Reprint
Bioactive and Therapeutic Dental Materials
Edited by
August 2019
214 pages
- ISBN978-3-03921-419-8 (Paperback)
- ISBN978-3-03921-420-4 (PDF)
This book is a reprint of the Special Issue Bioactive and Therapeutic Dental Materials that was published in
Chemistry & Materials Science
Engineering
Physical Sciences
Summary
This book focus principally on ions-releasing and other smart dental materials for application in preventive and restorative dentistry, as well as in endodontics in the form of adhesives, resin-based composites, pastes, varnishes, liners and dental cements. Special attention has been given to bioactive materials developed to induce cells differentiation/stimulation, hard tissue formation and exert antimicrobial actions. New innovations are necessary to continue to help reinforcing existing technologies and to introduce new paradigms for treating dental disease and restoring teeth seriously compromised by caries lesions via biomimetic and more biological operative approaches. Dental bioactive materials is arguably the latest research area in dentistry and thus the amount of new research is overwhelming. However, in this day and age of evidence based practice it important for this new information to be distilled into a practical and understandable format.
Format
- Paperback
License
© 2019 by the authors; CC BY-NC-ND license
Keywords
orthodontic resin; photocatalyst TiO2; antibacterial; cariogenic; early colonizer; hydrophilic properties; irradiation; calcium silicate cements; pulpal response; mineralization; calcific barrier; inflammation; odontoblastic layer; resin cements; shrinkage stress; water sorption; hydroscopic expansion; photoelastic investigation; antibacterial; calcium; doxycycline; nanoparticles; zinc; dental composites; antibacterial properties; silver; mechanical properties; degree of conversion; sorption; solubility; color stability; mechanical properties; nanotubes; resin composite; Streptococcus mutans; triclosan; bleaching products; diffusion; cytotoxicity; dental pulp; stem cells; nanoporous silica; glass-ionomer cement; calcium; preclinical biosafety; bone substitute; mesenchymal stem cells; β-tricalcium phosphate; tissue engineering; dental sealant; resin sealant; calcium phosphate nanoparticles; long-term ion release; remineralization; ion recharge; dentin; desmineralization; microtensile bond strength; adhesion; bioactive; cycling mechanical stress; dentine; longevity; resin-modified glass ionomer cements; polyacrylic acid treatment; bone regeneration; β-tricalcium phosphate; calcium sulfate; bone substitutes; animal study; n/a; adhesion; cycling mechanical stress; dentine; longevity; glass-ionomer cements; universal adhesives