Bacterial Interactions with Dental and Medical Materials

© 2022 by the authors; CC BY-NC-ND license

polymer; dental; antibacterial; antifouling; hydroxyapatite; star-shaped; hydrophobicity; acrylic acid; oral; composition; antimicrobial effect; biofilms; cytotoxicity; dental resins; physicochemical properties; mechanical properties; quaternary ammonium methacrylates; dental materials; dentistry; adhesives; light-curing of dental adhesives; composite resins; methylmethacrylate; oxides; cerium; polymers; dentine bonding agents; dental materials; dentistry; anti-bacterial agents; dental caries; biocompatible materials; biofilms; quaternary ammonium compounds; antimicrobial; ceramic; coating; silicon carbide; cytotoxicity; fluoride(s); biofilm(s); Streptococcus mutans; bioreactor(s); enamel; composite materials; biomaterials; hydroxyapatite; nanostructured materials; dental; chronic wounds; infection; chick embryo CAM; ex ovo; biomaterials; bioactive desensitizer; hypersensitivity; SEM; nanoparticle; nanohydroxyapatite; microshear bond strength; phosphoric acid; self-etch; porous bioceramics; wollastonite; hydroxyapatite; sol-gel technology; spark plasma sintering–reactive synthesis; bacterial test; antibacterial; surface modification; coatings; implant; biofilm; silver; copper; polylysine; antibacterial; dental composites; protein repellent; restorations; zwitterionic polymers; dental materials; antimicrobial; antifouling; dental composite; antibacterial; antibiofilm; polylysine; dental nanocomposite; calcium fluoride nanoparticles; remineralization; antibacterial; protein repellent; oral biofilm; electrospinning; antimicrobial; nano-hydroxyapatite; silver; toxicity; bone regeneration; white spot lesions; antibacterial; biofilms; dental; orthodontic; n/a