Antibacterial surfaces developed from bio-inspired approaches.
about
Ureteral Stents and Foley Catheters-Associated Urinary Tract Infections: The Role of Coatings and Materials in Infection Prevention.Evolving marine biomimetics for regenerative dentistry.Surface-mediated release of a small-molecule modulator of bacterial biofilm formation: a non-bactericidal approach to inhibiting biofilm formation in Pseudomonas aeruginosa.Active protein and calcium hydroxyapatite bilayers grown by laser techniques for therapeutic applications.Ag-plasma modification enhances bone apposition around titanium dental implants: an animal study in Labrador dogs.A GFP promoter fusion library for the study of Salmonella biofilm formation and the mode of action of biofilm inhibitors.Antibacterial Peptide-Based Gel for Prevention of Medical Implanted-Device InfectionNanotechnology in medicine: nanofilm biomaterials.New trends in peptide-based anti-biofilm strategies: a review of recent achievements and bioinformatic approaches.Interactions between microbial biofilms and marine fouling algae: a mini review.Biofilm formation and persistence on abiotic surfaces in the context of food and medical environments.Antibacterial surface treatment for orthopaedic implants.Update on Monoterpenes as Antimicrobial Agents: A Particular Focus on p-Cymene.Synthetic antibiofilm peptides.Stimuli-responsive polymers for antimicrobial therapy: drug targeting, contact-killing surfaces and competitive release.Antifouling membranes for sustainable water purification: strategies and mechanisms.Fluorescent probes for nanoscopy: four categories and multiple possibilities.Installing multifunctionality on titanium with RGD-decorated polyurethane-polyurea roxithromycin loaded nanoparticles: toward new osseointegrative therapies.Silver Nanocoating Technology in the Prevention of Prosthetic Joint Infection.Radiation Grafting for the Functionalization and Development of Smart Polymeric Materials.Synthesis, Physico-chemical Characterization, Crystal Structure and Influence on Microbial and Tumor Cells of Some Co(II) Complexes with 5,7-Dimethyl-1,2,4-triazolo[1,5-a]pyrimidine.Colloidal Gold Nanoclusters Spiked Silica Fillers in Mixed Matrix Coatings: Simultaneous Detection and Inhibition of Healthcare-Associated Infections.Bacterial and fungal biofilm formation on anodized titanium alloys with fluorine.Quantitative Comparison of the Antimicrobial Efficiency of Leaching versus Nonleaching Polymer Materials.[Antimicrobial prosthesis coatings].Harnessing the multifunctionality in nature: a bioactive agent release system with self-antimicrobial and immunomodulatory properties.Effects of antimicrobial peptides on Staphylococcus aureus growth and biofilm formation in vitro following isolation from implant-associated infections.An electrically reversible switchable surface to control and study early bacterial adhesion dynamics in real-time.Antibacterial strategies from the sea: polymer-bound cl-catechols for prevention of biofilm formation.Multi-effect of the water-soluble Moringa oleifera lectin against Serratia marcescens and Bacillus sp.: antibacterial, antibiofilm and anti-adhesive properties.Reactive Landing of Gramicidin S and Ubiquitin Ions onto Activated Self-Assembled Monolayer Surfaces.Nanofabrication of mechano-bactericidal surfaces.Review: the potential impact of surface crystalline states of titanium for biomedical applications.Staphylococcus aureus biofilm susceptibility to small and potent β(2,2)-amino acid derivatives.A Smart Antibacterial Surface for the On-Demand Killing and Releasing of Bacteria.Coupling Plant-Derived Cyclotides to Metal Surfaces: An Antibacterial and Antibiofilm Study.Priming cells for their final destination: microenvironment controlled cell culture by a modular ECM-mimicking feeder film.Electron Beam Immobilization of Novel Antimicrobial, Short Peptide Motifs Leads to Membrane Surfaces with Promising Antibacterial Properties.Immobilization of enzymes on 2-hydroxyethyl methacrylate and glycidyl methacrylate copolymer brushes.Nanopatterned antimicrobial enzymatic surfaces combining biocidal and fouling release properties.
P2860
Q30387675-B9C7304A-9EE7-40CE-A783-1086E640A9ABQ33736743-1A96209C-7B04-4016-8917-65BA71DAE460Q34591793-B6EF44D9-B909-4C84-85FC-3A8975790AE9Q34593839-8F769AC4-08A8-4E60-8D71-9A2DDC905C35Q34982366-974C88E3-01BF-4F87-A8DA-23C0E438C250Q35148493-F27625EF-7A1F-47F0-85B1-4E493EC424CCQ35867318-305BB42E-C898-48AB-9E09-A859032BFE45Q37358573-43FA1DD6-D3BF-4998-828F-7625315287C4Q38047034-0050E39A-4F51-40F9-B71C-FC6741C571F1Q38139104-E4D601E6-5EB9-4DE7-AAD1-13ABF614D92AQ38205404-39755FDC-2E37-4403-970B-64F548BE49D3Q38239347-3D085A54-6B1F-4DFC-9510-34B80B76BB05Q38623906-18D3E7D5-B724-4B1E-AAF9-6BABB63F66EFQ38685066-F252A962-D2B6-4729-A1B4-F640CFBB848DQ38807442-6CCA7398-E341-4A4C-8A03-63C3D52806A5Q38807551-BFB8B9EC-A932-450D-88C6-9EE083DA4337Q38843445-4884844C-1F2F-494B-B02D-38F11BF539D1Q38843751-A9D28C85-2C02-4BC3-9D45-119328A5DC71Q38872187-DD477BFD-41BA-4514-A63C-4FF19B37B13CQ38940429-87899A3A-BF4E-4040-8911-8ECAB546A702Q40110889-4A3A81AD-6E59-483D-AD51-051962C29E85Q40358889-7208C175-A610-41CF-B989-273A08D52A2DQ40431748-3612C53D-12D1-4217-97D5-4DC402F48C6AQ40819747-BBFBA727-A765-454A-B0A9-261CAD7A1BAFQ40920626-88B64014-C9FA-4A5F-8F7C-7C025752B087Q40995014-8EE9A04A-5327-44A0-AE8F-7F55855BD26AQ41416507-9DEA0F66-26E9-413B-977D-EFF69B50CDE7Q41558608-258DF5AA-D30D-4527-BCB0-8955699324ECQ43410175-5AB1F01C-369C-4364-9FD6-EF41C011694EQ46323502-3D7F931F-9B34-4D5E-B693-9C8AC300B301Q46404549-4B417E15-25C8-4232-8427-D24D83E9D313Q47634683-67639AD1-8471-4238-A4C4-A75D59588E58Q47703657-E9563F8A-CD18-4994-8912-E8452C8DC8E5Q50227889-DA99E664-1F7A-4EFF-A13C-7180FC3246C3Q51607923-3FB442F2-FB85-4F5E-946F-DCC1895BA7F7Q51742192-B2E7B13C-61C0-48FC-A177-34C5E4A3AE14Q51814273-17AC32DA-DBB5-4645-9CED-82B1B599E3DCQ52679065-AEC5798C-60E8-479D-AA3F-67664900B0C3Q53517852-35E18FCA-36DA-427C-9B9A-0E36C726154EQ53592183-E3663850-D7C4-49B2-A966-F6A1D49C6D51
P2860
Antibacterial surfaces developed from bio-inspired approaches.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Antibacterial surfaces developed from bio-inspired approaches.
@en
Antibacterial surfaces developed from bio-inspired approaches.
@nl
type
label
Antibacterial surfaces developed from bio-inspired approaches.
@en
Antibacterial surfaces developed from bio-inspired approaches.
@nl
prefLabel
Antibacterial surfaces developed from bio-inspired approaches.
@en
Antibacterial surfaces developed from bio-inspired approaches.
@nl
P2093
P1433
P1476
Antibacterial surfaces developed from bio-inspired approaches.
@en
P2093
P304
P356
10.1016/J.ACTBIO.2012.01.011
P577
2012-01-18T00:00:00Z