doi:10.1007/s10853-011-5695-1, Vanni Lughi VS (2010) Low temperature degradation-aging- of Zirconia: a critical review of the relevant aspects in dentistry. Oral Maxillofac Surg Clin North Am 23(2):347–361, Song I, Kim BS, Kim CS, Im GI (2011) Effects of BMP-2 and vitamin D3 on the osteogenic differentiation of adipose stem cells. Biomaterials 30:3810–3817, Barkarmo S, Wennerberg A, Hoffman M, Kjellin P, Breding K, Handa P et al (2012) Nano-hydroxyapatite-coated PEEK implants.A pilot study in rabbit bone. J Biomed Mater Res B 88B:519–529, Scarano A, Di Carlo F, Quaranta M, Piattelli A (2003) Bone response to Zirconia ceramic implants: an experimental study in rabbits. Oral Implant 9:423–426, Greenfield EJ (1991) Implantation of artificial crown and bridge abutments. It will not waste your time. J Oral Implantol 21:176–181, Koch FP, Weng D, Krämer S, Biesterfeld S, Jahn-Eimermacher A, Wagner W (2010) Osseointegration of one-piece Zirconia implants compared with a Titanium implant of identical design: a histomorphometric study in the dog. Acta Mater 59:202–215, He Q, Shang JK, Ma E, Xu J (2012) Crack-resistance curve of a Zr–Ti–Cu–Al bulk metallic glass with extraordinary fracture toughness. Elsevier, Ohmsha, Ltd. pp 44–53, Richerson DW (1992) Modern ceramic engineering: properties, processing, and use in design. From the socioeconomical point of view, it is expected that by 2020, the percentage of persons over 50 years will double in Europe and the USA. Ceramic Biomaterials for Dental Implants: Current Use and Future Perspectives. J Bone Jt Surg Am 80:1447–1458, Wenz HJ, Bartsch J, Wolfart S, Kern M (2008) Osseointegration and clinical success of Zirconia dental implants: a systematic review. The Mineral, Metals & Materials Society, Warrendale, pp 75–91, Mueller HJ, Greener EH (1970) Polarization studies of surgical materials in Ringer’s solution. J Oral Implantol 37(3):367–376, Cetinel FA, Bauer W, Muller M, Knitter R, Haubelt J (2010) Influence of dispersant, storage time and temperature on the rheological properties of Zirconia–paraffin feedstocks for LPIM. Biomaterials 26:1623–1632, Abtahi J, Tengvall P, Aspenberg P (2012) A bisphosphonate-coating improves the fixation of metal implants in human bone.A randomized trial of dental implants. Biomaterials 23:2459–2465, Yokoyama KI, Kaneko K, Ogawa T, Moriyama K, Asaoka K, Sakai JI (2005) Hydrogen embrittlement of work-hardened Ni–Ti alloy in fluoride solutions. You can see your Bookmarks on your DeepDyve Library. J Periodontol 74:945–956, Davies JE (1998) Mechanisms of endosseous integration. Bookmark this article. J Clin Periodontol 40:404–441, Long M, Rack HJ (1998) Biomaterials 19:1621–1639, Brunette DM, Tengvall P, Textor M, Thomsen P (2001) Titanium in medicine: material science, surface science, engineering, biological responses and medical applications. Department of Health and Human Service, Bethesda, pp 1–351, Zarb GA, Smith DC, Levant HC, Graham BS, Staatsexamen WZ (1979) The effects of cemented and uncemented endosseous implants. Dent Implants 4:459–481, Small IA, Chalmers J (1975) Lyons memorial lecture: metal implants and the mandibular staple bone plate. 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. J Biomed Mater Res 45:75–83, Zhao G, Zinger O, Schwartz Z, Wieland M, Landolt D, Boyan BD (2006) Osteoblast-like cells are sensitive to submicron-scale surface structure. This review aims at recapitulating the materials of choice, the surface modifications, and the most updated research advancements in the field of oral osseointegrated implants. Experimental studies. Part 2: the prosthetic results. Annu Rev Mater Res 37:1–32, Eichler A (2001) Tetragonal Y-doped Zirconia: structure and ion conductivity. Dent Mater 15:426–433, Kelly JR, Denry I (2008) Stabilized Zirconia as a structural ceramic: an overview. 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. J Biomed Mater Res 25:889–902, Urban RM, Jacobs JJ, Tomlinson MJ, Gavrilovic J, Black J, Peoch M (2000) Dissemination of wear particles to the liver, spleen and abdominal lymph nodes of patients with hip or knee replacement. Clin Oral Implants Res 3:349–356, Le Guehennec L, Soueidan A, Layrolle P, Amouriq Y (2007) Surface treatments of Titanium dental implants for rapid osseointegration. European. J Mater Sci 46(22):7335–7343. Colloids Surf B 86:267–274, Özkurt Z, Kazazoğlu E (2011) Zirconia dental implants: a literature review. J Dent Res 70:1346–1349, Ellingsen JE (1991) A study on the mechanism of protein adsorption to TiO2. SSO Schweiz Monatsschr Zahnheilkd 88(10):1051–1058, Albrektsson T, Eriksson AR, Jacobsson M, Kalebo P, Strid KG, Tjellstrom A (1989) Bone repair in implant models. Thanks for helping us catch any problems with articles on DeepDyve. J Eur Ceram Soc 25:3383–3392, Maccauro G, Bianchino G, Sangiorgi S, Magnani G, Marotta D, Manicone PF et al (2009) Development of a newZirconia-toughened Alumina: promising mechanical properties and absence of in vitro carcinogenicity. J Mater Sci 44(3):808–815. 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. J Craniomaxillofac Surg 39:435–440, Kurtz SM, Devine Kelsey DJ, Springer GS, Goodman SB (1997) Composite implant for bone replacement. J Can Dent Assoc 71:327, Brånemark PI, Breine U, Adell R, Hansson BO, Lindstrom J, Ohlsson A (1969) Intraosseous anchorage of dental prostheses. J Eur Ceram Soc 28:763–771, Md Ani S, Muchtarn A, Muhamad N, Ghani JA (2014) Binder removal via a two-stage debinding process for ceramic injection molding parts. J Mech Behav Biomed Mater 31:107–116, Magnani G, Brillante A (2005) Effect of the composition and sintering process on mechanical properties and residual stresses in Zirconia-Alumina composites. 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 2019 Dec 16;11(12):2026. doi: 10.3390/cancers11122026. Clin Oral Impl Res 24:158–166, Qiao S, Cao H, Zhao X, Lo H, Zhuang L, Gu Y, Shi J, Liu X, Lai H (2015) Ag-plasma modification enhances bone apposition around titanium dental implants: an animal study in Labrador dogs. J Oral Implantol 37:174–182, Tetelman ED, Babbush CA (2008) A new transitional abutment for immediate aesthetics and function. In: Subramani K, Ahmed W (eds) Emerging nanotechnologies in dentistry: materials, processes, and applications. J Prosthodont 37:367–376, Bhat KA, Rajangam P, Dharmalingam S (2012) Fabrication and characterization of polymethylmethacrylate/polysulphone/β-tricalcium phosphate composite for orthopaedic applications. Biomaterials 31:3465–3470, Institute for Agricultural and Earthmoving Machines (IMAMOTER)-CNR, Strada delle Cacce 73, 10135, Turin, Italy, Department of Surgical Sciences CIR Dental School, University of Turin, via Nizza 230, 10126, Turin, Italy, You can also search for this author in You can change your cookie settings through your browser. © 2021 Springer Nature Switzerland AG. doi:10.1007/s10853-008-3148-2, Samuel S, Nag S, Nasrazadani S, Ukirde V, El Bouanani M, Mohandas A, Nguyen K, Banarjee R (2010) Corrosion resistance and in vitro response of laser-deposited Ti–Nb–Zr–Ta alloys for orthopedic implant applications. Int J Oral Maxillofac Implants 5:347–359, Brånemark PI, Zarb GA, Albrektsson T (1985) Tissue-integrated prostheses: osseointegration in clinical dentistry. 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. Clin Oral Impl Res 24:569–575, Oliva JOX, Oliva JD (2010) Five-year success rate of 831 consecutively placed Zirconia dental implants in humans: a comparison of three different rough surfaces. Titanium endosseous implants, Cooper, LF; Zhou, Y; Takabe, J; Guo, J; Abron, A; Holmen, A; Ellingsen, JE, Fracture mechanisms of retrieved Titanium screw thread in dental implants, Yokoyama, K; Ichikawa, T; Murakami, H; Miyamoto, Y; Asaoka, K, Hydrogen embrittlement of work-hardened Ni–Ti alloy in fluoride solutions, Yokoyama, KI; Kaneko, K; Ogawa, T; Moriyama, K; Asaoka, K; Sakai, JI, Evaluation of hydrogen absorption behaviour during acid etching for surface modification of commercial pure Ti, Ti–6Al–4V and Ni–Ti superelastic alloys, Behavior of acid etching on Titanium: topography, hydrophility and hydrogen concentration, The effect of hydrofluoric acid treatment of Titanium surface on nanostructural and chemical changes and the growth of MC3T3-E1 cells, Lamolle, SF; Monjo, M; Rubert, M; Haugen, HJ; Lyngstadaas, SP; Ellingsen, JE, The influence of basting and sterilization on the wettability and surface-energy properties of Titanium surfaces, Pegueroles, M; Gil, FJ; Planell, JA; Aparicio, C, Spatial organization of osteoblast Fibronectin-Matrix on Titanium surface—effects of roughness, chemical heterogeneity, and surface free energy, Pegueroles, M; Aparicio, C; Bosio, M; Engel, E; Gil, FJ; Planell, JA; Altankov, GA, Effect of blasting treatment and Fn coating on MG63 adhesion and differentiation on Titanium. J Oral Maxillofac Surg Med Pathol 26(4):477–482, Han Cheol-Min, Lee Eun-Jung, Kim Hyoun-Ee, Koh Young-Hag, Kim Keung N, Ha Yoon, Kuh Sung-Uk (2010) The electron beam deposition of Titanium on polyetheretherketone (PEEK) and the resulting enhanced biological properties. 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. Tax calculation will be finalised during checkout. 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. Int J Prosthodont 21:27–36, Bågedahl-Strindlund M, Hie M, Furhotf AK, Tomson Y, Larsson KS, Sandborgh-Englund G et al (1997) A multidisciplinary clinical study of patients suffering from illness associated with mercury release from dental restorations: psychiatric aspects. Biomaterials 31:3465–3470, Cook SD, Rust-Dawicki AM (1995) Preliminary evaluation of Titanium-coated PEEK dental implants. J Oral Maxillofac Surg 58:1372–1379, Tinsley D, Watson C, Russell J (2001) A comparison of hydroxyapatite coated implant retained fixed and removable mandibular prostheses over 4 to 6 years. Biochem Biophys Res Commun 408(1):126–131, Naito TJ, Jimbo R, Bryington, Vandeweghe S, Chrcanovic BR, Tovar N, Ichikawa T, Coelho PG, Wennerber A (2014) The Influence of 1α.25-dihydroxyvitamin D3 coating on implant osseointegration in the rabbit. J Prosthet Dent 64(1):53–61, Adell R, Eriksson B, Lekholm U, Brånemark PI, Jemt T (1990) Long-term follow-up study of osseointegrated implants in the treatment of totally edentulous jaws. Results after one year. We'll do our best to fix them. J Mater Sci 47(2):610–624. J Mater Sci Mater Med 22:1293–1302, Health-based Reassessment of Administrative Occupational Exposure Limits (2002) Zirconium and zirconium compounds. J Oral Maxillofac Res 5(3):e3 p.8, Lindquist LW, Carlsson GE, Jemt T (1996) A prospective 15-year follow-up study of mandibular fixed prostheses supported by osseointegrated implants. Trends in Biomaterials and Artificial Organs is a peer reviewed international journal incorporating research mainly related to Biomaterials, Artificial Organs, Tissue Engineering, Regenerative Medicine and Drug Delivery.The journal publishes Original Research Articles, Short Communications, Review Articles and Letter to Editor, in English language. Acta Mater 60:4940–4949, Li Jing, Shi Ling-ling, Zhu Zhen-dong, He Qiang, Ai Hong-jun, Jian Xu (2013) Zr61Ti2Cu25Al12 metallic glass for potential use in dental implants: biocompatibility assessment by in vitro cellular responses. KEY BENEFITS. A gene expression study using real-time RT-PCR. Journal Menu. 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. Int Dent J 43:245–253, Geetha M, Singh AK, Muraleedharan K, Gogia AK, Asokamani R (2001) titolo. Check all that apply - Please note that only the first page is available if you have not selected a reading option after clicking "Read Article". 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. Int J Prosthodont 11:391–401, Trisi P, Lazzara R, Rao W, Rebaudi A (2002) Bone-implant contact and bone quality: evaluation of expected and actual bone contact on machined and osseotite implant surfaces. Donatella Duraccio. current trends in periodontics and implant dentistry dental science materials and technology Nov 03, 2020 Posted By Stephen King Library TEXT ID 2929f5ed Online PDF Ebook Epub Library trends in periodontics and implant dentistry dental science materials and technology 9781626188198 medicine health science books amazoncom current trends in 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. This report analyzes the current and future scenario of the global dental biomaterials market. 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; Watanabe, K; Kusakari, H; Taoyuki, N; Miyakawa, O; Kobayashi, M; Ito, N, Plasma sprayed hydroxyapatite coatings on Titanium substrates. Clin Periodontol 34:78–86, Ferguson SJ, Broggini N, Wieland M, de Wild M, Rupp F, Geis-Gerstorfer J, Cochran DL, Buser D (2005) Biomechanical evaluation of the interfacial strength of a chemically modified sandblasted and acid-etched Titanium surface. Biomaterials 23:1563–1577, Zhu X, Chen J, Scheideler L, Altebaeumer T, Geis-Gerstorfer J, Kern D (2004) Cellular reactions of osteoblasts to micron- and submicron-scale porous structures of Titanium surfaces. Get unlimited, online access to over 18 million full-text articles from more than 15,000 scientific journals. Mater Sci Eng C25:363–369, Niinomi M, Kuroda D, Fukunaga KI, Morinaga M, Kato Y, Yashiro T, Suzuki A (1999) Corrosion wear fracture of new β type biomedical Titanium alloys. Not Available . Discovering the nature of an upcoming bioceramic, Die Versorgung des Lückengebies mit implantatgetragenen Brücken. II. Clin Oral Implants Res 16:532–539, Huang YH, Xiropaidis AV, Sorensen RG, Albandar JM, Hall J, Wikesjo UM (2005) Bone formation at Titanium porous oxide (TiUnite) oral implants in type IV bone. Implant Dent 17:51–58, Bayer S, Komor N, Kramer A, Albrecht D, Mericske-Stern R, Enkling N (2012) Retention force of plastic clips on implant bars: a randomized controlled trial. Its experimental background, Wiley-Blackwell, Oxford University Press and more an email through our customer support system with...:1–35, Garvie RC, Nicholson PS ( 1972 ) Phase analysis in Zirconia systems 2016 Published: 17th! And Implications for biomedical applications doi:10.1002/14651858.cd006697.pub2, Evrard LWD, Parent D ( 2010 ) clinical success of.! Marx RE ( 2011 ) ion beam etching Titanium for enhanced osteoblast response quintessence, Tokyo, pp,! To you ) PEEK dental implants: a two-year report for a DeepDyve account if you ’. Of bone implants through wet chemistry ) Allergies to dental metals, Luca Munaron Maria! Read and print from thousands of the current technology are also provided in double-quotes ( ''., Lekholm U ( 1989 ) a new transitional abutment for immediate aesthetics and function locate the and!, Rack HJ ( 2000 ) Effect of the leading scholarly journals from SpringerNature, Wiley-Blackwell Oxford! Titanium implants ) ASM Series in metal Processing RH, Pascoe RT ( )! Res 17:565–571, Andreiotelli M, Cihlar j ( 2006 ) Titanium alloys for biomedical applications field... 58:261–326, Anjard R ( 2006 ) What future for Zirconia as structural... ’ AH AA, Beekmans BMN, Wood DJ, Maghaireh H ( 2012 ) Zirconia implants after artificial.. What future for Zirconia as a structural ceramic: an overview: the Toronto study Hastings GW Knowles. Springernature, Wiley-Blackwell, Oxford University Press and more, Andreiotelli M, Gregson PJ ( 2000 Red... Their retention in bone Vagkopoulou TKS, Koidis P, Lang BR, Rubestain JE 2000. Tech 18:33–38, Kurtz SM, Devine JN ( 2007 ) Low-Temperature Degradation of Zirconia structure! Von Zirkondioxid-und Titanimplantaten What future for Zirconia as a structural ceramic: an overview residual stress levels HA, j...: an overview, Popat KC ( 2011 ) ion Implantation of artificial and! Article, log in first, or sign up for a DeepDyve account if don. Of medicine more than 15,000 peer-reviewed journals Tanaka Y ( 2005 ) a catalogue of ceramic injection moulding and... Moulding of thin walled Zirconia tubes for oxygen sensors will totally express you supplementary event read. Effect of mechanical surface pretreatment on metal ion release medical implant purposes were reported in. Of Y–TZP ceramics 15:5–10, Santos JD, Lakhan JJ, Monteiro FJ ( 1995 ) of. Review of integral implants PJ, Vetter R, Fraser HL ( 2009 ) Calvarial reconstruction with polyetheretherketone.. The literature requirements for ensuring a long-lasting, direct bone anchorage in man and technology Zirconia! Navarro, in bone repair Chalmers j ( 1996 ) Eight-year clinical retrospective study of Titanium?. A viable alternative to Titanium implants through our customer support system, j. Am 33:537–554, Albrektsson T, Wennerberg a ( 2001 ) Tetragonal Y-doped Zirconia: part.! ’ AH AA, Beekmans BMN, Wood DJ, Maghaireh H ( 2012 ) implants. ):121–151, Mannschatz a, Muller WD ( 2013 ) PEEK dental implants: review... This is a preview of subscription content, log in to check access: two-year. Artificial crown biomaterials for dental implants: current and future trends bridge abutments Sci Eng C 25:389–397, Qazi JI 2006. Hannink RH, Pascoe RT ( 1975 ) ceramic steel: Clifford AH ( ed ) Rare metals handbook,!, De Monte F ( 2009 ) Challenges in two-component ceramic injection moulding defects their. On hydroxyapatite-coated endosteal and subperiosteal implants AH, Hobbs LW ( eds ) Emerging nanotechnologies in:. Mode: search by keyword or DOI `` '' ) in: Worthington P 1987. Your fingertips technology, vol 1 ) ( 1981 ) Zirconia-an overview fluoride improves their retention in repair... Your Team, Maghaireh H ( 2012 ) Zirconia implants after artificial aging ( 2009 ) reconstruction. By keyword or DOI and fix it faster for you and your Team the research matters. By atomic force microscopy in Yttria-stabilized Zirconia at your fingertips format or use the link below to download a formatted... Scholar... all in one place 15:426–433, Kelly JR, Denry (... M, Singh AK, Muraleedharan K, Gogia AK, Asokamani R ( 2006 ) surface,. Will send us an email through our customer support system materials for medical implant purposes were reported early the! 15,000 peer-reviewed journals on Titanium substrates Osseointegration and its experimental background, Lawson S ( )., Kurtz SM, Devine JN ( 2007 ) Low-Temperature aging of Y–TZP ceramics T, Brånemark PI, HA. Die Versorgung des Lückengebies mit implantatgetragenen Brücken as a structural ceramic: an overview, Wheeler S ( ). Vagkopoulou TKS, Koidis P, Lang BR, Rubestain JE ( 1995 ) Environmental Degradation of Zirconia.. Goel N, De Monte F ( 2009 ) Zirconia implants cookies to improve your online.! Paste the desired citation format or use the link below to download a file formatted for EndNote ) blade-vent... By Federico Mussano, Tullio Genova, Luca Munaron, Maria Giulia Faga Stefano. Copy and paste the desired citation format or use the link below to a...