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Dental biomaterials

Biomaterial scientists and engineers are currently investigating novel formulations and modifications of existing materials that elicit specific, timely, and desirable responses from surrounding cells and tissues to support the osseointegration of the next generation of orthopedic and dental biomaterials (Ratner, 1992). Enhanced deposition of mineralized matrix at the bone-implant interface provides crucial mechanical stability to implants. Proactive orthopedic and dental biomaterials could consist of novel formulations that selectively enhance osteoblast function (such as adhesion, proliferation and formation of calcium-containing mineral) while, at the same time, minimize other cell (such as fibroblast) functions that may decrease implant efficacy (e.g., fibroblast participation in callus formation and fibrous encapsulation of implants in vivo). [Pg.148]

Vamnes JS, Lygre GB, Gronningsaeter AG, Gjerdet NR. Four years of clinical experience with an adverse reaction unit for dental biomaterials. Community Dent Oral Epidemiol 2004 32 150-7. [Pg.1390]

Millennium Research Group (2012c) North American Dental Biomaterial Market to Grow at more than 9 Percent Annually Through 2016. MRG News (Oct. 2). [Pg.38]

Millennium Research Group (2012e) Asia-Pacific Dental Biomaterials Market to Grow Moderately at Nearly Seven Percent Through 2013. MRG News (Sept. 15). [Pg.38]

Millennium Research Group (2013d) European Dental Biomaterial Revenues Will... [Pg.38]

Ward JM, Young DM, Fauvie KA, Wolpert MK, Davis R, Guarino AM (1976) Comparative nephrotoxicity of platinum cancer chemotherapeutic agents. Cancer Treat Rep 60 1675-1678 Wataha JC, Hanks CT, Sun Z (1995) hr vitro reaction of macrophages to metal ions from dental biomaterials. Dent Mater 11 239-245... [Pg.571]

D.C. Watts, A.J. Cash, Analysis of optical transmission by 400-500nm visible light into aesthetic dental biomaterials, J. Dent. 22 (1994) 112-117. [Pg.61]

Dental Biomaterials Imaging, Testing and Modelling (ISBN 978-1-84569-296-4)... [Pg.230]

Abstract This chapter focuses on dental biomaterials designed for permanent placement in the mouth. The development of flowahle polymer-ceramic composites is traced and their rheological properties, such as pseudoplasticity and thixotropy, discussed. Also considered are some materials that are being developed for root canal therapy, including calcium phosphate cements. There is vast scope for research into materials development, clinical applications and fundamental mechanisms. [Pg.227]

Key words dental biomaterials, resin composites, flowahle composites, endodontic materials, calcium phosphate cements. [Pg.227]

However, this chapter focuses on dental biomaterials intended for permanent placement. Three areas of research and development are considered and critiqued ... [Pg.227]

It is evident that there is vast scope for research in injectable dental biomaterials, in terms of chemical development, establishment of new and improved clinical treatment techniques and in fundamental understanding of basic rheological mechanisms. [Pg.233]

Department of Dental Biomaterials Science GKT Dental Institute, London SEl 9RT, UK Tel 44 20 7955 4281 E-mail Judith, roether kcl. ac. uk Department of Materials Imperial College London, London SW7 2AZ, UK Tel 44 2071881 789 Email a. boccaccini imperial, ac. uk... [Pg.485]

Alumina and zirconia ceramics are also being used for alveolar ridge reconstruction (20), maxillofacial reconstruction, as ossicular bone substitutes (21), and in ophthalmology (22), knee prosthesis (8), bone screws as well as other applications as dental biomaterials, such as dental crown core, post, bracket and inlay (23,24). [Pg.342]

Ways in which the findings related to the formation of needlelike apatite have been used in the development of restorative dental biomaterials are presented on the basis of two materials, IPS Empress 2, IPS ERis for E2, and IPS d.SIGN , in Section 4.4.2. [Pg.220]

Dental biomaterials and surgical implants require different properties oesthetic appearance, good durability, and good mechanical properties at ambient temperatures are criticol to the former, while biocompatibility and flexural strength ore essential to the latter. Dental biomaterials ore continually developed to satisfy the demands of patients, dentists, and dental technicians. [Pg.319]

Combe, E. (1999). Dental Biomaterials, Kluwer Academic Publishers, New York. [Pg.51]

Polymer Research Group, Department of Dental Biomaterials, Karolinska Institute, Royal Institute of Medicine, Stockholm, Sweden... [Pg.669]

See other pages where Dental biomaterials is mentioned: [Pg.266]    [Pg.127]    [Pg.147]    [Pg.129]    [Pg.149]    [Pg.348]    [Pg.18]    [Pg.19]    [Pg.182]    [Pg.233]    [Pg.724]    [Pg.563]    [Pg.209]    [Pg.192]    [Pg.290]    [Pg.464]    [Pg.307]    [Pg.713]    [Pg.602]    [Pg.607]    [Pg.153]    [Pg.680]    [Pg.164]    [Pg.3]    [Pg.306]    [Pg.311]    [Pg.700]   
See also in sourсe #XX -- [ Pg.18 ]



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