Search

Your search keyword '"Arciola, C. R."' showing total 169 results
Start Over Author "Arciola, C. R."
169 results on '"Arciola, C. R."'

1. Polyurethane-based coatings with promising antibacterial properties

Author

Villani, M, Bertoglio, F, Restivo, E, Bruni, G, Iervese, S, Arciola, C, Carulli, F, Iannace, S, Bertini, F, Visai, L, Villani M., Bertoglio F., Restivo E., Bruni G., Iervese S., Arciola C. R., Carulli F., Iannace S., Bertini F., Visai L., Villani, M, Bertoglio, F, Restivo, E, Bruni, G, Iervese, S, Arciola, C, Carulli, F, Iannace, S, Bertini, F, Visai, L, Villani M., Bertoglio F., Restivo E., Bruni G., Iervese S., Arciola C. R., Carulli F., Iannace S., Bertini F., and Visai L.

Abstract

In coatings technology, the possibility of introducing specific characteristics at the surface level allows for the manufacture of medical devices with efficient and prolonged antibacterial properties. This efficiency is often achieved by the use of a small amount of antibacterial molecules, which can fulfil their duty while limiting eventual releasing problems. The object of this work was the preparation and characterization of silver, titanium dioxide and chitosan polyurethane-based coatings. Coatings with the three antibacterials were prepared using different deposition techniques, using a brush or a bar coater automatic film applicator, and compared to solvent casted films prepared with the same components. For silver containing materials, an innovative strategy contemplating the use and preparation of silver nanoparticles in a single step-method was employed. This preparation was obtained starting from a silver precursor and using a single compound as the reducing agent and stabilizer. Ultraviolet-visible spectroscopy, scanning electron microscopy, energy dispersive X-ray spectroscopy, contact angle measurements and adhesion test experiments were used to characterize the prepared coatings. Promising antibacterial properties, measured via direct and indirect methods, were registered for all the silver-based materials.

Published
2020

30. Combating implant infections. Remarks by a women’s team

Author

Arciola, C. R., Balaban, N., Baldassarri, L., Fromm, Katharina M., Hänsch, G. M., Obst, U., Presterl, E., Stefani, S., Verran, J., and Visai, L.

Subjects
biochemical phenomena, metabolism, and nutrition
Abstract

Research on implant infections requires cooperative efforts and integration between basic and clinical expertises. An international group of women scientists is acting together in this field. The main research topics of the participants of this group are described. Formation of bacterial biofilms, antibiotic resistance and production of virulence factors like adhesins and toxins are investigated. New biomaterials, coatings and drugs designed to inhibit microbial adhesion are evaluated, and infection-resistant biomaterials are under study, such as a novel heparinizable polycarbonate-urethane (Bionate) or incorporation of diamino-diamide-diol (PIME) to reduce bacterial attachment. The correlation between biofilm production and the accessory-gene-regulator (agr) is investigated in Staphylococcus aureus. The ability to form biofilm has also been shown to be one of the important virulence factors of Enterococcus faecalis, favouring colonization of inert and biological surfaces. The study of quorum sensing has led to the discovery of a quorum sensing inhibitor termed RIP that suppresses staphylococcal biofilm and infections. The immune response and the local defence mechanisms of the host against implant-associated infections, activation and infiltration of immunocompetent cells into the sites of infection have been studied in patients with implant-associated osteomyelitis. Production of monoclonal antibodies (mAbs) as possible vaccines against the staphylococcal collagen-binding MSCRAMMs is in progress.

Published
2009

Catalog

Books, media, physical & digital resources
See catalog results