O papel da adsorção de proteínas na osseointegração
Abstract
A interface formada por tecidos e biomateriais tem grande importância em aplicações biomédicas, tais como o desenvolvimento de biomateriais para implantes dentários. A adsorção de proteínas desempenha um papel importante na interação entre biomaterial e tecidos. Após a implantação ocorre interação essencial de proteínas com superfícies de implantes dentários a qual pode afetar a posterior adesão, migração e diferenciação das células. A adsorção de proteínas é um processo dinâmico acionado por fatores chave (parâmetros pertinentes às proteínas, volume e superfície do titânio, condições do paciente). Este estudo tem por objetivo discutir a influência da adsorção de proteínas na osseointegração.Descritores: Adsorção; Sinais Direcionadores de Proteínas; Osseointegração; Implantes Dentários.
Downloads
References
Martins OPM. Estudo, in vivo, de uma hidroxiapatite de arquitectura optimizada [dissertação]. Coimbra: Universidade de
Coimbra; 2009.
Ferreira ES. Interação da albumina do soro bovino (BSA) com substratos sintéticos [tese]. Ribeirão Preto: Universidade de São Paulo; 2009.
Ribeiro CO. Comportamento de proteínas em stents vasculares modificados por pulverização catódica [dissertação]. Coimbra: Universidade de Coimbra; 2009.
Dolatshahi-Pirouz A, Rechendorff K, Hovgaard M B, Foss M, Chevallier J, Besenbacher F. Bovine serum albumin adsorption on nano-rough platinum surfaces studied by QCM-D. Colloids Surf B Biointerfaces. 2008;66(1):53-9.
Completo CDS. Adsorcao de albumina bovina e acido hialuronico em ceramicos de titânio [dissertação]. Lisboa: Instituto Superior Tecnico; 2008.
Kim JH, Yoon JY. Protein adsorption on polymer particles. In: Encyclopedia of Surface and Colloidal Science; Hubbard TA, Ed. New York: Marcel Dekker, pp 4373–81.
Horbett TA. Principies underlying the role of adsorbed plasma proteins in blood interaction with foreign materiais. Cardiovasc Pathol.1993; 2(3):S137- S148.
Yaseen M, Salacinski HJ, Seifalian AM, Lu JR. Dynamic protein adsorption at the polyurethane copolymer/water interface. Biomed Mater. 2008;3(3):034123.
Bonfield W, Tanner KE. Biomaterials - A new generation. Materials World. 1997;5(1):18-20.
Brash JL, Lyman DJ. Adsorption of plasma proteins in solution to uncharged, hydrophobic polymer surfaces. J Biomed Mater Res.1969;3(1):175-89.
Young BR, Pitt WG, Cooper SL. Protein adsorprion on polymeric biomaterials I. adsorption isotherms. J Colloid Interface Sci. 1988;124(1): 28-43.
Langmuir I. The adsorption of gases on plane surfaces of glass, mica and platinum. J Am Chem Soc. 1918;40(9):1361–1403.
Nogueira DAR. Adsorção de proteínas na superfície de biomateriais poliméricos [dissertação]. Campinas: Universidade Estadual de Campinas; 1999.
Latour RA. Biomaterials: Protein–surface interactions. In: Wnek GE, Bowlin GL, editores. The encyclopedia of biomaterials and bioengineering, 2ª ed. New York: Informa Healthcare; 2008. vol. 1, p. 270-84.
Busquim TP. Estudo invitro e in vivo da osseointegração de implantes de titânio com superfície biomimetizada [tese]. São Carlos: Universidade Federal de São Carlos; 2012
Kirst-Post L. Análise da resposta tecidual em diferentes superfícies implantares – estudo em modelo experimental coelho [tese]. Porto Alegre: Pontificia Universidade Catolica do Rio Grande do Sul; 2009.
Sevastyanov VIA. interrelation of protein adsorption and blood compatibility of biomaterials, cap. 21, In: M Szycher, editors. High Performance Biomaterials. A Comprehensive Guide to Medical and Pharmaceutical Applications. Basel: Technomic Publishing AG; 1991. cap. 21.
De Oliveira JA, do Amaral Escada AL; Alves Rezende MC, Mathor MB; Alves-Claro, AP. Analysis of the effects of irradiation in osseointegrated dental implants. Clin Oral Impl Res. 2012; 23(4):511-4.
Okamoto T, Alves-Rezende MC, Okamoto AC, Buscariolo IA, Garcia IR Jr: Osseous regeneration in the presence of fibrin adhesive material(Tissucol) and epsilon-aminocaproic acid (EACA). Braz Dent J. 1995; 6(2):77-83
Okamoto T, Okamoto R, Alves-Rezende MC, Gabrielli MF: Interference of the blood clot on granulation tissue formation after tooth extraction. Histomorphological study in rats. Braz Dent J. 1994; 5(2):85-92.
Alves Rezende MCR, Fiorin LG, Cury MTS, Gonçalves VM, Alves Rezende LGR, Wada CM, Rangel ALR, Alves Claro APR. Efeito do ácido tranexâmico associado à cola de fibrina sobre o reparo ósseo: estudo histológico em ratos. Arch Health Invest. 2014; 3(4): 59-65.
Lyman DJ, Muir WM, Lee IJ. The effect of chemical structure and surface properties of polymers on the coagulation of blood. I. Surface free energy effects. Trans Am Soc Artif Intern Organs.1965;11:301–6.
Nyilas E, Morton WA, Lederman DM, Chiu TH, Cumming RD. Interdependence of hemodynamic and surface parameters in thrombosis. Trans Am Soc Artif Intern Organs.1975;21:55–70.
Xiong TY, Cui X, Kim HN, Kawashita M., Kokubo T, Wu J, Jin H, Nakamura T., Effect of Surface Morphology and Crystal Structure on Bioactivity of Titania Films Formed on Titanium Metal via Anodic Oxidation in Sulfuric Acid Solution. In: Key Engineering Materials. Stafa-Zurich: Trans Tech Publications; 2009.p.254 – 256, 375-378.
Lu DR, Park K. Effect of surface hidrofobicity on the conformational changes of adsorbed fibrinogen. J Colloid Interface Sci. 1991;144(1):271-81.
Kasemo B, Lausmaa J. Surface Science Aspects on Inorganic Biomaterials. Crc Crit Rev Biocomp, 1986. 2(4):335-80.
Read MJ, Burkett SL, Mayes AM. Control and characterization of protein adsorption on ceramic surfaces. In: Panjian L (Editor). Mineralization in Natural and Synthetic Biomaterials. Cambridge: Cambridge University Press; 2000. p.337-342.
Becker RC, Spencer FA. Thrombin: structure, biochemistry, measurement andstatus in clinical medicine. J Thromb Thrombolys. 1998;5(3) 215-29.
Yuan Y, Liu C, Yin M. Plasma polymerized n-butyl methacrylate coating with potential for re-endothelialization of intravascular stent devices. J Mater Sci Mater Med. 2008;19(5):2187-96.
Dahlback B. Blood coagulation and its regulation by anticoagulant pathways: genetic pathogenesis of bleeding and thrombotic diseases. J Intern Med. 2005,57:209-223.
Roberts I, Shakur H, Ker K, Coats T, CRASH-2 trial collaborators. Antifibrinolytic therapy for acute traumatic injury. Cochrane Database Syst Rev. 2011;19(1):CD004896
Alves Rezende MCR, Wada CM, Capalbo LC, Gonçalves VM. Adesivo tecidual de fibrina e sua aplicação na implantodontia. Arch Health Invest.2014;3(6): 55-60.
Alves Rezende MC, Alves AP, Codaro EM, Dutra CA. Effect of comercial mouthwashes on the corrosion resistance of Ti-10Mo experimental alloy. J Mater Sci Mater Med. 2007;18(1):149-54.
Claro APRA, de Oliveira JAG, Escada AL do A, Carvalho LMF, Louzada MJQ, Rezende MCRA. Histological analysis of the osseointegration of Ti-30Ta dental implants after surface treatment. In: Ochsner A, da Silva LFM, Altenbach H, editors. Characterization and Development of Biosystems and Biomaterials. Advanced Structured Materials. Berlin: Springer-Verlag; 2013. p. 175-181.
Escada AL, Machado JP, Schneider SG, Rezende MC, Claro AP. Biomimetic calcium phosphate coating on Ti-7.5Mo alloy for dental application. J Mater Sci Mater Med. 2011; 22(11):2457-65.
Misch CE, Dietsh F. Bone‐grafting materials in implant dentistry. Implant Dent. 1993;2(3):158‐67.
Pinto LESC. Tratamento químico da superfície de implantes de titânio [dissertação]. Rio de Janeiro: Instituto Militar de Engenharia; 2006.
Eisenbarth E, Velten D, Schenk-Meuser K, Linez P, Biehl V, Duschner H, et al. Interactions between cells and titanium surfaces. Biomol Eng. 2002;19(2-6):243-9.
Nygren H, Tengvall P, Lundström I. The initial reactions of TiO2 with blood. J Biomed Mater Res. 1997;34(4):487-92 .
Textor M, Sitting C, Frauchiger V, Tosatti S, Brunette D. Properties and biological significance of natural oxide films on titanium and its alloys. Titanium Med 2001;7:171-224.
Eliades T. Passive film growth on titanium alloys: Physicochemical and biological considerations. Int J Oral Maxillofac Implants. 1997;12(5):621-7.
Ellingsen JE, Johansson CB, Wennerberg A, Holmén A. Improved retention and bone-to-implant contact with fluoride-modified titanium implants. Int J Oral Maxillofac Implants. 2004;19(5):659-66.
Yoshinari M, Oda Y, Kato T, Okuda K. Influence of surface modifications to titanium on antibacterial activity in vitro. Biomaterials. 2001;22(14):2043-8.
Williams DF. Titanium as a metal for implantation. Part 1: physical properties. J Med Eng Technol. 1977;1(4):195-8, 202.
Williams DF. Titanium as a metal for implantation. Part 2: biological properties and clinical applications. J Med Eng Technol. 1977;1(5):266-70.
Solar RJ, Pollack SR, Korostoff E. In vitro corrosion testing of titanium surgical implant alloys: an approach to understanding titanium release from implants. J Biomed Res. 1979;13(2):217-50.
Gil L de M, Ladeira TC, Menezes GC, Silva Filho FC. A interface célula-matriz extracelular-biomaterial e a biocompatibilidade de implantes de titânio. Innov Implant J Biomater Esthet. 2009;4(3):58-64.
Buser D, Mericske-Stern R, Bernard JP, Behneke A, Behneke N, Hirt HP, Belser UC, Lang NP. Long –term evaluation of non-submerged ITI implants. Part 1: 8-year life table analysis of a prospective multi-center study with 2359 implants. Clin Oral Implants Res. 1997;8(3):161-72.
Lambrecht JT, Filippi A, Künzel AR, Schiel HJ. Long-term evaluation of submerged and non submerged ITI solid-screw titanium implants: a 10-yearlife table analysis of 468 implants. Int J Oral Maxillofac Implants. 2003;18(6):826-34.
Schwartz-Arad D, Laviv A, Levin L. Survival of immediately provisionalized dental implants placed immediately into fresh extraction sockets. J Periodontol. 2007;78(2):219-23.
Marchetti C, Pieri F, Corinaldesi G, Degidi M. A long-term retrospective study of two different implant surfaces placed after reconstruction of the severely resorbed maxilla using Le Fort I osteotomy and interpositional bone grafting. Int J Oral Maxillofac Implants. 2008;23(5):911-8.
Alves Rezende MCR, Bertoz APM, Grandini CR, Louzada MJQ, Santos APA, Capalbo BC, Alves Claro APR. Osseointegração de Implantes Instalados sem Estabilidade Primária: o Papel dos Materiais à Base de Fibrina e Fosfato de Cálcio. Arch Health Invest.2012; 1(1): 33-40
Esposito M, Hirsch JM, Lekholm U, Thomsen P. Biological factors contributing to failures of osseointegrated oral implants. (I). Success criteria and epidemiology. Eur J Oral Sci. 1998;106(1):527-51.
Stach RM, Kohles SS. A meta-analysis examining the clinical survivability of machined-surfaced and osseotite implants in poor-quality bone.Implant Dent. 2003;12(1):87-96.
Feldman S, Boitel N, Weng D, Kohles SS, Stach RM. Five-year survival distributions of short-length (10 mm or less) machined-surfaced and Osseotite implants. Clin Implant Dent Relat Res.2004;6(1):16-23.
Weng D, Jacobson Z, Tarnow D, Hurzeler MB, Faehn O, Sanavi F, Barkvoll P, Stach RM. A prospective multicenter clinical trial of 3i machined-surface implants: results after 6 years of follow-up. Int J Oral Maxillofac Implants. 2003;18(3):417-23.
Serrão CR, Zanetti LSS, Rodrigues RM, Carvalho PSP. Avaliação do sucesso de implantes de superfície tratada comparados com superfície lisa em maxilas enxertadas e não enxertadas: estudo retrospectivo. Rev Bras Pesq Saúde. 2010;12(1):34-9.
Kopf BS, Ruch S, Berner S, Spencer ND, Maniura-Weber K.The role of nanostructures and hydrophilicity in osseointegration: In-vitro protein-adsorption and blood-interaction studies. J Biomed Mater Res A. 2015;103(8):2661-72
Andrade JD, Hlady V. Protein adsorption and materials biocompatibility: A tutorial review and suggested hypotheses. Biopolymers/ Non-Exclusion HPLC. Berlin Heidelberg: Springer; 1986. p 1–63.
Alves-Rezende MCR, Okamoto T. Effects of fibrin adhesive material (Tissucol) on alveolar healing in rats under stress. Braz Dent J. 1997;8(1):13-9.
Okamoto T, Alves-Rezende MC, Buscariolo IA, Okamoto AC, Mendes VS, Garcia-Jr IR. Implante da associação esponja de fibrina (Fibrinol®)/adesivo fibrínico (Tissucol® ) em cavidade cirúrgica preparada em tíbia de rato. Estudo histológico. Rev Odontol Univ São Paulo. 1996;10(1):33-7.
Padovan LE, Okamoto T, Rezende MC, Curvêllo VP, Nicolielo D, Matsumoto MA. Fibrin adhesive implant in wound healing repair of dental sockets with topical application of epsilonaminocaproic acid: histological analysis. J Biomed Mater Res B Appl Biomater. 2005;73(2):209-13