Keyphrases
Antimicrobial Peptides
100%
Bio-inspired
100%
Dental Applications
100%
GL13K
100%
Peptide Coating
100%
Biocompatibility
40%
Porphyromonas Gingivalis (P. gingivalis)
40%
Implant Failure
40%
Clinical Efficacy
20%
Rutile
20%
Osteoblast
20%
Orthopedics
20%
Surface Chemistry
20%
Biofilm Growth
20%
Peri-implantitis
20%
Surface Modification
20%
Bone Loss
20%
Dentistry
20%
Parotid Secretory Protein
20%
Bacterial Biofilm
20%
Inflammatory Response
20%
Antimicrobial Activity
20%
Physicochemical Properties
20%
Bacteriostatic
20%
Enzymatic Degradation
20%
Orthopedic Implants
20%
Viable Bacteria
20%
Control Surface
20%
Patient Morbidity
20%
Bioactive Surface
20%
Degradation Activity
20%
Human Gingival Fibroblasts
20%
Titanium Coating
20%
Infection-related
20%
Superhydrophobic
20%
In Vitro Biocompatibility
20%
Bone Implants
20%
Mechanical Degradation
20%
Biofunctionalized
20%
Thermochemical Degradation
20%
Metallic Dental Implant
20%
Preventing Infection
20%
Resistance to Degradation
20%
Immunology and Microbiology
Surface Property
100%
Antimicrobial Peptides
100%
Porphyromonas gingivalis
50%
Biofilm
25%
Osteolysis
25%
Inflammation Response
25%
Infectious Agent
25%
Solution and Solubility
25%
Fibroblast
25%
Bactericidal Activity
25%
Enzymatic Degradation
25%
Antimicrobial Activity
25%
Osteoblast
25%
Secretory Protein
25%
Biochemistry, Genetics and Molecular Biology
Surface Property
100%
Antimicrobial Peptides
100%
Porphyromonas gingivalis
50%
Solution and Solubility
25%
Biofilm
25%
Enzymatic Degradation
25%
Osteoblast
25%
Infectious Agent
25%
Fibroblast
25%
Bactericidal Activity
25%
Antimicrobial Activity
25%
Secretory Protein
25%
Osteolysis
25%
Material Science
Titanium
100%
Biofilms
50%
Surface Treatment
50%
Fibroblast
50%
Osteoblast
50%