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435 results on '"Roveri N"'

1. Biomimetic hydroxyapatite nanocrystals are an active carrier for Salmonella bacteriophages

Author

Fulgione A, Ianniello F, Papaianni M, Contaldi F, Sgamma T, Giannini C, Pastore S, Velotta R, Della Ventura B, Roveri N, Lelli M, Capuano F, and Capparelli R

Subjects
Biomimetic hydroxyapatite nanocrystals, Salmonella Rissen, bacteriophages, antibiotic resistance., Medicine (General), R5-920
Abstract

Andrea Fulgione,1,* Flora Ianniello,1,* Marina Papaianni,1 Felice Contaldi,1 Tiziana Sgamma,2 Cinzia Giannini,3 Stella Pastore,3 Raffaele Velotta,4 Bartolomeo Della Ventura,5 Norberto Roveri,6 Marco Lelli,6 Federico Capuano,7 Rosanna Capparelli1 1Department of Agriculture, University of Naples “Federico II”, Portici, Naples, Italy; 2Biomolecular Technology Group, School of Allied Health Sciences, De Montfort University, Leicester, UK; 3Istituto di Cristallografia, Consiglio Nazionale delle Ricerche, Bari, Italy; 4Department of Physics “Ettore Pancini”, University of Naples “Federico II”, Portici, Naples, Italy; 5Department of Physics, Politecnico di Milano, Milano, Italy; 6Chemical Center Srl, Granarolo dell’Emilia, Bologna, Italy; 7Department of Food Microbiology, Istituto Zooprofilattico Sperimentale del Mezzogiorno, Portici, Naples, Italy *These authors contributed equally to this work Purpose: The use of bacteriophages represents a valid alternative to conventional antimicrobial treatments, overcoming the widespread bacterial antibiotic resistance phenomenon. In this work, we evaluated whether biomimetic hydroxyapatite (HA) nanocrystals are able to enhance some properties of bacteriophages. The final goal of this study was to demonstrate that biomimetic HA nanocrystals can be used for bacteriophage delivery in the context of bacterial infections, and contribute – at the same time – to enhance some of the biological properties of the same bacteriophages such as stability, preservation, antimicrobial activity, and so on. Materials and methods: Phage isolation and characterization were carried out by using Mitomycin C and following double-layer agar technique. The biomimetic HA water suspension was synthesized in order to obtain nanocrystals with plate-like morphology and nanometric dimensions. The interaction of phages with the HA was investigated by dynamic light scattering and Zeta potential analyses. The cytotoxicity and intracellular killing activities of the phage–HA complex were evaluated in human hepatocellular carcinoma HepG2 cells. The bacterial inhibition capacity of the complex was assessed on chicken minced meat samples infected with Salmonella Rissen. Results: Our data highlighted that the biomimetic HA nanocrystal–bacteriophage complex was more stable and more effective than phages alone in all tested experimental conditions. Conclusion: Our results evidenced the important contribution of biomimetic HA nanocrystals: they act as an excellent carrier for bacteriophage delivery and enhance its biological characteristics. This study confirmed the significant role of the mineral HA when it is complexed with biological entities like bacteriophages, as it has been shown for molecules such as lactoferrin. Keywords: biomimetic hydroxyapatite nanocrystals, Salmonella Rissen, bacteriophages, antibiotic resistance

Published
2019

2. Biological activity of lactoferrin-functionalized biomimetic hydroxyapatite nanocrystals

Author

Nocerino N, Fulgione A, Iannaccone M, Tomasetta L, Ianniello F, Martora F, Lelli M, Roveri N, Capuano F, and Capparelli R

Subjects
Medicine (General), R5-920
Abstract

Nunzia Nocerino,1 Andrea Fulgione,1 Marco Iannaccone,1 Laura Tomasetta,1 Flora Ianniello,1 Francesca Martora,1 Marco Lelli,2 Norberto Roveri,2 Federico Capuano,3 Rosanna Capparelli1 1Department of Agriculture Special Biotechnology Center Federico II, CeBIOTEC Biotechnology, University of Naples Federico II, Naples, 2Department of Chemistry, G Ciamician, Alma Mater Studiorum, University of Bologna, Bologna, 3Department of Food Inspection IZS ME, Naples, Italy Abstract: The emergence of bacterial strains resistant to antibiotics is a general public health problem. Progress in developing new molecules with antimicrobial properties has been made. In this study, we evaluated the biological activity of a hybrid nanocomposite composed of synthetic biomimetic hydroxyapatite surface-functionalized by lactoferrin (LF-HA). We evaluated the antimicrobial, anti-inflammatory, and antioxidant properties of LF-HA and found that the composite was active against both Gram-positive and Gram-negative bacteria, and that it modulated proinflammatory and anti-inflammatory responses and enhanced antioxidant properties as compared with LF alone. These results indicate the possibility of using LF-HA as an antimicrobial system and biomimetic hydroxyapatite as a candidate for innovative biomedical applications. Keywords: lactoferrin, hydroxyapatite nanocrystals, biomimetism, biological activity, drug delivery

Published
2014

3. Different corrosive effects on hydroxyapatite nanocrystals and amine fluoride-based mouthwashes on dental titanium brackets: a comparative in vitro study

Author

Lelli M, Marchisio O, Foltran I, Genovesi A, Montebugnoli G, Marcaccio M, Covani U, and Roveri N

Subjects
Medicine (General), R5-920
Abstract

Marco Lelli,1 Olivia Marchisio,2 Ismaela Foltran,1 Annamaria Genovesi,2 Giulia Montebugnoli,1 Massimo Marcaccio,1 Ugo Covani,2 Norberto Roveri11Alma Mater Studiorum, University of Bologna, Department of Chemistry, Bologna, Italy; 2University of Pisa, Istituto Stomatologico Tirreno, Lido di Camaiore, Lucca, ItalyAbstract: Titanium plates treated in vitro with a mouthwash containing amine fluoride (100 ppm F-) and another containing zinc-substituted carbonate–hydroxyapatite have been analyzed by scanning electron microscopy and atomic force microscopy to evaluate the modification of the surface roughness induced by treatment with these two different mouthwashes. The treatment with F--based mouthwash produces a roughness characterized by higher peaks and deeper valleys in the streaks on the titanium bracket surface compared with those observed in the reference polished titanium plates. This effect causes a mechanical weakness in the metallic dental implant causing bacterial growth and therefore promotes infection and prosthesis contamination. However, the in vitro treatment with a mouthwash containing zinc-substituted carbonate–hydroxyapatite reduced the surface roughness by filling the streaks with an apatitic phase. This treatment counteracts the surface oxidative process that can affect the mechanical behavior of the titanium dental implant, which inhibits the bacterial growth contaminating prostheses.Keywords: mouthwash, titanium brackets, corrosion, hydroxyapatite, aminic fluoride

Published
2013

31. Towards highly-oriented nanostructured thin films of natural and synthetic minerals: new chances for nanotechnology

Author

Campione, M, Capitani, G, Sassella, A, Malaspina, N, Gentile, P, Canevali, C, Lesci, I, Roveri, N, CAMPIONE, MARCELLO, CAPITANI, GIANCARLO, SASSELLA, ADELE, MALASPINA, NADIA, GENTILE, PAOLO, CANEVALI, CARMEN, Lesci, IG, Roveri, N., Campione, M, Capitani, G, Sassella, A, Malaspina, N, Gentile, P, Canevali, C, Lesci, I, Roveri, N, CAMPIONE, MARCELLO, CAPITANI, GIANCARLO, SASSELLA, ADELE, MALASPINA, NADIA, GENTILE, PAOLO, CANEVALI, CARMEN, Lesci, IG, and Roveri, N.

Abstract

In recent years, many efforts have been made on the synthesis of new self-assembled materials, and on scientific understanding of the formation mechanism from building molecules. With the aim to develop new functional materials, layered inorganic compounds recently attracted considerable interests for the preparation of nanoscale organic/inorganic hybrids. A large class of minerals presents inherently nanostructured morphologies. Within this group, we cite, to name a few, chrysotile, crocidolite, and montmorillonite, being examples of crystalline aggregates of nanotubes, nanorods, and nanosheets, respectively. On this basis, synthetic “geo-inspired” materials are being developed, with the aim to enhance their possibility to be employed as nanomaterials in technological applications. On the other hand, the surface of such minerals is rich of chemical groups which can bind covalently or electrostatically organic compounds capable to confer technological functionalities to the ultimate hybrid system. In order for a transition from bare mineral to functional material to be achieved, the development of processes for the deposition of highly-oriented thin film phases of such mineral nanoparticles are mandatory. Indeed, their marked anisotropic morphology influences also their physical properties, which may vary to a great extent depending on the probed direction. Here, we show the results of a scanning probe and electron microscopy, X-ray diffraction, and IR optical analysis of nanostructured thin films of natural and synthetic minerals obtained by liquid phase deposition of colloidal solutions. By assisting the deposition process with a static magnetic field, we demonstrate the possibility to induce a preferential orientation of the deposited nanoparticles, thanks to the anisotropy of their diamagnetic or paramagnetic susceptibilities. This effect is also studied in minerals deliberately doped with paramagnetic species such as Fe(II) and Fe(III) ions. Hybrid inorganic-or

Published
2011

33. Towards highly-oriented nanostructured thin films of natural and synthetic minerals: new chances for nanotechnology

Author

CAMPIONE, MARCELLO, CAPITANI, GIANCARLO, SASSELLA, ADELE, MALASPINA, NADIA, GENTILE, PAOLO, CANEVALI, CARMEN, Lesci, IG, Roveri, N., Campione, M, Capitani, G, Sassella, A, Malaspina, N, Gentile, P, Canevali, C, Lesci, I, and Roveri, N

Subjects
CHIM/03 - CHIMICA GENERALE E INORGANICA, phyllosilicate, inosilicate, magnetic anisotropy, nanostructures, liquid phase deposition, FIS/01 - FISICA SPERIMENTALE, GEO/06 - MINERALOGIA
Abstract

In recent years, many efforts have been made on the synthesis of new self-assembled materials, and on scientific understanding of the formation mechanism from building molecules. With the aim to develop new functional materials, layered inorganic compounds recently attracted considerable interests for the preparation of nanoscale organic/inorganic hybrids. A large class of minerals presents inherently nanostructured morphologies. Within this group, we cite, to name a few, chrysotile, crocidolite, and montmorillonite, being examples of crystalline aggregates of nanotubes, nanorods, and nanosheets, respectively. On this basis, synthetic “geo-inspired” materials are being developed, with the aim to enhance their possibility to be employed as nanomaterials in technological applications. On the other hand, the surface of such minerals is rich of chemical groups which can bind covalently or electrostatically organic compounds capable to confer technological functionalities to the ultimate hybrid system. In order for a transition from bare mineral to functional material to be achieved, the development of processes for the deposition of highly-oriented thin film phases of such mineral nanoparticles are mandatory. Indeed, their marked anisotropic morphology influences also their physical properties, which may vary to a great extent depending on the probed direction. Here, we show the results of a scanning probe and electron microscopy, X-ray diffraction, and IR optical analysis of nanostructured thin films of natural and synthetic minerals obtained by liquid phase deposition of colloidal solutions. By assisting the deposition process with a static magnetic field, we demonstrate the possibility to induce a preferential orientation of the deposited nanoparticles, thanks to the anisotropy of their diamagnetic or paramagnetic susceptibilities. This effect is also studied in minerals deliberately doped with paramagnetic species such as Fe(II) and Fe(III) ions. Hybrid inorganic-organic colloids are synthesized by reacting chrysotile nanotubes with ionic derivatives of metal-phthalocyanines, organic molecules which display semiconducting character in the solid state. The structure, morphology and optical properties of the magnetically driven ordered deposits of hybrid nanoparticles are analyzed and compared with those of the bare minerals. Some conclusive remarks for their technological application and perspectives are drawn.

Published
2011

44. Targeted energy pumping using a linear complex attachment

Author

Roveri, N., Antonio Carcaterra, and Akay, A.

Abstract

Date of Conference: 17-19 September 2012 The present paper considers the problem of realizing an effective targeted energy pumping from a linear oscillator to a plurality of ungrounded linear resonators, attached to it in parallel. Theoretical as well as numerical results demonstrate the efficacy of using a complex attachment as a passive absorber of broadband energy, injected into the primary structure. The paper unveils also the existence of an instantaneous frequency associated to the master response characterized by intermittency: a rather surprising result for a linear autonomous system. A comparative analysis with a nonlinear energy sink demonstrates that the two systems present some analogies in this respect and that the complex attachment is a very efficient energy trap.

Published
2012

50. Mineral-organic hybrid nanotubes as highly sensitive solid state optical chemical sensors

Author

Monguzzi, A, Lesci, I, Capitani, G, Santo, N, Roveri, N, Campione, M, MONGUZZI, ANGELO MARIA, CAPITANI, GIANCARLO, CAMPIONE, MARCELLO, Monguzzi, A, Lesci, I, Capitani, G, Santo, N, Roveri, N, Campione, M, MONGUZZI, ANGELO MARIA, CAPITANI, GIANCARLO, and CAMPIONE, MARCELLO

Abstract

Hybrid materials represent one of the strategies of materials science for accomplishing complex functionalities hardly encompassed by single-component systems. The critical step in this approach is the mixing and/or bonding between the two different components, which must preserve the original characteristics of the materials or give rise to new functionalities originating from a proper and controlled interaction between the two components. Here, we demonstrate the use of the ionic self-assembly approach for fabricating functional nanomaterials comprising an inorganic matrix constituted by synthetic geomimetic chrysotile nanotubes and an organic superficial layer of a free-base porphyrin. The resulting hybrid nanomaterial can be processed as colloidal solution and as thin solid film. In both phases, the hybrid shows a bright red fluorescence under UV-blue excitation at ca. 400 nm. This fluorescence exhibits decreasing intensity with decreasing pH, as a result of the porphyrin J-type aggregation strongly catalyzed by the mineral surface. Simultaneously, the aggregation induces a neat color change from red to green, serving as a fast direct visual test of pH variations. These results open the route for the utilization of bio-compatible and inert mineral nanomaterials with strong adsorbing properties as efficient and cost-effective solid state vectors for functional molecules. © 2014 the Owner Societies.

Published
2014

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