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Biomaterial-Related Infections

The use of medical devices (e.g., catheters, implants, and probes) is a common and essential part of medical care for both diagnostic and therapeutic purposes. However, these devices quite frequently lead to the incidence of infections due to the colonization of their abiotic surfaces by biofilm-gro...

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Bibliographic Details
Main Author: Rodrigues, Célia F.
Other Authors: Martins, Natália
Format: eBook
Language:English
Published: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020
Subjects:
Medical Devices
Resistance
Biocompatibility
Polyethylene Terephthalate
Candidemia
Natural Compounds
Silver Nanoparticles
Silver Ions Release
Micafungin
Titanium Alloy
Pet
N/a
Medicine / Bicssc
Candida
Scanning Electron Microscopy
Candidiasis
Infection
Escherichia Coli
Antimicrobial Resistance
Streptococcus Mutans
Oral Biofilm
Autoclaving
Nanofibers
Dna Double-strand Breaks
Titanium Dioxide Nanotubes
Candida Spp.
Caspofungin
Cold Atmospheric-pressure Plasma Jet (capj)
Biofilms
Echinocandins
Electrospinning
Taguchi Method
Xps
Diabetes
Anodization Process
Hyperglycemia
Infection Control
Nanotubes
Wettability
Metabolic Disorder
Antimicrobial Efficiency
Titanium Dioxide
Genotoxicity Assessment
Anti-inflammatory Properties
In Vivo
Mechanical Properties
Candida Glabrata
Ti6al4v Implants
Antimicrobial Activity
Antimicrobial Agents
Biointegration
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
Description
Summary:The use of medical devices (e.g., catheters, implants, and probes) is a common and essential part of medical care for both diagnostic and therapeutic purposes. However, these devices quite frequently lead to the incidence of infections due to the colonization of their abiotic surfaces by biofilm-growing microorganisms, which are progressively resistant to antimicrobial therapies. Several methods based on anti-infective biomaterials that repel microbes have been developed to combat device-related infections. Among these strategies, surface coating with antibiotics (e.g., beta-lactams), natural compounds (e.g., polyphenols), or inorganic elements (e.g., silver and copper nanoparticles) has been widely recognized as exhibiting broad-spectrum bactericidal or bacteriostatic activity. So, in order to achieve a better therapeutic response, it is crucial to understand how these infections are different from others. This will allow us to find new biomaterials characterized by antifouling coatings with repellent properties or low adhesion towards microorganisms, or antimicrobial coatings that are capable of killing microbes approaching the surface, improving biomaterial functionalization strategies and supporting tissues' bio-integration.
Item Description:Creative Commons (cc), https://creativecommons.org/licenses/by/4.0/
Physical Description:1 electronic resource (204 p.)
ISBN:9783039434398
books978-3-03943-439-8
9783039434381

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