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Contenu archivé le 2024-06-18

Development and analysis of polymer based multi-functional bactericidal materials

Objectif

90% of bacteria are found attached to solid surfaces forming structures (bio-films), that are inaccessible to drugs and antibiotics. These bio-films represent a major problem in European society in both industry and health care. Currently, however, we understand little about how these bio-films form and, more importantly, how they can be prevented. This lack of understanding means that patients often suffer ‘unnecessary’ and painful infections following the formation of such films on surgical implants and catheters. With the growing problem of MRSA and C. difficile in hospitals, and the cost of policing and hygiene measures, an understanding of how to prevent bacterial persistence in the hospital environment is critical to the sustainability of European healthcare. A multi-disciplinary group of European experts have the common aim to understand exactly how bacteria attach to, and persist on both biological and inert surfaces. We will use a range of biological and physio-chemical techniques to study several fundamental aspects of bacterial attachment. We will employ new molecular microbiology techniques to understand the genetic components governing the interaction of a bacterial biotic cell surface with the novel antimicrobial surfaces we create. Second, we will be using new nano-scale material science and physical chemistry techniques to create and understand these antimicrobial surfaces. This duel systems approach will allow us to theoretically model the processes of bacterial attachment and survival, which in turn will allow us to improve these surfaces in an iterative approach. We will generate intellectual property around the coatings and treatments used to derive the surfaces and develop these in collaboration with industry. The solutions will be designed specifically for the industrial partners participating in the project but can, with a minimum effort be adapted for applications in other areas through the iterative steps within the WPs.

Appel à propositions

FP7-NMP-2007-SMALL-1
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Coordinateur

MAX-PLANCK-GESELLSCHAFT ZUR FORDERUNG DER WISSENSCHAFTEN EV
Contribution de l’UE
€ 826 691,00
Adresse
HOFGARTENSTRASSE 8
80539 Munchen
Allemagne

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Région
Bayern Oberbayern München, Kreisfreie Stadt
Type d’activité
Research Organisations
Contact administratif
Udo Schreiner (Mr.)
Liens
Coût total
Aucune donnée

Participants (10)