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Recent Advance in Biomaterials, Clinical Dentistry and Dental Diseases 2.0

Various classes of natural and synthetic molecules that can be classified as biomaterials find application in all fields of dentistry. Biomaterials should be biocompatible to minimise toxicity and bioactivity to ensure or simulate biological effects. They are used, for instance, to enhance antibacte...

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Détails bibliographiques
Autres auteurs: Kharouf, Naji (Éditeur intellectuel), Mancino, Davide (Éditeur intellectuel), Sauro, Salvatore (Éditeur intellectuel), Hardan, Louis (Éditeur intellectuel)
Format: Électronique Chapitre de livre
Langue:anglais
Publié: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Sujets:
Medicine
calcium silicate cement
retrograde materials
premixed cement
powder-liquid cement
chemical composition
EDX
caries prevention
anterior restorations
ceramic
dental veneers
follow-up
non-vital teeth
porcelain laminate veneers
vital teeth
antimicrobial
osseointegration
surface modification
tissue engineering
root canal retreatment
calcium silicate-based cement
ProTaper Universal Retreatment
D-Race
dentin hypersensitivity
desensitizing agents
calcium phosphate
hydroxyapatite
nano-hydroxyapatite
peri-implantitis
periodontitis
periapical radiograph
deep learning
neural networks
image enhancement
carious lesion activity
irreversible pulpitis
partial pulpotomy
vital pulp therapy
mineral trioxide aggregate
furcation involvement
image segmentation
Gaussian high-pass filtering
image preprocessing
CNN
calcium silicate material
confocal laser scanning microscope
deciduous tooth
digital microscopy
flowability
micro-CT
pulpectomy primary teeth
root canal filling
SEM
zinc oxide eugenol
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Résumé:Various classes of natural and synthetic molecules that can be classified as biomaterials find application in all fields of dentistry. Biomaterials should be biocompatible to minimise toxicity and bioactivity to ensure or simulate biological effects. They are used, for instance, to enhance antibacterial activity and improve the healing process. Calcium silicates, for illustration, are biomaterials used in endodontics that have proven their excellent biological, physico-chemical, and mechanical properties. However, some of these are considered too soluble, and this is almost completely due to their hardness when used as endodontic sealers, making endodontic retreatment very difficult. Despite manufacturers' best efforts, it is sometimes difficult to marry bioactivity, biocompatibility, and clinical benefits in a biomaterial; therefore, in this content, the work of researchers is invaluable.
Description matérielle:1 electronic resource (166 p.)
ISBN:books978-3-0365-9652-5
9783036596532
9783036596525
Accès:Open Access

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