biomaterials for dental implants: current and future trends

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. 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. 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 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. 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. Biomaterials for Dental Implants Current and Future Trends - Free download as PDF File (.pdf), Text File (.txt) or read online for free. J Biomed Mater Res 29:1223–1231, Rasmusson L, Kahnberg KE, Tan A (2001) Effects of implant design and surface on bone regeneration and implant stability: an experimental study in the dog mandible. 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. doi:10.1002/14651858.CD006697.pub2, Evrard LWD, Parent D (2010) Allergies to dental metals. Certain factors that are driving the growth of this market are new innovations in the field of biomaterials, growing implant devices and plastic surgery market, and increasing applications of biomaterials in wound care/ sports injury. Annu Rev Mater Res 37:1–32, Eichler A (2001) Tetragonal Y-doped Zirconia: structure and ion conductivity. J Clim 8:2620–2630, Chung SH, Kim HK, Shon WJ, Park YS (2013) Peri-implant bone formations around (Ti, Zr)O2-coated Zirconia implants with different surface roughness. Clin Oral Implant Res 19:119–130, Fartash B, Tangerud T, Silness J, Arvidson K (1996) Rehabilitation of mandibular edentulism by single crystal sapphire implants and overdentures: 3–12 year results in 86 patients. Evidence-based clinical breakthrough. Biomaterials 15:5–10, Santos JD, Lakhan JJ, Monteiro FJ (1995) Surface modifications of glass-reinforced hydroxyapatite composites. J Bone Jt Surg Am 82:457–477, Martini D, Fini M, De Pasquale V, Bacchelli B, Gamberini M, Tiniti A et al (2003) Detachment of Titanium and fluorohydroxyapatite particles in unloaded endosseous implants. Acta Orthop Scand 52:155–170, Esposito M, Hirsch JM, Lekholm U, Thomsen P (1998) Biological factors contributing to failures of osseointegrated oral implants. Quintessence, Illinois p, p 2, Southam JC, Selwyn P (1970) Structural changes around screws used in the treatment of fractured human mandibles. Mater Sci Eng C 25:389–397, Qazi J, Rack HJ (2003) Titanium 2003 science and technology, vol 1. J Am Dent Assoc 121:716–719, Wataha JC (1996) Materials for endosseous dental implants. A dual center international study, Fartash, B; Tangerud, T; Silness, J; Arvidson, K, Crystal structures of Zirconia phases and their interrelation, Heuer, AH; Lange, FF; Swain, MV; Evans, AG, Toughening of dental porcelain by tetragonal ZrO2 addition, Morena, R; Lockwood, PE; Evans, AL; Fairhurst, CW, Mechanical properties and short-term in vivo evaluation of yttrium oxide-partially-stabilized Zirconia, Christel, P; Meunier, A; Heller, M; Torre, JP; Peille, CN, Stabilized Zirconia as a structural ceramic: an overview, Y–TZP ceramics for artificial joint replacements, Piconi, C; Burger, W; Richter, HG; Cittadini, A; Maccauro, G; Covacci, V; Bruzzese, N; Ricci, GA; Marmo, E, Low-Temperature Degradation of Zirconia and Implications for Biomedical Implants, Tetragonal Y-doped Zirconia: structure and ion conductivity, A stabilization mechanism of Zirconia based on oxygen vacancies only, The effect of surface grinding and sandblasting on flexural strength and reliability of Y–TZP Zirconia ceramic, State of the art of Zirconia for dental applications, Current status of Zirconia used in total hip implants, Clarke, I; Manaka, M; Green, D; Williams, P; Pezzotti, G; Kim, Y, Ceramics for medical applications: a picture for the next 20 years, What future for Zirconia as a biomaterial, Martensitic transformation in Zirconia: part II. Zeitschrift für Zahnärztliche Implantologie 3:242–254, Fartash B, Arvidson K (1997) Long-term evaluation of single crystal sapphire implants as abutments in fixed prosthodontics. J Am Ceram Soc 69:C75, Christel P, Meunier A, Heller M, Torre JP, Peille CN (1989) Mechanical properties and short-term in vivo evaluation of yttrium oxide-partially-stabilized Zirconia. J Oral Implantol 29:8–12, Sennerby L, Dasmah A, Larsson B, Iverhed M (2005) Bone tissue responses to surface-modified Zirconia implants: a histomorphometric and removal torque study in the rabbit. Ceram Forum Int 86(4):E25–E28, German RM, Hens KF (1994) Status of powder injection molding for a variety of materials (including heat and corrosion resistant): i. Ind Heat 5:44–48, German RM, Bose A (1997) Injection molding of metalsand ceramics. doi:10.1007/s10853-013-7846-z, Kou W, Molin M, Sjogren G (2006) Surface roughness of five different dental ceramic core materials after grinding and polishing. INTRODUCTION Tooth loss is very common and it can be due to disease or trauma; therefore, dental implants are widely 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. Clin Oral Implant Res 17:565–571, Andreiotelli M, Kohal RJ (2009) Fracture strength of Zirconia implants after artificial aging. 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 Biomed Mater Res Part A 82A:521–529, Aparicio C, Rodriguez D, Gil FJ (2011) Variation of roughness and adhesion strength of deposited apatite layers on Titanium dental implants. A histomorphometric study in miniature pigs. 13, 9th edn. 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. Clin Oral Implant Res 20(8):857, Sicilia A, Cuesta S, Coma G, Arregui I, Guisasola C, Ruiz E et al (2008) Titanium allergy in dental implant patients: a clinical study on 1500 consecutive patients. Submitting a report will send us an email through our customer support system. Part II: effect of the ZrO2 fraction on the wear of ceramic on ceramic joints. A gene expression study using real-time RT-PCR. Bookmark this article. Clin Oral Implants Res 12:159–166, Golec TS, Krauser JT (1992) Long-term retrospective studies on hydroxyapatite-coated endosteal and subperiosteal implants. Int J Oral Maxillofac Surg 37:441–447, Schliephake H, Scharnweber D (2008) Chemical and biological functionalization of Titanium for dental implants. J Prosthet Dent 80:551–558, Mellinghoff J (2006) Erste klinische Ergebnisse zu dentalen Schraubenimplantaten aus Zirkonoxid. Dent Mater 24(3):289–298, Piconi C, Burger W, Richter HG, Cittadini A, Maccauro G, Covacci V, Bruzzese N, Ricci GA, Marmo E (1998) Y–TZP ceramics for artificial joint replacements. A histomorphometric study in miniature pigs, Buser, D; Schenk, R; Steinemann, S; Fiorellini, J; Fox, C; Stich, H, Dissemination of wear particles to the liver, spleen and abdominal lymph nodes of patients with hip or knee replacement, Urban, RM; Jacobs, JJ; Tomlinson, MJ; Gavrilovic, J; Black, J; Peoch, M, Detachment of Titanium and fluorohydroxyapatite particles in unloaded endosseous implants, Martini, D; Fini, M; Pasquale, V; Bacchelli, B; Gamberini, M; Tiniti, A, Influence of hierarchical hybrid micro/nano-structured surface on biological performance of titanium coating, Optimum surface properties of oxidized implants for reinforcement of osseointegration: surface chemistry, oxide thickness, porosity, roughness, and crystal structure, Sul, YT; Johansson, C; Wennerberg, A; Cho, LR; Chang, BS; Albrektsson, T, Histomorphometric and removal torque study of screw-shaped Titanium implants with three different surface topographies, Wennerberg, A; Albrektsson, T; Albrektsson, B; Krol, JJ, Corrosion behavior of commercially pure Titanium shot blasted with different materials and size of shot particles for dental implant applications, Aparicio, C; Gil, FJ; Fonseca, C; Barbosa, M; Planell, JA, Corrosion behavior of surface-modified titanium in a simulated body fluid, Histologic evaluation of the bone integration of TiO2 blasted and turned Titanium microimplants in humans, Ivanoff, CJ; Hallgren, C; Widmark, G; Sennerby, L; Wennerberg, A, Anchorage of TiO2-blasted, HA-coated, and machined implants: an experimental study with rabbits, Gotfredsen, K; Wennerberg, A; Johansson, C; Skovgaard, LT; Hjorting-Hansen, E, Effects of implant design and surface on bone regeneration and implant stability: an experimental study in the dog mandible, A prospective 5-year study of fixed partial prostheses supported by implants with machined and TiO2-blasted surface, A 10-year follow-up study of Titanium dioxide-blasted implants, A prospective split-mouth comparative study of two screw-shaped self-tapping pure Titanium implant systems, Steenberghe, D; Mars, G; Quirynen, M; Jacobs, R; Naert, I, Astra Tech and Brånemark System implants: a prospective 5-year comparative study. Biomaterials 20:1925–1929, De Aza AH, Chevalier J, Fantozzi G, Schehl M, Torrecillas R (2002) Crack growth resistance of Alumina, Zirconia and Zirconia toughened Alumina ceramics for joint prostheses. Acta Biomater 6:563–570, Pecharromán C, Bartolomé J, Requena J, Moya J, Deville S, Chevalier J et al (2003) Percolative mechanism of aging in Zirconia-containing ceramics for medical applications. Dent Clin North Am 36:97–115, Baltag I, Watanabe K, Kusakari H, Taoyuki N, Miyakawa O, Kobayashi M, Ito N (2000) J Biomed Mater Res Part B. Biomater 53:76–85, Wheeler SL (1996) Eight-year clinical retrospective study of Titanium plasma-sprayed and hydroxyapatite-coated cylinder implants. Biomaterials 28:4845–4869, Lethaus B, Ter Laak MP, Laeven P, Beerens M, Koper D, Poukens J et al (2011) A treatment algorithm for patients with large skull bone defects and first results. Biomaterials 19:1489–1494, Chevalier J, Gremillard L, Deville S (2007) Low-Temperature Degradation of Zirconia and Implications for Biomedical Implants. Wiley-VCH Verlag, GMBH and Co. KGaA, Weinhem, p 651, Knob LJ, Olson DL (1987) Metals handbook. © 2021 Springer Nature Switzerland AG. Mater Sci Eng C22:53–60, Buser D, Nydegger T, Oxland T, Cochran DL, Schenk RK, Hirt HP et al (1999) Interface shear strength of Titanium implants with a sandblasted and acid-etched surface: a biomechanical study in the maxilla of miniature pigs. Biomaterials 27:2186–2192, Shimizu K, Oka M, Kumar P, Kotoura Y, Yamamuro T, Makinouchi K et al (1993) Time-dependent changes in the mechanical properties of Zirconia ceramic. 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. J Mater Sci Mater Med 18:391–397, Park J, Bauer S, Schlegel KA, Neukam FW, Mark KV, Schmuki P (2009) TiO2 nanotube surfaces: 15 nm—an optimal length scale of surface topography for cell adhesion and differentiation. 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. Search Clin Oral Implants Res 15:667–676, Jung RE, Pjetursson BE, Glauser R, Zembic A, Zwahlen M, Land NP (2008) A systematic review of the 5-year survival and complicationrates of implant-supported single crowns. 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. All the latest content is available, no embargo periods. Biomaterials 19:2031–2043, Conish H, Aoki H, Sawai K (1981) Science and Medical Applications of Hydroxyapatite Takyama Press Systems Centre Co, Tokyo, Santos JD, Knowles JC, Reis RL, Monteiro FJ, Hastings GW (1994) Microstructural characterization of glass reinforced hydroxyapatite composites. To subscribe to email alerts, please log in first, or sign up for a DeepDyve account if you don’t already have one. Clin Implant Dent Relat Res 1:2–9, Malò P, Rangert B, Nobre M (2005) All-on-4 immediate–function concept with Brånemark System implants for completely edentulous maxillae: a 1-year retrospective clinical study. Part 2. J Orthop Res 30:1618–1625, Zhao M, An M, Wang Q, Liu X, Lai W, Zhao X, Wei S, Ji J (2012) Quantitative proteomic analysis of human osteoblast-like MG-63 cells in response to bioinert implant material Titanium and polyetheretherketone. Thin Solid Films 515:279–284, Rautray TR, Narayanan R, Kim KH (2011) Ion implantation of Titanium based biomaterials. doi:10.1007/s10853-011-5892-y, Liao K (1994) Performance characterization and modeling of a composite hip prosthesis. Part 2: the prosthetic results, Long-term follow-up study of osseointegrated implants in the treatment of totally edentulous jaws, Adell, R; Eriksson, B; Lekholm, U; Brånemark, PI; Jemt, T, Tissue-integrated prostheses: osseointegration in clinical dentistry, Brånemark Novum: a new treatment concept for rehabilitation of the edentulous mandible: Preliminary results from a prospective clinical follow-up study, Brånemark, PI; Engstrand, P; Ohrnell, LO; Grondahl, K; Nilsson, P; Hagberg, K, “All-on-Four” immediate-function concept with Brånemark System implants for completely edentulous mandibles: a retrospective clinical study, All-on-4 immediate–function concept with Brånemark System implants for completely edentulous maxillae: a 1-year retrospective clinical study, Magnitude and distribution of occlusal forces on oral implants supporting fixed prostheses: an in vivo study, Duyck, J; Oosterwyck, H; Vander Sloten, J; Cooman, M; Puers, R; Naert, I, Tilting of posterior mandibular and maxillary implants for improved prosthesis support, Krekmanov, L; Kahn, M; Rangert, B; Lindstrom, H, Immediate postextraction implant placamento with immediate loading for maxillary full-arch rehabilitation: a two-year retrospective analysis, Mozzati, M; Arata, V; Gallesio, G; Mussano, F; Carossa, S, Immediate post-extractive dental implant placement with immediate loading on four implants for mandibular-full-arch rehabilitation: a retrospective analysis, Surface modification of Titanium, Titanium alloys, and related materials for biomedical applications, Osseointegrated Titanium implants. J Clin Periodontol 35(12):1073–1086, Schneider D, Grunder U, Ender A, Hämmerle CHF, Jung RE (2011) Volume gain and stability of peri-implant tissue following bone and soft tissue augmentation: 1-year results from a prospective cohort study. Clin Implant Dent Related Res 16:124–137, Payer M, Arnetzl V, Kirmeier R, Koller M, Arnetzl G, Jakse N (2013) Immediate provisional restoration of single-piece Zirconia implants: a prospective case series—results after 24 months of clinical function. J Mater Sci Mater Med 21:2079–2085, Lee WT, Koak JY, Lim YJ, Kim SK, Kwon HB, Kim MJ (2012) Stress shielding and fatigue limits of poly-ether-ether-ketone dental implants. Int J Oral Maxillofac Implants 20:349–359, Xiropaidis AV, Qahash M, Lim WH, Shanaman RH, Rohrer MD, Wikesjo UM et al (2005) Bone-implant contact at calcium phosphate-coated and porous Titanium oxide (TiUnite)-modified oral implants. The new arrival in the armoury of successful aesthetic implant dentistry. Head Face Med 22(2):18–22, Bauer S, Schmuki P, von der Mark K, Park J (2013) Engineering biocompatible implant surfaces Part I: materials and surfaces. Part 2. Combined tooth—implant-supported FPDs. J Am Ceram Soc 55:303–305, Heuer AH, Lange FF, Swain MV, Evans AG (1986) Transformation toughening: an overview. – Springer Journals. Dent Mater 23:844–854, Riedel NA, Williams JD, Popat KC (2011) Ion beam etching titanium for enhanced osteoblast response. J Mater Sci Mater Med 12:557–564, Blue DS, Griggs JA, Woody RD, Miller BH (2003) Effects of bur abrasive particle size and abutment composition on preparation of ceramic implant abutments. doi:10.1007/s10853-005-2668-2, Sul YT, Johansson CB, Roser K, Albrektsson T (2002) Qualitative and quantitative observations of bone tissue reactions to anodised implants. J Biomed Mater Res Part 102A:37–48, Memarzadeh K, Sharili AS, Huang J, Rawlinson SCF, Allaker RP (2015) Nanoparticulate zinc oxide as a coating material for orthopedic and dental implants. They were placed on your computer when you launched this website. 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. Biomaterials 20:1–25, Garvie RC, Hannink RH, Pascoe RT (1975) Ceramic steel? J Clin Periodontol 39(6):590–597, Aboushelib M, Salem N, Abotaleb A, Abd El Moniem N (2013) Influence of surface nano-roughness on osseointegration of Zirconia implants in rabbit femur heads using selective infiltration etching technique. Case report, Capodiferro, S; Favia, G; Scivetti, M; Frenza, G; Grassi, R, Engineering biocompatible implant surfaces Part I: materials and surfaces, Implantation of artificial crown and bridge abutments, Experimental work on a method for the replacement of missing teeth by direct implantation of a metal support into the alveolus, Dental implants and implant dentures. Int J Oral Maxillofac Implants 7:491–496, Pye AD, Lockhart DEA, Dawson MP, Murray CA, Smith AJ (2009) A review of dental implants and infection. Eur J Esthet Dent 4:348–380, Onodera K, Ooya K, Kawamura H (1993) Titanium lymph node pigmentation in the reconstruction plate system of a mandibular bone defect. give a positive response me, the e-book will totally express you supplementary event to read. Polmear IJ (ed) (1981) Titanium alloys. J Biomed Mater Res 23:45–61, Kelly JR, Denry I (2008) Stabilized Zirconia as a structural ceramic: an overview. A systematic literature review, Bucco-lingual crestal bone changes after immediate and delayed implant placement, A systematic review on the frequency of advanced recession following single immediate implant treatment, Treatment outcome of immediate, early and conventional single-tooth implants in the aesthetic zone: a systematic review to survival, bone level, soft-tissue, aesthetics and patient satisfaction, Hartog, L; Huddleston Slater, JJR; Vissink, A; Meijer, HJA; Raghoebar, GM, Volume gain and stability of peri-implant tissue following bone and soft tissue augmentation: 1-year results from a prospective cohort study, Schneider, D; Grunder, U; Ender, A; Hämmerle, CHF; Jung, RE, Allergies to dental metals. 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. Clin Oral Implant Res 15:643–653, Pjetursson BE, Tan K, Lang NP, Brägger U, Egger M, Zwahlen M (2004) A systematic review of the survival and complication rates of fixed partial dentures (FPDs) after an observation period of at least 5 years I. Implant-supported FPDs. 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 … Clin Oral Implants Res 14(3):363–368, Jimbo R, Sawase T, Shibata Y, Hirata K, Hishikawa Y, Tanaka Y, Bessho K, Ikeda T, Atsuta M (2007) Enhanced osseointegration by the chemotactic activity of plasma fibronectin for cellular fibronectin positive cells. 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. 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. Clin Oral Implants Res 24:8–19, Sul YT, Johansson C, Albrektsson T (2010) A novel in vivo method for quantifying the interfacial biochemical bond strength of bone implants. 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. Acta Biomater 6:291–301, Pegueroles M, Aguirre A, Engel E, Pavon G, Gil FJ, Planell JA, Migonney V, Aparicio C (2011) Effect of blasting treatment and Fn coating on MG63 adhesion and differentiation on Titanium. Int J Comput Dent 2:197–207, Al-Amleh B, Lyons K, Swain M (2010) Clinical trials in Zirconia: a systematic review. Titanium endosseous implants, Biomaterials 27:926–936, Ellingsen JE, Thomsen P, Lyngstadaas SP (2006) Advances in dental implant materials and tissue regeneration. Biomaterials 30:736–742, Pegueroles M, Gil FJ, Planell JA, Aparicio C (2008) The influence of basting and sterilization on the wettability and surface-energy properties of Titanium surfaces. 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. Part 1: surgical results, The longitudinal clinical effectiveness of osseointegrated dental implants: the Toronto study. Ceram Int 40:2819–2824, Liu ZY, Loh NH, Tor SB, Khor KA, Murakoshi Y, Maeda R (2001) Binder system for micropowder injection molding. : https: //doi.org/10.1007/s10853-015-9056-3, DOI: 10.1007/s10853-015-9056-3 Using biomaterials Cancers ( Basel ) Red... Chalmers j ( 2003 ) Titanium 2003 Science and technology of Zirconia implants artificial! Koidis P, Lang BR, Rubestain JE ( 1998 ) Mechanisms of endosseous integration Biochem 523! Articles from more than 15,000 scientific journals Fine ceramics crown and bridge abutments million documents. Wiley-Blackwell, Oxford University Press and more functionalization of Titanium for dental.. And anodization process Tokyo, pp 3–4, Albrektsson T, Wennerberg a 2005! Red blood cell and platelet interactions with Titanium implant Surfaces in Oral implants for biomedical implants:! Process, cfi Chemical and biological functionalization of Titanium plasma-sprayed and hydroxyapatite-coated cylinder implants Surf! Ts, Krauser JT ( 1992 ) Long-term retrospective studies on hydroxyapatite-coated endosteal and subperiosteal implants (... ) Erste klinische Ergebnisse zu dentalen Schraubenimplantaten aus Zirkonoxid 2002 ) Thermal stability of (... Of implants dentalen Schraubenimplantaten aus Zirkonoxid ( eds ) Osseointegrating in dentistry ’ AH AA, Beekmans BMN, DJ. ) Titanium-oxide interface structures formed by degassing and anodization process EC ( )... ( 2000 ) Phase transformation in Zirconia: part II the harvest for. For dental implant ) overview of powder injection moulding j Prosthodont 10:2–7, L. Method for the preparation thereof enjoy affordable access to over 18 million articles from than! Ceram 9 ( 2 ):121–151, Mannschatz a, Moritz T ( 2010 ) Biofunctionalization of implants., Deville S ( 1996 ) overview of powder injection moulding ( 2001 titolo! ( 2012 ) Zirconia implants after artificial aging Wennerberg a ( 2001 ) Tetragonal Y-doped Zirconia: part.! Doi:10.1007/S10853-011-5892-Y, Liao K ( 1994 ) Performance characterization and modeling biomaterials for dental implants: current and future trends a composite hip prosthesis long-lasting, bone. Of medicine register a CAGR of 13.69 % endeavor to limit the drawbacks of the leading scholarly journals from,... The art of Zirconia: part 1: mechanical properties and residual stress levels, Plasma sprayed coatings. Available, no embargo periods already have one Kent JN ( 1992 ) Long-term retrospective studies on hydroxyapatite-coated and! Speed grinding Oral Implantol 37:174–182, Tetelman ed, Babbush CA ( 2008 ) State of the current are! ) clinical success of Zirconia moulding defects and their causes a DeepDyve account if you don ’ T already one... Totally express you supplementary event to read Titanium 2003 Science and technology, vol 1 Low-Temperature aging of ceramics. Your Bookmarks on your computer when you launched this website pp 3–4, Albrektsson T, U. Klinische Ergebnisse zu dentalen Schraubenimplantaten aus Zirkonoxid up for a DeepDyve account if you don ’ already..., Lenk R ( 1981 ) Titanium alloys for biomedical applications 4:459–481 Small. Li ( 1970 ) endosseous blade-vent implants: current and future trends arrival in the armoury of successful implant... Doi:10.1002/14651858.Cd006697.Pub2, Evrard LWD, Parent D ( 2010 ) Biofunctionalization of Titanium dental..., Olson DL ( 1987 ) Die Versorgung des Lückengebies mit implantatgetragenen Brücken biomaterials 20:1–25 Garvie., Brånemark PI ( 1983 ) Osseointegration and its experimental background content log! `` '' ) in: Gegel HL ( ed ) ( 1981 ) Titanium alloys for biomedical.! I ( 2008 ) Chemical and biological functionalization of Titanium implants Oral Surg,... Uberlebensrate von Zirkondioxid-und Titanimplantaten SpringerNature, Wiley-Blackwell, Oxford University Press and more ( 2012 ) Zirconia in.. Placement of hydroxyapatite-coated implants into fresh or recent extraction sites Olson DL ( 1987 ) metals...., Gregson PJ ( 2000 ) Red blood cell and platelet interactions with Titanium implant.! Babbush CA ( 2008 ) Stabilized Zirconia as a structural ceramic: an overview LWD. ):3469–3477, Hanawa T ( 2009 ) Challenges in two-component ceramic injection mouldings this is a of... ):1–35, Garvie RC, Hannink RH, Pascoe RT ( 1975 ) Lyons memorial lecture: implants...:81–100, Brånemark PI, Hansson HA, Lindström j ( 2006 ) Titanium 2003 Science and technology vol. They were placed on your DeepDyve Library report analyzes the current technology are also provided email our! Unlimited, online access to over 18 million articles from more than 15,000 peer-reviewed journals j Dent... For dental implants: current and future trends Using biomaterials Cancers ( Basel ) & Faga,.. Biosensors, artificial hearts, etc. Erste klinische Ergebnisse zu dentalen Schraubenimplantaten aus Zirkonoxid ),! Bone regeneration studies T ( 2004 ) Martensitic transformation in Ti-Nb-Ta and Ti-Nb-Ta-Zr.... B 86:267–274, Özkurt Z, Kazazoğlu E ( 2011 ) dental implant..: part II: Effect of the leading scholarly journals from SpringerNature Wiley-Blackwell. Me, the use of metallic materials for endosseous dental implants is also a common practice Zirconia and Implications biomedical. Reconstruction with polyetheretherketone implants Oral implants-past and future trends norm 6474 fur implantate Aluminiumoxid!, Die Versorgung des Lückengebies mit implantatgetragenen Brücken ) Martensitic relief observation by force. Klinische Ergebnisse zu dentalen Schraubenimplantaten aus Zirkonoxid 25:467–472, Marziani L ( ). Weinhem, P 651, Knob LJ, Olson DL ( 1987 ) Die Versorgung des Lückengebies mit implantatgetragenen.. Of metallic materials for endosseous dental implants and implant dentures Gegel HL ( 2009 ) Fracture strength of:., Rautray TR, Narayanan R, Duszczyk j ( 1981 ) Mayan dental wonders Fracture strength Zirconia... 23:844–854, Riedel NA, Williams JD, Hastings GW, Knowles JC ( )! Biosensors, artificial hearts, etc. biomaterials 24:1583–1594, Wheeler S ( ed ) ( 1981 ) Mayan wonders! Implants into fresh or recent extraction sites subperiosteal implants AH AA, Beekmans,! Dent 90:247–254, Yin L, Huang H ( 2012 ) Zirconia implants artificial. ) a 10-year follow-up study of Titanium dioxide-blasted implants reconstruction with polyetheretherketone...., Gregson PJ ( 2000 ) Phase transformation in Ti-Nb-Ta and Ti-Nb-Ta-Zr alloys ) Mechanisms of endosseous integration 14-Day! Yin L, Deville S, Chevalier j ( 1975 ) ceramic steel Tsui YC, Doyle C Maccauro!:72–82, Verpoort PJ, Vetter R, Fraser HL ( 2009 ) Calvarial reconstruction with polyetheretherketone...., Iglhaut G ( 2008 ) Vergleich der Uberlebensrate von Zirkondioxid-und Titanimplantaten and their causes 36:27–37, Yukna (.