| 749 | Silver |
| 665 | Anti-Bacterial Agents |
| 477 | Metal Nanoparticles |
| 362 | Microbial Sensitivity Tests |
| 331 | Humans |
| 328 | Escherichia coli |
| 243 | Staphylococcus aureus |
| 209 | Animals |
| 122 | Pseudomonas aeruginosa |
| 118 | Bacteria |
| 110 | Particle Size |
| 104 | Biofilms |
| 99 | Anti-Infective Agents |
| 98 | Nanocomposites |
| 94 | Surface Properties |
| 90 | Microscopy, Electron, Transmission |
| 87 | Spectroscopy, Fourier Transform Infrared |
| 83 | X-Ray Diffraction |
| 81 | Titanium |
| 80 | Mice |
| 78 | Microscopy, Electron, Scanning |
| 74 | Silver Compounds |
| 72 | Cell Survival |
| 70 | Nanoparticles |
| 66 | Microbial Viability |
| 65 | Male |
| 62 | Plant Extracts |
| 58 | Materials Testing |
| 51 | Time Factors |
| 51 | Polymers |
| 51 | Female |
| 50 | Silver Nitrate |
| 50 | Coated Materials, Biocompatible |
| 49 | Cell Line |
| 49 | Bandages |
| 48 | Biocompatible Materials |
| 47 | Spectrophotometry, Ultraviolet |
| 47 | Chitosan |
| 44 | Reactive Oxygen Species |
| 43 | Catalysis |
| 41 | Wound Healing |
| 41 | Nanotechnology |
| 41 | Gram-Negative Bacteria |
| 40 | Light |
| 40 | Gram-Positive Bacteria |
| 40 | Colony Count, Microbial |
| 37 | Green Chemistry Technology |
| 37 | Burns |
| 37 | Anti-Infective Agents, Local |
| 36 | Methicillin-Resistant Staphylococcus aureus |
| 36 | Hydrogen-Ion Concentration |
| 35 | Dose-Response Relationship, Drug |
| 34 | Staphylococcal Infections |
| 33 | Graphite |
| 32 | Oxides |
| 32 | Ions |
| 31 | Wound Infection |
| 31 | Rats |
| 31 | Disinfection |
| 31 | Cells, Cultured |
| 31 | Blood Bactericidal Activity |
| 29 | Water |
| 29 | Disinfectants |
| 28 | Water Purification |
| 28 | Oxidation-Reduction |
| 28 | Drug Synergism |
| 28 | Drug Resistance, Multiple, Bacterial |
| 27 | Kinetics |
| 26 | Copper |
| 26 | Cell Membrane |
| 25 | Temperature |
| 25 | Lipopolysaccharides |
| 25 | Adult |
| 24 | Staphylococcus epidermidis |
| 24 | Gold |
| 24 | Bacterial Adhesion |
| 24 | Adsorption |
| 23 | Water Microbiology |
| 23 | Streptococcus mutans |
| 23 | Silicon Dioxide |
| 23 | Hydrogels |
| 23 | Durapatite |
| 23 | Drug Resistance, Bacterial |
| 22 | Nanofibers |
| 22 | Bacterial Infections |
| 21 | Spectrometry, X-Ray Emission |
| 21 | Silver Sulfadiazine |
| 21 | Nanostructures |
| 21 | Antibodies, Bacterial |
| 20 | Middle Aged |
| 20 | Klebsiella pneumoniae |
| 20 | Bacillus subtilis |
| 19 | Porosity |
| 19 | In Vitro Techniques |
| 18 | Zinc Oxide |
| 18 | Glass |
| 18 | Drug Resistance, Microbial |
| 18 | Cell Proliferation |
| 18 | Bacterial Proteins |
| 17 | Ultraviolet Rays |
| 17 | Plant Leaves |
| 17 | Photoelectron Spectroscopy |
| 17 | Photochemical Processes |
| 17 | Nanotubes |
| 16 | Zeolites |
| 16 | Microscopy, Atomic Force |
| 16 | Hydrogen Peroxide |
| 16 | Fibroblasts |
| 16 | Colloids |
| 16 | Antifungal Agents |
| 15 | Prostheses and Implants |
| 15 | Oxidative Stress |
| 15 | Nanotubes, Carbon |
| 15 | Chlorhexidine |
| 15 | Apoptosis |
| 14 | Rabbits |
| 14 | Polyesters |
| 14 | Phagocytosis |
| 14 | Molecular Structure |
| 14 | Microscopy, Fluorescence |
| 14 | Membranes, Artificial |
| 14 | Indoles |
| 14 | Gentamicins |
| 14 | Fungi |
| 14 | Drug Delivery Systems |
| 14 | Drug Combinations |
| 14 | Candida albicans |
| 14 | Adolescent |
| 13 | Spectrum Analysis |
| 13 | Prosthesis-Related Infections |
| 13 | Polyethylene Glycols |
| 13 | Gels |
| 13 | Disease Models, Animal |
| 13 | Delayed-Action Preparations |
| 13 | Ceramics |
| 13 | Antineoplastic Agents |
| 13 | Antigens, Bacterial |
| 12 | Water Pollutants, Chemical |
| 12 | Treatment Outcome |
| 12 | Structure-Activity Relationship |
| 12 | Spectrum Analysis, Raman |
| 12 | Plankton |
| 12 | Ciprofloxacin |
| 12 | Antioxidants |
| 11 | Young Adult |
| 11 | Solutions |
| 11 | Skin |
| 11 | Salmonella typhimurium |
| 11 | Pseudomonas Infections |
| 11 | Neutrophils |
| 11 | Mutation |
| 11 | Hydrophobic and Hydrophilic Interactions |
| 11 | Escherichia coli Infections |
| 11 | Enterococcus faecalis |
| 11 | Drug Stability |
| 11 | Bacterial Physiological Phenomena |
| 11 | Administration, Topical |
| 10 | Wounds and Injuries |
| 10 | Surface Plasmon Resonance |
| 10 | Solubility |
| 10 | Photochemistry |
| 10 | Organometallic Compounds |
| 10 | Microscopy, Electron |
| 10 | Mice, Inbred BALB C |
| 10 | Meningococcal Vaccines |
| 10 | Fish Diseases |
| 10 | Drug Evaluation, Preclinical |
| 10 | Disk Diffusion Antimicrobial Tests |
| 10 | Culture Media |
| 10 | Cross Infection |
| 10 | Cell Wall |
| 10 | Cell Line, Tumor |
| 10 | Catfishes |
| 10 | Bismuth |
| 10 | Bacterial Outer Membrane Proteins |
| 9 | Vancomycin |
| 9 | Tensile Strength |
| 9 | Swine |
| 9 | Static Electricity |
| 9 | Staphylococcus |
| 9 | Rats, Sprague-Dawley |
| 9 | Polyurethanes |
| 9 | Osteoblasts |
| 9 | Muramidase |
| 9 | Microspheres |
| 9 | Macrophages |
| 9 | Filtration |
| 9 | Drug Liberation |
| 9 | Drug Carriers |
| 9 | Diffusion |
| 9 | Child |
| 9 | Cellulose |
| 9 | Cell Membrane Permeability |
| 9 | Cattle |
| 9 | Biofouling |
| 9 | Analysis of Variance |
| 9 | Acrylic Resins |
| 9 | Acinetobacter baumannii |
| 8 | Zinc |
| 8 | Tissue Scaffolds |
| 8 | Textiles |
| 8 | Sterilization |
| 8 | Spectrophotometry |
| 8 | Rats, Wistar |
| 8 | Photolysis |
| 8 | Occlusive Dressings |
| 8 | Nylons |
| 8 | Neisseria meningitidis, Serogroup B |
| 8 | Nanocapsules |
| 8 | NIH 3T3 Cells |
| 8 | Metals |
| 8 | Metals, Heavy |
| 8 | Free Radical Scavengers |
| 8 | Equipment Contamination |
| 8 | Drinking Water |
| 8 | Alginates |
| 8 | Aged |
| 7 | Zirconium |
| 7 | Urinary Tract Infections |
| 7 | Thermogravimetry |
| 7 | Sunlight |
| 7 | Spectrophotometry, Atomic |
| 7 | Salmonella enterica |
| 7 | Polyethylenes |
| 7 | Phosphates |
| 7 | Oils, Volatile |
| 7 | Neisseria meningitidis |
| 7 | Mycobacterium tuberculosis |
| 7 | Listeria monocytogenes |
| 7 | Hep G2 Cells |
| 7 | Hemolysis |
| 7 | HeLa Cells |
| 7 | Gram-Negative Bacterial Infections |
| 7 | Gene Expression |
| 7 | Flow Cytometry |
| 7 | Ferric Compounds |
| 7 | Environmental Pollutants |
| 7 | Electrophoresis, Polyacrylamide Gel |
| 7 | Electrochemistry |
| 7 | Electrochemical Techniques |
| 7 | Daptomycin |
| 7 | DNA, Bacterial |
| 7 | Cytokines |
| 7 | Cell Shape |
| 7 | Cell Death |
| 7 | Cell Adhesion |
| 7 | Catalase |
| 7 | Carbon |
| 7 | Bromides |
| 6 | Toxicity Tests |
| 6 | Sulfadiazine |
| 6 | Sensitivity and Specificity |
| 6 | Quaternary Ammonium Compounds |
| 6 | Potassium |
| 6 | Polyvinyls |
| 6 | Platinum |
| 6 | Plasmids |
| 6 | Oxygen |
| 6 | Models, Chemical |
| 6 | Models, Biological |
| 6 | Microwaves |
| 6 | Mesenchymal Stem Cells |
| 6 | MCF-7 Cells |
| 6 | Liver |
| 6 | Liposomes |
| 6 | Keratinocytes |
| 6 | Hydroxyl Radical |
| 6 | Hot Temperature |
| 6 | Hexuronic Acids |
| 6 | Hardness |
| 6 | Glucuronic Acid |
| 6 | Gene Expression Regulation, Bacterial |
| 6 | Gelatin |
| 6 | Fluorescent Dyes |
| 6 | Equipment Design |
| 6 | Electricity |
| 6 | Drug Design |
| 6 | Dental Caries |
| 6 | DNA Damage |
| 6 | Crystallography, X-Ray |
| 6 | Coloring Agents |
| 6 | Collagen |
| 6 | Child, Preschool |
| 6 | Carboxymethylcellulose Sodium |
| 6 | Biotechnology |
| 6 | Bacterial Load |
| 6 | Aluminum Oxide |
| 6 | Alloys |
| 5 | Zebrafish |
| 5 | Water Supply |
| 5 | Virulence Factors |
| 5 | Vibrio |
| 5 | Tissue Engineering |
| 5 | Superoxide Dismutase |
| 5 | Streptococcus pyogenes |
| 5 | Stainless Steel |
| 5 | Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization |
| 5 | Spectrometry, Fluorescence |
| 5 | Species Specificity |
| 5 | Serotyping |
| 5 | Seeds |
| 5 | Reproducibility of Results |
| 5 | Pseudomonas |
| 5 | Proteus mirabilis |
| 5 | Proteins |
| 5 | Prosthesis Design |
| 5 | Powders |
| 5 | Polyvinyl Alcohol |
| 5 | Polysaccharides |
| 5 | Polyethyleneimine |
| 5 | Plasma Gases |
| 5 | Peroxidase |
| 5 | Peptides |
| 5 | Osteogenesis |
| 5 | Neisseria gonorrhoeae |
| 5 | Nanospheres |
| 5 | Molecular Weight |
| 5 | Molecular Sequence Data |
| 5 | Molecular Conformation |
| 5 | Models, Molecular |
| 5 | Microscopy, Confocal |
| 5 | Mice, Inbred C57BL |
| 5 | Membrane Potentials |
| 5 | Magnetite Nanoparticles |
| 5 | Magnetic Resonance Spectroscopy |
| 5 | Lasers |
| 5 | Larva |
| 5 | Infant |
| 5 | Immunoglobulin G |
| 5 | Hydrodynamics |
| 5 | Human Umbilical Vein Endothelial Cells |
| 5 | Guinea Pigs |
| 5 | Green Fluorescent Proteins |
| 5 | Fruit |
| 5 | Food Microbiology |
| 5 | Escherichia coli O157 |
| 5 | Erythrocytes |
| 5 | Enterococcus faecium |
| 5 | Enterobacteriaceae |
| 5 | Electrodes |
| 5 | Dogs |
| 5 | Dental Materials |
| 5 | Crystallization |
| 5 | Composite Resins |
| 5 | Chronic Disease |
| 5 | Cell Differentiation |
| 5 | Catheterization, Central Venous |
| 5 | Bone Substitutes |
| 5 | Biodegradation, Environmental |
| 5 | Antimicrobial Cationic Peptides |
| 5 | Acrylamides |
| 5 | A549 Cells |
| 4 | Wettability |
| 4 | Viscosity |
| 4 | Virulence |
| 4 | Triclosan |
| 4 | Tobramycin |
| 4 | Streptomyces |
| 4 | Streptococcus |
| 4 | Streptococcus agalactiae |
| 4 | Silver Staining |
| 4 | Silicon |
| 4 | Salmonella typhi |
| 4 | Quorum Sensing |
| 4 | Pseudomonas fluorescens |
| 4 | Proteomics |
| 4 | Proteome |
| 4 | Povidone |
| 4 | Polysaccharides, Bacterial |
| 4 | Polypropylenes |
| 4 | Polylysine |
| 4 | Polyethylene |
| 4 | Plants, Medicinal |
| 4 | Plant Oils |
| 4 | Plant Gums |
| 4 | Plant Diseases |
| 4 | Phylogeny |
| 4 | Photosensitizing Agents |
| 4 | Permeability |
| 4 | Penicillium |
| 4 | Osseointegration |
| 4 | Osmolar Concentration |
| 4 | Oryza |
| 4 | Organic Chemicals |
| 4 | Nitrophenols |
| 4 | Nanomedicine |
| 4 | Models, Theoretical |
| 4 | Methylene Blue |
| 4 | Methicillin Resistance |
| 4 | Meningitis, Meningococcal |
| 4 | Mass Spectrometry |
| 4 | Magnetic Phenomena |
| 4 | Luminescent Measurements |
| 4 | Lipid Peroxidation |
| 4 | Limit of Detection |
| 4 | Lactic Acid |
| 4 | Intubation, Intratracheal |
| 4 | Immunity, Innate |
| 4 | Imidazoles |
| 4 | Gas Chromatography-Mass Spectrometry |
| 4 | Endotoxins |
| 4 | Electron Spin Resonance Spectroscopy |
| 4 | Dynamic Light Scattering |
| 4 | Drug Resistance, Multiple |
| 4 | Drug Evaluation |
| 4 | Drug Compounding |
| 4 | Dental Pulp Cavity |
| 4 | DNA |
| 4 | Cross Reactions |
| 4 | Cotton Fiber |
| 4 | Cobalt |
| 4 | Chlorine |
| 4 | Chickens |
| 4 | Cerium |
| 4 | Catheter-Related Infections |
| 4 | Calorimetry |
| 4 | Calcium |
| 4 | Calcium Phosphates |
| 4 | Calcium Compounds |
| 4 | Bone and Bones |
| 4 | Bone Regeneration |
| 4 | Blotting, Western |
| 4 | Blood Vessel Prosthesis |
| 4 | Blood Proteins |
| 4 | Biguanides |
| 4 | Benzalkonium Compounds |
| 4 | Bacteriological Techniques |
| 4 | Bacterial Vaccines |
| 4 | Bacillus |
| 4 | Aquaculture |
| 4 | Antitubercular Agents |
| 4 | Antibody Formation |
| 4 | Anaerobiosis |
| 4 | Amino Acid Sequence |
| 4 | Alkaline Phosphatase |
| 4 | Aged, 80 and over |
| 4 | Aeromonas hydrophila |
| 3 | beta-Cyclodextrins |
| 3 | Waste Water |
| 3 | Vibrio cholerae |
| 3 | Vaccines, Conjugate |
| 3 | Vaccination |
| 3 | Urinary Catheters |
| 3 | Ultrasonic Waves |
| 3 | Sutures |
| 3 | Surgical Mesh |
| 3 | Surface-Active Agents |
| 3 | Solvents |
| 3 | Sodium Hypochlorite |
| 3 | Silver Proteins |
| 3 | Silicates |
| 3 | Shewanella |
| 3 | Sheep |
| 3 | Serum Bactericidal Test |
| 3 | Serogroup |
| 3 | Saliva |
| 3 | Root Canal Irrigants |
| 3 | Rifampin |
| 3 | Rhodophyta |
| 3 | Regeneration |
| 3 | Real-Time Polymerase Chain Reaction |
| 3 | Random Allocation |
| 3 | RNA, Messenger |
| 3 | RAW 264.7 Cells |
| 3 | Pyridines |
| 3 | Pseudomonas putida |
| 3 | Proteus Infections |
| 3 | Protein Binding |
| 3 | Prospective Studies |
| 3 | Printing, Three-Dimensional |
| 3 | Porphyromonas gingivalis |
| 3 | Porins |
| 3 | Polystyrenes |
| 3 | Polymethyl Methacrylate |
| 3 | Polyethylene Terephthalates |
| 3 | Pneumonia, Ventilator-Associated |
| 3 | Platelet Adhesiveness |
| 3 | Plant Roots |
| 3 | Pilot Projects |
| 3 | Picrates |
| 3 | Phenotype |
| 3 | Phase Transition |
| 3 | Peri-Implantitis |
| 3 | Paper |
| 3 | Palladium |
| 3 | Ossicular Prosthesis |
| 3 | Organoselenium Compounds |
| 3 | Ointments |
| 3 | O Antigens |
| 3 | Nitrogen |
| 3 | Nanowires |
| 3 | Mycoses |
| 3 | Mutagenesis, Insertional |
| 3 | Models, Animal |
| 3 | Mice, Inbred ICR |
| 3 | Methicillin |
| 3 | Methacrylates |
| 3 | Mercury |
| 3 | Meningococcal Infections |
| 3 | Melaleuca |
