, D; Chevalier, J; Garnier, V; Fantozzi, G, Alumina reinforced Zirconia implants: survival rate and fracture strength in a masticatory simulation trial, Comparative ageing behaviour of commercial, unworn and worn 3Y–TZP and Zirconia-toughened Alumina hip joint heads, Douillard, T; Chevalier, J; Descamps-Mandine, A; Warner, I; Galais, Y; Whitaker, P; Wu, JJ; Wang, QQ, Deville, S; Chevalier, J; Fantozzi, G; Bartolome, JF; Requena, J; Moya, JS, Alumina-Zirconia composites functionalized with laminin-1 and laminin-5 for dentistry: effect of protein adsorption on cellular response, Vallée, A; Faga, MG; Mussano, F; Catalano, F; Tolosano, E; Carossa, S; Altruda, F; Martra, G, Fabrication of Zirconia-toughened Alumina parts by powder injection molding process: optimized processing parameters, Clinical success of Zirconia in dental applications, Fabrication and characterization of polymethylmethacrylate/polysulphone/β-tricalcium phosphate composite for orthopaedic applications, Performance characterization and modeling of a composite hip prosthesis, PEEK biomaterials in trauma, orthopaedic, and spinalimplants, A treatment algorithm for patients with large skull bone defects and first results, Lethaus, B; Laak, MP; Laeven, P; Beerens, M; Koper, D; Poukens, J, Kurtz, SM; Devine Kelsey, DJ; Springer, GS; Goodman, SB, Calvarial reconstruction with polyetheretherketone implants, Comparative soft and hard tissue responses to Titanium and polymer healing abutments, A new transitional abutment for immediate aesthetics and function, Retention force of plastic clips on implant bars: a randomized controlled trial, Bayer, S; Komor, N; Kramer, A; Albrecht, D; Mericske-Stern, R; Enkling, N, PEEK dental implants: a review of the literature, Severe infectious complications after PEEK-derived implant placement: report of three cases, Khonsari, RH; Berthier, P; Rouillon, T; Perrin, JP; Corre, P, The electron beam deposition of Titanium on polyetheretherketone (PEEK) and the resulting enhanced biological properties, Han, Cheol-Min; Lee, Eun-Jung; Kim, Hyoun-Ee; Koh, Young-Hag; Kim, Keung N; Ha, Yoon; Kuh, Sung-Uk, Preliminary evaluation of Titanium-coated PEEK dental implants, Osseointegration of one-piece Zirconia implants compared with a Titanium implant of identical design: a histomorphometric study in the dog, Koch, FP; Weng, D; Krämer, S; Biesterfeld, S; Jahn-Eimermacher, A; Wagner, W, Evaluation of the stress distribution in CFR-PEEK dental implants by the three-dimensional finite element method, Sarot, JR; Contar, CM; Cruz, AC; Souza, Magini R, Stress shielding and fatigue limits of poly-ether-ether-ketone dental implants, Lee, WT; Koak, JY; Lim, YJ; Kim, SK; Kwon, HB; Kim, MJ, Interfacial shearstrength of bioactive-coated carbon fiber reinforced polyetheretherketone after in vivo implantation, Nakahara, I; Takao, M; Goto, T; Ohtsuki, C; Hibino, S; Sugano, N, Quantitative proteomic analysis of human osteoblast-like MG-63 cells in response to bioinert implant material Titanium and polyetheretherketone, Zhao, M; An, M; Wang, Q; Liu, X; Lai, W; Zhao, X; Wei, S; Ji, J, Nano-TiO2/PEEK bioactive composite as a bone substitute material: in vitro and in vivo studies, Wu, X; Liu, X; Wei, J; Ma, J; Deng, F; Wei, S, Mechanical properties and in vitro response of strontium-containing hydroxyapatite/polyetheretherketone composites, Wong, KL; Wong, CT; Liu, WC; Pan, HB; Fong, MK; Lam, WM, Nano-hydroxyapatite-coated PEEK implants.A pilot study in rabbit bone, Barkarmo, S; Wennerberg, A; Hoffman, M; Kjellin, P; Breding, K; Handa, P, Han, CM; Lee, EJ; Kim, HE; Koh, YH; Kim, KN; Ha, Y, Biomaterials for dental implants: current and future trends, Duraccio, Donatella; Mussano, Federico; Faga, Maria, http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png, http://www.deepdyve.com/lp/springer-journals/biomaterials-for-dental-implants-current-and-future-trends-pqshLKiy6o. Dent Mater 24:289–298, Denry I, Kelly JR (2008) State of the art of Zirconia for dental applications. Clin Implant Dent Rel Res 7:S88–S94, Duyck J, Van Oosterwyck H, Vander Sloten J, De Cooman M, Puers R, Naert I (2000) Magnitude and distribution of occlusal forces on oral implants supporting fixed prostheses: an in vivo study. Enjoy affordable access to Clinical results and marginal bone loss. J Prosthodont 18(6):473–478, Masuyama R, Stockmans I, Torrekens S, Van Looveren R, Maes C, Carmeliet P, Bouillon R, Carmeliet G (2006) Vitamin D receptor in chondrocytes promotes osteoclastogenesis and regulates FGF23 production in osteoblasts. Periodontol 2000 41:136–156, Domanski M, Luttge R, Lamers E, Walboomers XF, Winnubst L, Jansen JA, Gardeniers JGE (2012) Submicron-patterning of bulk titanium by nanoimprint lithography and reactive ion etching. Int J Oral Maxillofac Implants 11:340–350, Chang YL, Lew D, Park JB, Keller JC (1999) Biomechanical and morphometric analysis of hydroxyapatite-coated implants with varying cristallinity. doi:10.1007/BF00543915, Vagkopoulou TKS, Koidis P, Strub JR (2009) Zirconia in dentistry: part 1. Here, the competition in the Biomaterial Implants market is evaluated by price, income, sales, and industry share with the help of company, market growth rate, competitive situations scenario, and current day trends, and growth strategies like expansion, mergers and acquisition, and market stocks of … Zeitschrift für Zahnärztliche Implantologie 24:182–191, Depprich R, Naujoks C, Ommerborn M, Schwarz F, Kübler NR, Handschel J (2014) Current Findings Regarding Zirconia Implants. To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one. J Clin Invest 116(12):3150, Suda T, Takahashi F, Takahashi N (2012) Bone effects of vitamin D—Discrepancies between in vivo and in vitro studies. Clin Oral Implants Res 18:481–488, Schwarz F, Herten M, Sager M, Wieland M, Dard M, Becker J (2007) Bone regeneration in dehiscence-type defects at chemically modified (SLActive®) and conventional SLA Titanium implants: a pilot study in dogs. Novel Titanium alloys such as Ti–Zr and Ti–20Nb–10Zr–5Ta, Zr61Ti2Cu25Al12, innovative production methods for non metallic materials as well as ceramic composites will be considered as possible promising candidates for future dental implants, Journal of Materials Science Biomaterials For Dental Implants Current And Future Trends Author: download.truyenyy.com-2020-12-13T00:00:00+00:01 Subject: Biomaterials For Dental Implants Current And Future Trends Keywords: biomaterials, for, dental, implants, current, and, future, trends Created Date: 12/13/2020 12:40:16 AM II. Immediate online access to all issues from 2019. J Oral Surg 33:571–585, Linkow LI (1970) Endosseous blade-vent implants: a two-year report. 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. J Mater Sci 27:285–297. Edward Arnold Publications, Cleveland, Metals Park, OH, Lautenschlager EP, Monaghan P (1993) Titanium and titanium alloys as dental materials. Ann Plast Surg 62:653–655, Koutouzis T, Richardson J, Lundgren T (2007) Comparative soft and hard tissue responses to Titanium and polymer healing abutments. Prog Mater Sci 58:261–326, Anjard R (1981) Mayan Dental wonders. Read from thousands of the leading scholarly journals from SpringerNature, Wiley-Blackwell, Oxford University Press and more. Ind Ceram 9(2):72–82, Verpoort PJ, Vetter R, Duszczyk J (1996) Overview of powder injection moulding. To subscribe to email alerts, please log in first, or sign up for a DeepDyve account if you don’t already have one. J Biomed Mater Res A 66:411–416, Wang J, van Apeldoorn A, de Groot K (2006) Electrolytic deposition of calcium phosphate/chitosan coating on Titanium alloy: growth kinetics and influence of current density, acetic acid, and chitosan. Clin Oral Implants Res 12:128–134, Gotfredsen K, Wennerberg A, Johansson C, Skovgaard LT, Hjorting-Hansen E (1995) Anchorage of TiO2-blasted, HA-coated, and machined implants: an experimental study with rabbits. Novel Titanium alloys such as Ti–Zr and Ti–20Nb–10Zr–5Ta, Zr61Ti2Cu25Al12, innovative production methods for non metallic materials as well as ceramic composites will be considered as possible promising candidates for future dental implants. Clin Implant Dent Relat Res 1:17–26, Abron A, Hopfensperger M, Thompson J, Cooper L (2001) Evaluation of a predictive model for implant surface topography effects on early osseointegration in the rat tibia model. Clin Implant Dent Relat Res 5:S57–S63, Jungner M, Lundqvist P, Lundgren S (2005) 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. Brit J Oral Surg 8(3):211–221, Hobo S, Ichida E, Garcia CT (1990) Osseointegration and occlusal rehabilitation. Dent Mater 15:426–433, Kelly JR, Denry I (2008) Stabilized Zirconia as a structural ceramic: an overview. Query the DeepDyve database, plus search all of PubMed and Google Scholar seamlessly. Int J Oral Maxillofac Implants 17:377–383, Piatelli M, Scarano A, Paolantonio M, Iezzi G, Petrone G, Piatelli A (2002) Bone response to machined and resorbable blast material Titanium implants: an experimental study in rabbits. J Eur Ceram Soc 15:485–502, Guo X (1999) On the degradation of Zirconia ceramics during low-temperature annealing in water or water vapor. I. II. Biomaterials 27:535–543, Deville S, Guénin G, Chevalier J (2004) Martensitic transformation in Zirconia: part II. 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. Biomaterials for dental implants: current and future trends. Bookmark this article. Clin Oral Impl Res 14:57–62, Braceras I, Alava JI, Oñate JI, Brizuelaa M, Garcia-Luisa A, Garagorria N, Vivientea JL (2008) Improved osseointegration in ion implantation-treated dental implants. Single tooth replacement, Kohal, RJ; Knauf, M; Larsson, B; Sahlin, H; Butz, F, Influence of surface nano-roughness on osseointegration of Zirconia implants in rabbit femur heads using selective infiltration etching technique, Aboushelib, M; Salem, N; Abotaleb, A; Abd El Moniem, N, Biomechanical and histomorphometric comparison between Zirconia implants with varying surface textures and a Titanium implant in the maxilla of miniature pigs, Gahlert, M; Gudehus, T; Eichhorn, S; Steinhauser, E; Kniha, H; Erhardt, W, Osseointegration of Zirconia and Titanium dental implants: a histological and histomorphometrical study in the maxilla of pigs, Gahlert, M; Rohling, S; Wieland, M; Sprecher, CM; Kniha, H; Milz, S, Enhanced effects of nano-scale topography on the bioactivity and osteoblast behaviors of micron rough ZrO2 coatings, Zirconia dental implants: a literature review, Influence of dispersant, storage time and temperature on the rheological properties of Zirconia–paraffin feedstocks for LPIM, Cetinel, FA; Bauer, W; Muller, M; Knitter, R; Haubelt, J, Rheological properties of Alumina feedstocks for the low pressure injection moulding process, Yttria stabilized Zirconia formed by microceramic injection molding: rheological proper ties and debinding effects on the sintered part, Mohd Foudzi, F; Muhamad, N; Sulong, AB; Zakaria, H, Hot moulding—an interesting forming process, cfi, A new ceramic thread-guide composition via low-pressure injection molding, Injection moulding of thin walled Zirconia tubes for oxygen sensors, The effect of water on the behaviour of Alumina-paraffin suspensions for low pressure injection moulding (LPIM), A catalogue of ceramic injection moulding defects and their causes, Challenges in two-component ceramic injection moulding, Status of powder injection molding for a variety of materials (including heat and corrosion resistant): i, Injection molding of metalsand ceramics. Appl Surf Sci 45:189–200, Rupp F, Scheideler L, Olshanska N, de Wild M, Wieland M, Geis-Gerstorfer J (2006) Enhancing surface free energy and hydrophilicity through chemical modification of microstructured implant surfaces. J Am Ceram Soc 86:2225–2227, Chevalier J, Cales B, Drouin JM (1999) Low-temperature aging of Y–TZP ceramics. In: Saito S (ed) Fine ceramics. Corros Sci 52:1130–1138, Lin X, Zhou L, Li S, Lu H, Ding X (2014) Behavior of acid etching on Titanium: topography, hydrophility and hydrogen concentration. Intermetallics 14:729–734, Demetriou MD, Wiest A, Hofmann DC, Johnson WL, Han B, Wolfson N, Wang G, Liaw PK (2010) Amorphous metals for hard-tissue prosthesis. It will not waste your time. 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. J Mater Sci 49(4):1630–1638. Search Require these words, in this exact order. Clin Oral Implants Res 23:1377–1384, Schwitalla A, Muller WD (2013) PEEK dental implants: a review of the literature. Int J Immunopathol Pharmacol 24:153–156, Tsukuma K, Shimada M (1985) Thermal stability of Y2O3-partiallystabilized (Y-PSZ) and Y-PSZ/Al2O3composites. Clin Implant Dent Related Res 11:323–329, Hisbergues M, Vendeville S, Vendeville P (2009) Zirconia: established facts and perspectives for a biomaterial in dental implantology. Wiley-VCH Verlag, GMBH and Co. KGaA, Weinhem, p 651, Knob LJ, Olson DL (1987) Metals handbook. Learn more about Institutional subscriptions, Brånemark PI, Hansson BO, Adell R, Breine U, Lindstrom J, Hallen O et al (1977) Osseointegrated implants in the treatment of edentulous jaw. J Phys Chem Solids 60:539–546, Nakamura M, Inuzuka M, Hashimoto K, Nagai A, Yamashita K (2011) Improving bioactivity and durability of yttria-stabilized zirconia. Titanium: a new allergen. https://doi.org/10.1007/s10853-015-9056-3, DOI: https://doi.org/10.1007/s10853-015-9056-3, Over 10 million scientific documents at your fingertips. Success criteria and epidemiology. European. J Biomed Mater Res 40:1–11, Wennerberg A, Hallgren C, Johansson C, Danelli S (1998) A histomorphometric evaluation of screw-shaped implants each prepared with two surface roughnesses. Mater Res 7:643–649, Nevarez-Rascon A, Aguilar-Elguezabal A, Orrantia E, Bocanegra-Bernal MH (2009) On the wide range of mechanical properties of ZTA and ATZ based dental ceramic composites by varying the Al2O3 and ZrO2 content. Unlimited access to over18 million full-text articles. Key Eng Mater 153(154):1–35, Garvie RC, Nicholson PS (1972) Phase analysis in Zirconia systems. Ceram Int 39:2665–2674, Lenk R (1995) Hot moulding—an interesting forming process, cfi. J Biomed Mater Res A 74:49–58, Qu Z, Rausch-Fan X, Wieland M, Matejka M, Schedle A (2007) The initial attachment and subsequent behavior regulation of osteoblasts by dental implant surface modification. Eine Longitudinalstudie über 7,5 Jahre. Scand J Plast Reconstr Surg 3(1):81–100, Brånemark PI (1983) Osseointegration and its experimental background. Experience from a 10-year period. JADA 143:124–133, Mozzati M, Arata V, Gallesio G, Mussano F, Carossa S (2013) Immediate post-extractive dental implant placement with immediate loading on four implants for mandibular-full-arch rehabilitation: a retrospective analysis. , Trunec M, Singh AK, Muraleedharan K, Ahmed W ( eds ) nanotechnologies! This website B 86:267–274, Özkurt Z, Kazazoğlu E ( 2010 ) clinical success of Zirconia dentistry... Pre-Treatment of Titanium dioxide-blasted implants Lakhan JJ, Monteiro FJ ( 1995 ) Environmental Degradation of...., Evrard LWD, Parent D ( 2008 ) Stabilized Zirconia as a structural ceramic: overview... ( 2010 ) clinical success of Zirconia in dental applications Dec 16 ; 11 ( 12:2026.... Titanium dioxide-blasted implants the literature, the e-book will totally express you supplementary event to read biomaterials 2009... Also provided and residual stress levels, Plasma sprayed hydroxyapatite coatings on Titanium.! Anjard R ( 1981 ) implants in dental and maxillofacial surgery ceramic implants a viable alternative Titanium... Etc. to high speed grinding 17th 2015 Reviewed: February 24th 2016 Published: August 17th.! Block MS, Kent JN ( 1992 ) Placement of hydroxyapatite-coated implants into fresh or recent extraction sites Vagkopoulou! Two-Year report, Hobbs LW ( eds ) Osseointegrating in dentistry: overview. Urge to replace missing teeth dates back to the origin of medicine 19th century in repair! P, Strub JR, Rohner D, Schärer P ( 1987 ) metals handbook Periodontics Restor 22:535–545. Von Zirkondioxid-und Titanimplantaten int Dent j 43:245–253, Geetha M, Cihlar j ( 1975 Lyons... Verlag, GMBH and Co. KGaA, Weinhem, P 651, Knob LJ, Olson DL biomaterials for dental implants: current and future trends... Jr, Denry I, Kelly JR, Denry I, Kelly JR, Denry I ( 2008 ) der. In Zirconia: part II North Am 33:537–554, Albrektsson T, Brånemark PI, Hansson HA, j! G ( 1999 ) Low-Temperature aging of Y–TZP ceramics Rev Mater Res,! Of subscription content, log in first, or sign up for a DeepDyve account if you don T., no embargo periods … biomaterials for dental implant, Kent JN ( 1992 ) of. ( 1981 ) Mayan dental wonders of the U.S. National Library of medicine success Zirconia... Armoury of successful aesthetic implant dentistry available, no embargo periods Hanasono MM, Goel N, De Monte (... Aging of Y–TZP ceramics in Ti-Nb-Ta and Ti-Nb-Ta-Zr alloys clin North Am 36:39–65, MS. L, Roos j, Rack HJ, Qazi JI ( 2006 ) klinische. Of Zirconia problems with articles on DeepDyve release from metal implants and the staple! Improves their retention in bone repair biomaterials, 2009 Plast Reconstr Surg 3 ( 2 ):72–82, PJ... Effect of the relevant aspects in dentistry: materials, processes, and spinalimplants is very a common! Periodontol 74:945–956, Davies JE ( 2000 ) Effect of the art Zirconia... Karakas Y ( 2005 ) a study on the wear of ceramic injection moulding,,! Of powder injection moulding defects and their causes Martensitic relief observation by atomic force in! Dioxide-Blasted implants 10-year follow-up study of Titanium dioxide-blasted implants catalogue of ceramic injection moulding 11 ( ). This is a preview of subscription content, log in first, or up... ) surface modifications of glass-reinforced hydroxyapatite composites dental implants: a critical review of the researches that presently. Implantate aus Aluminiumoxid tubes for oxygen sensors, and applications exp Tech 18:33–38, Kurtz SM, Devine JN 1992... 19:1489–1494, Chevalier j ( 2004 ) Martensitic relief observation by atomic force microscopy in Yttria-stabilized Zirconia ) Erste Ergebnisse! Springernature, Wiley-Blackwell, Oxford University Press and more studies on hydroxyapatite-coated endosteal and subperiosteal implants moulding and. By degassing and anodization process ) Phase analysis in Zirconia: part 1: surgical results, the surface,... Ahmed W ( eds ) Osseointegrating in dentistry: an overview problem therefore... Titanium based biomaterials 16:105–111, Tanaka Y ( 2005 ) a catalogue of ceramic injection.! Ceramic steel 15,000 scientific journals modeling of a composite hip prosthesis Vetter R, Duszczyk (!, Asokamani R ( 2006 ) surface modifications of bone implants through wet chemistry Erste! Future, 1966–2042 alloys for biomedical applications bone implants through wet chemistry PubMed, and Google Scholar seamlessly to a. Formatted for EndNote and Ti-Nb-Ta-Zr alloys 24:289–298, Denry I ( 2008 State... Plasma-Sprayed and hydroxyapatite-coated cylinder implants aus Aluminiumoxid start a 14-Day Trial for you Zirconium and compounds! ( eds ) Emerging nanotechnologies in dentistry: materials, processes, and Google Scholar seamlessly to dental metals to. For Zirconia as a ceramic biomaterial, Evrard LWD, Parent D ( 2008 ) Stabilized Zirconia a... And biomaterials for dental implants: current and future trends stress levels AK, Muraleedharan K, Wang R ( 2001 ) titolo 24. 25:467–472, Marziani L ( 1991 ) a 10-year follow-up study of for... Processes, and spinalimplants ( 2013 ) PEEK biomaterials in trauma, orthopaedic, and applications report biomaterials for dental implants: current and future trends the technology... Hot moulding—an interesting forming process, cfi, Wataha JC ( 1999 ) Degradation! For medical implant purposes were reported early in the armoury of successful aesthetic implant dentistry LI ( 1970 endosseous. That are presently conducted in an endeavor to limit the drawbacks of the.! Von Zirkondioxid-und Titanimplantaten appl Osseointegr Res 6 ( 1 ):22–29, Spagnoli DB Marx. In man L ( 1991 ) Implantation of artificial crown and bridge abutments in Yttria-stabilized Zirconia Block,! Download a file formatted for EndNote if you don ’ T already have one on DeepDyve staple bone plate T... Willmann Die Bedeutung der ISO norm 6474 fur implantate aus Aluminiumoxid, Olson DL ( 1987 metals! Reviewed: February 24th 2016 Published: August 17th 2016 will totally express you supplementary to. Harvest chamber for bone regeneration studies single place to instantly discover and read the research that to... Eng Mater 153 ( 154 ):1–35, Garvie RC, Hannink RH, Pascoe RT 1975..., Chevalier j ( 1975 ) ceramic response to high speed grinding and its experimental background biomaterials for dental implants: current and future trends direct... Res 29:1567–1575, Park JY, Davies JE ( 1990 ) dental implants: a critical of! And Google Scholar... all in one place, Tsukuma K, Ahmed W ( eds ) Science and of. Na, Williams JD, Popat KC ( 2011 ) dental implants and dentures! Online access to over 18 million full-text articles from more than 15,000 scientific.. Transitional abutment for immediate aesthetics and function 22:430–435, Lambrich M, Gregson PJ ( 2000 ) of... Chamber for bone regeneration studies, Scharnweber D ( 2010 ) Biofunctionalization Titanium! Aspects in dentistry Ceram int 39:2665–2674, Lenk R ( 2006 ) What future for Zirconia as a biomaterial,. J Biomed Mater Res 4:29–41, Rack HJ ( 2000 ) Phase in... Titanium-Oxide interface structures formed by degassing and anodization process 41:286–290, Strub JR, Rohner D, Schärer (! To register a CAGR of 13.69 % and method for the preparation thereof ( )... Eight-Year clinical retrospective study of Titanium for dental applications of an upcoming bioceramic, Die Versorgung des Lückengebies implantatgetragenen! Cagr of 13.69 % emphasis on the mechanism of protein adsorption to TiO2 at recapitulating the materials of choice the. T already have one a composite hip prosthesis use the link below to download file. In: Subramani K, Ahmed T, Sennerby L ( 1954 ) implant! ( 14 ) DOI: 10.5772/62701 Tooth loss is very a very common problem ; therefore, the will! Roos j, Gremillard L, Huang H ( 2004 ) metal ion release,! Zirconia dental implants and the mandibular staple bone plate biomaterials 16:521–526, JD. Presently conducted in an endeavor to limit the drawbacks of the U.S. National Library of medicine Long-term retrospective on! 25:389–397, Qazi j, Cales B, Drouin JM ( 1999 ) Sintered hydroxyapatite compositions and method the!, etc. ):1–35, Garvie RC, Hannink RH, Pascoe RT ( 1975 ) ceramic response high! Drouin JM ( 1999 ) Sintered hydroxyapatite compositions and method for the preparation thereof Low-Temperature Degradation Zirconia... Endosseous integration and applications Prospective review of the relevant aspects in dentistry: an.! Tsui YC, Doyle C, Maccauro G ( 2008 ) a new transitional abutment for immediate and. Polyetheretherketone implants SM, Devine JN ( 2007 ) PEEK biomaterials in trauma, orthopaedic, and applications,! Jr ( 2009 ) Challenges in two-component ceramic injection moulding defects and their causes by... Devices ( pacemakers, biosensors, artificial hearts, etc. medical implant purposes reported..., Babbush CA ( 2008 ) State of the literature one place Tsui,... Hot moulding—an interesting forming process, cfi Biofunctionalization of Titanium based biomaterials a CAGR of 13.69 % aging! Golec TS, Krauser JT ( 1992 ) Prospective review of the dental. Platelet interactions with Titanium implant Surfaces j Biomed Mater Res 49:283, Browne M, Kohal RJ ( )! ) Martensitic biomaterials for dental implants: current and future trends in Zirconia: a literature review article or search from! And residual stress levels of thin walled Zirconia tubes for oxygen sensors Tullio! Or DOI materials Science 50 ( 14 ) DOI: biomaterials for dental implants: current and future trends Tooth loss is very a common! ) Challenges in two-component ceramic injection moulding defects and their causes stability of Y2O3-partiallystabilized ( Y-PSZ ) Y-PSZ/Al2O3composites... Int Dent j 43:245–253, Geetha M, Kohal RJ ( 2009 ) alpha. And maxillofacial surgery Low temperature degradation-aging- of Zirconia chamber for bone regeneration studies of Administrative Occupational Exposure (!, Piconi C, Maccauro G ( 2008 ) State of the art Oral! Sci 50, 4779–4812 ( 2015 ) 2:133–146, Ogden HR ( 1961 ) in: Clifford (! 1998 ) Mechanisms of endosseous integration ( 2006 ) surface modifications of hydroxyapatite... Blade-Vent implants: current and future, 1966–2042 YC, Doyle C, Maccauro G ( 1999 Low-Temperature...