Eguia A, Arakistain A, De-la-Pinta I, López-Vicente J, Sevillano E, Quindós G, et al. Candida albicans biofilms on different materials for manufacturing implant abutments and prostheses. Med Oral Patol Oral Cir Bucal. 2020 Jan 1;25 (1):e13-20.


1. Albrektsson T, Canullo L, Cochran D, De Bruyn H. Peri-implantitis: A complication of a foreign body or a man-made "disease". Facts and fiction. Clin Implant Dent Relat Res. 2016;18:840-9.


2. Buser D, Sennerby L, De Bruyn H. Modern implant dentistry based on osseointegration: 50 years of progress, current trends and open questions. Periodontol 2000. 2017;73:7-21.


3. Albrektsson T, Chrcanovic B, Östman PO, Sennerby L. Initial and long-term crestal bone responses to modern dental implants. Periodontol 2000. 2017;73:41-50.


4. De Bruyn H, Christiaens V, Doornewaard R, Jacobsson M, Cosyn J, Jacquet W, et al. Implant surface roughness and patient factors on long-term peri-implant bone loss. Periodontol 2000. 2017;73:218-27.


5. Bürgers R, Hahnel S, Reichert TE, Rosentritt M, Behr M, Gerlach T, et al. Adhesion of Candida albicans to various dental implant surfaces and the influence of salivary pellicle proteins. Acta Biomater. 2010;6:2307-13.


6. Li Y, Guo T, Zhao J, Wang J. Effects of polishing methods on Candida albicans adhesion on cast pure titanium surfaces. Implant Dent. 2013;22:546-51.


7. van Dijk J, Herkströter F, Busscher H, Weerkamp A, Jansen H, Arends J. Surface-free energy and bacterial adhesion. An in vivo study in beagle dogs. J Clin Periodontol. 1987;14:300-4.


8. Kommerein N, Doll K, Stumpp NS, Stiesch M. Development and characterization of an oral multispecies biofilm implant flow chamber model. PLoS One. 2018;13:e0196967.
PMid:29771975 PMCid:PMC5957423


9. Bosshardt DD, Chappuis V, Buser D. Osseointegration of titanium, titanium alloy and zirconia dental implants: current knowledge and open questions. Periodontol 2000. 2017;73:22-40.


10. Xing R, Lyngstadaas SP, Ellingsen JE, Taxt-Lamolle S, Haugen HJ. The influence of surface nanoroughness, texture and chemistry of TiZr implant abutment on oral biofilm accumulation. Clin Oral Implants Res. 2015;26:649-56.


11. Galindo-Moreno P, León-Cano A, Ortega-Oller I, Monje A, Suárez F, ÓValle F, et al. Prosthetic abutment height is a key factor in peri-implant marginal bone loss. J Dent Res. 2014;93(7 Suppl):80S-5S.
PMid:24621670 PMCid:PMC4293716


12. Galindo-Moreno P, Fernández-Jiménez A, O'Valle F, Monje A, Silvestre FJ, Juodzbalys G, et al. Influence of the crown-implant connection on the preservation of peri-implant bone: a retrospective multifactorial analysis. Int J Oral Maxillofac Implants. 2015;30:384-90.


13. Busscher HJ, Rinastiti M, Siswomihardjo W, van der Mei HC. Biofilm formation on dental restorative and implant materials. J Dent Res. 2010;89:657-65.


14. Cavalheiro M, Teixeira MC. Candida biofilms: Threats, challenges, and promising strategies. Front Med (Lausanne). 2018;5:28.
PMid:29487851 PMCid:PMC5816785


15. Bevilacqua L, Milan A, Del Lupo V, Maglione M, Dolzani L. Biofilms developed on dental implant titanium surfaces with different roughness: Comparison between in vitro and in vivo studies. Curr Microbiol. 2018;75:766-72.


16. de Avila ED, de Molon RS, Vergani CE, de Assis Mollo FJr, Salih V. The relationship between biofilm and physical-chemical properties of implant abutment materials for successful dental implants. Materials (Basel). 2014;7:3651-62.
PMid:28788641 PMCid:PMC5453239


17. Canullo L, Penarrocha-Oltra D, Soldini C, Mazzocco F, Penarrocha M, Covani U. Microbiological assessment of the implant-abutment interface in different connections: cross-sectional study after 5 years of functional loading. Clin Oral Implants Res. 2015;26:426-34.


18. Williams DL, Woodbury KL, Haymond BS, Parker AE, Bloebaum RD. A modified CDC biofilm reactor to produce mature biofilms on the surface of peek membranes for an in vivo animal model application. Curr Microbiol. 2011;62:1657-63.


19. Yoon HY, Lee SY. Establishing a laboratory model of dental unit waterlines bacterial biofilms using a CDC biofilm reactor. Biofouling. 2017;33:917-26.


20. Hahnel S, Wieser A, Lang R, Rosentritt M. Biofilm formation on the surface of modern implant abutment materials. Clin Oral Implants Res. 2015;26:1297-301.


21. Li J, Hirota K, Goto T, Yumoto H, Miyake Y, Ichikawa T. Biofilm formation of Candida albicans on implant overdenture materials and its removal. J Dent. 2012;40:686-92.


22. Villard N, Seneviratne C, Tsoi JK, Heinonen M, Matinlinna J. Candida albicans aspects of novel silane system-coated titanium and zirconia implant surfaces. Clin Oral Implants Res. 2015;26:332-41.


23. Han A, Tsoi JKH, Matinlinna JP, Zhang Y, Chen Z. Effects of different sterilization methods on surface characteristics and biofilm formation on zirconia in vitro. Dent Mater. 2018;34:272-81.
PMid:29183674 PMCid:PMC5808507


24. Kassapidou M, Franke Stenport V, Hjalmarsson L, Johansson CB. Cobalt-chromium alloys in fixed prosthodontics in Sweden. Acta Biomater Odontol Scand. 2017;3:53-62.
PMid:29242813 PMCid:PMC5724798


25. Teigen K, Jokstad A. Dental implant suprastructures using cobalt-chromium alloy compared with gold alloy framework veneered with ceramic or acrylic resin: a retrospective cohort study up to 18 years. Clin Oral Implants Res. 2012;23:853-60.


26. Hjalmarsson L. On cobalt-chrome frameworks in implant dentistry. Swed Dent J Suppl. 2009;201:3-83.


27. Souza JC, Mota RR, Sordi MB, Passoni BB, Benfatti CA, Magini RS. Biofilm formation on different materials used in oral rehabilitation. Braz Dent J. 2016;27:141-7.


28. Jordan RP, Marsh L, Ayre WN, Jones Q, Parkes M, Austin B, et al. An assessment of early colonisation of implant-abutment metal surfaces by single species and co-cultured bacterial periodontal pathogens. J Dent. 2016;53:64-72.


29. Cannon RD, Chaffin WL. Oral colonization by Candida albicans. Crit Rev Oral Biol Med. 1999;10:359-83.