Your search keyword '"Ausanio, G"' showing total 193 results

151. Unconventional magnetic hysteresis of the Josephson supercurrent in magnetic Josephson Junctions

Author

Carmine Granata, Domenico Montemurro, Alessandro Miano, Roberta Caruso, Loredana Parlato, Francesco Tafuri, Giovanni Piero Pepe, G. Lamura, Halima Giovanna Ahmad, Roberta Satariano, Luigi Di Palma, Davide Massarotti, Antonio Vettoliere, Giovanni Ausanio, Daniela Salvoni, Satariano, R., Parlato, L., Caruso, R., Ahmad, H. G., Miano, A., Di Palma, L., Salvoni, D., Montemurro, D., Tafuri, F., Pepe, G. P., Massarotti, D., Ausanio, G., Vettoliere, A., Granata, C., and Lamura, G.

Subjects

Physics, Josephson effect, Condensed matter physics, Supercurrent, Superconducting magnet, Cryogenics, Magnetic hysteresis, cryogenic memory application, Magnetic field, Condensed Matter::Superconductivity, proximity effect, External field, Critical current

Abstract

In Magnetic Josephson Junctions (MJJs) based on Superconductor-Insulator-Superconductor-Ferromagnet-Superconductor (SIS’FS), we provide evidence of an unconventional magnetic field behavior of the critical current characterized by an inverted magnetic hysteresis, i.e., an inverted shift of the whole magnetic field pattern when sweeping the external field. By thermoremanence measurements of S/F/S trilayers, we have ruled out that this uncommon behavior could be related to the F-stray fields. In principle, this finding could have a crucial role in the design and proper functioning of scalable cryogenic memories.

Published

2021

152. Smart coatings prepared via maple deposition of polymer nanocapsules for light-induced release

Author

Valeria Califano, Giovanni Ausanio, Giovanni Piero Pepe, Pierfrancesco Cerruti, Francesco Abate, Veronica Ambrogi, Valentina Marturano, Luciano Rosario Maria Vicari, Marturano, V., Abate, F., Ambrogi, V., Califano, V., Cerruti, P., Pepe, G. P., Vicari, L. R. M., and Ausanio, G.

Subjects

Materials science, microneedles, MAPLE, Pharmaceutical Science, Nanoparticle, Organic chemistry, engineering.material, smart coatings, light-responsive nanocapsules, Nanocapsules, Article, Analytical Chemistry, chemistry.chemical_compound, QD241-441, Drug Discovery, Light-responsive nanocapsule, Physical and Theoretical Chemistry, chemistry.chemical_classification, Maple, Acrylate, MAPLE deposition, Microneedle, Polymer, Evaporation (deposition), Controlled release, chemistry, Chemical engineering, Azobenzene, Chemistry (miscellaneous), engineering, Molecular Medicine, controlled release, Polymer nanocapsules

Abstract

Herein, smart coatings based on photo-responsive polymer nanocapsules (NC) and deposited by laser evaporation are presented. These systems combine remotely controllable release and high encapsulation efficiency of nanoparticles with the easy handling and safety of macroscopic substrates. In particular, azobenzene-based NC loaded with active molecules (thyme oil and coumarin 6) were deposited through Matrix-Assisted Pulsed Laser Evaporation (MAPLE) on flat inorganic (KBr) and organic (polyethylene, PE) and 3D (acrylate-based micro-needle array) substrates. SEM analyses highlighted the versatility and performance of MAPLE in the fabrication of the designed smart coatings. DLS analyses, performed on both MAPLE- and drop casting-deposited NC, demonstrated the remarkable adhesion achieved with MAPLE. Finally, thyme oil and coumarin 6 release experiments further demonstrated that MAPLE is a promising technique for the realization of photo-responsive coatings on various substrates.

Published

2021

153. Nanocomposite tubes for magneto-active devices

Author

Luciano Lanotte, Giovanni Ausanio, Vincenzo Guarino, Luigi Ambrosio, Vincenzo Iannotti, Guarino, V., Iannotti, V., Ausanio, G., Ambrosio, L., and Lanotte, L.

Subjects

Materials science, Polymers and Plastics, Magnetic field-assisted electrospinning, General Chemical Engineering, lcsh:Chemical technology, elastomagnetic strain, Physics::Fluid Dynamics, Elastomagnetic strain effect, lcsh:TA401-492, Materials Chemistry, lcsh:TP1-1185, Physical and Theoretical Chemistry, Magneto-active microtube, magnetic field assisted electrospinning, Magneto, Nanocomposite, elastomagnetic strain effects, business.industry, Organic Chemistry, magneto-active microtubes, Active devices, Optoelectronics, lcsh:Materials of engineering and construction. Mechanics of materials, magneto-active tubes, Smart polymers, business

Abstract

Small polymeric ducts incorporating a ribbon-shaped mat of densely packed magnetic nanofibers have been manufactured via electrospinning by using a cylindrical manifold, alternately under rotation or static. The magnetic nanofibers mat is located on the side of the tube and aligned to the longitudinal axis using the assistance of a magnetic field. The designed methodology ensures that the magnetic particles are completely wrapped into a protective polymer shell. Experimental results demonstrate that the innovative confinement of magnetic nanofibers, forming a longitudinal ribbon on a tube side, confers a high and reversible transverse strain under a moderate magnetic field stimulus: a magnetic field gradient

Published

2020

154. Fabrication of polystyrene-encapsulated magnetic iron oxide nanoparticles via batch and microfluidic-assisted production

Author

Giovanni Piero Pepe, Giovanni Ausanio, Lucia Sansone, Chiara Taddei, Christophe A. Serra, Vincenzo Iannotti, Michele Giordano, Institut Charles Sadron (ICS), Université de Strasbourg (UNISTRA)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Réseau nanophotonique et optique, Centre National de la Recherche Scientifique (CNRS)-Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Centre National de la Recherche Scientifique (CNRS)-Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Matériaux et nanosciences d'Alsace (FMNGE), Institut de Chimie du CNRS (INC)-Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université de Strasbourg (UNISTRA)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Animal et gestion intégrée des risques (UPR AGIRs), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad), Taddei, C., Sansone, L., Ausanio, G., Iannotti, V., Pepe, G. P., Giordano, M., and Serra, C. A.

Subjects

Materials science, Fabrication, Polymers and Plastics, Microfluidics, Composite number, Nanoparticle, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Batch, Magnetite, chemistry.chemical_compound, Synthesis, Colloid and Surface Chemistry, Materials Chemistry, [SPI.GPROC]Engineering Sciences [physics]/Chemical and Process Engineering, Physical and Theoretical Chemistry, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Miniemulsion, chemistry, Microfluidic, Polystyrene, 0210 nano-technology, Iron oxide nanoparticles

Abstract

The magnetic properties of nanoparticles make them ideal for use in various applications, especially in biomedical applications. Herein, we describe the fabrication of iron oxide nanoparticles encapsulated in polystyrene (PS) using two methods: a conventional batch and microfluidic synthesis. In particular, we present a simple synthesis method of magnetic composite nanoparticles, based on the use of a microfluidic elongational flow method in a continuous-flow apparatus where magnetite particles are embedded in a polystyrene matrix. Compared to conventional batch synthesis, microfluidics-based synthesis enables precise reaction control, enhanced mixing and rapid chemical reactions, allowing flow synthesis of particles in a controllable, sustainable, and cost-saving manner that is attractive to industry. The composite particles show a high encapsulation of magnetite nanoparticles, but with an inhomogeneous size distribution; instead, the sample obtained with microfluidic approach shows a homogenous composite particle size distribution although the magnetite content is lower compared to the miniemulsion batch methods.

Published

2019

155. Matrix-assisted pulsed laser evaporation of β-glucosidase from a dopa/quinone target

Author

Luciano Rosario Maria Vicari, Filomena Sannino, Giovanni Ausanio, Antonio Aronne, Valeria Califano, Giovanni Piero Pepe, Giuseppe Perretta, Aniello Costantini, Ausanio, G., Califano, V., Costantini, A., Perretta, G., Aronne, A., Pepe, G. P., Sannino, F., and Vicari, LUCIANO ROSARIO MARIA

Subjects

0106 biological sciences, 0301 basic medicine, Cellobiose, Bioengineering, Cellulase, 01 natural sciences, Applied Microbiology and Biotechnology, Biochemistry, Catalysis, Matrix (chemical analysis), 03 medical and health sciences, chemistry.chemical_compound, Hydrolysis, Multienzyme Complexes, 010608 biotechnology, Benzoquinones, Cellulose, Protein secondary structure, biology, Chemistry, beta-Glucosidase, Quinones, Temperature, Hydrogen-Ion Concentration, Enzymes, Immobilized, Quinone, Dihydroxyphenylalanine, 030104 developmental biology, biology.protein, Biotechnology, Nuclear chemistry

Abstract

β-glucosidase (BG) plays a key role in determining the efficiency of the enzymatic complex cellulase for the degradation of cellulose into sugars. It hydrolyses the cellobiose, an inhibitor of the enzymatic complex. Therefore, the immobilization of BG is a great challenge for the industrial application of cellulases. Cellulases usually contains a BG amount insufficient to avoid inhibition by cellobiose. Here the BG was immobilized by matrix assisted pulsed laser evaporation (MAPLE) technique. The frozen matrix was composed of water, water/m-DOPA and water/m-DOPA/quinone. The effect of the excipients on the final conformation of the enzyme after the MAPLE processing was determined. The enzyme secondary structure was studied by FTIR analysis. The catalytic performances of the deposited films were tested in the cellobiose hydrolysis reaction. The results demonstrate that the presence of the oxidized form of m-DOPA, the O-quinone form, can protect the protein native structure, with the laser inducing little or no damage. In fact, only the samples deposited from this target preserved the secondary structure of the polypeptide chain and allowed a complete hydrolysis of cellobiose for four consecutive runs, showing a high operational stability of the biocatalyst.

Published

2019

156. PLD fabrication of oriented nanowires in magnetic field

Author

Ru.G. Nikov, A.Og. Dikovska, Giovanni Ausanio, Nikolay N. Nedyalkov, Salvatore Amoruso, Georgi Avdeev, Nikov, Ru. G., Dikovska, A. Og., Avdeev, G. V., Amoruso, S., Ausanio, G., and Nedyalkov, N. N.

Subjects

Morphology (linguistics), Fabrication, Materials science, Iron oxide, Nanowire, General Physics and Astronomy, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Pulsed laser deposition, chemistry.chemical_compound, business.industry, Surfaces and Interfaces, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 0104 chemical sciences, Surfaces, Coatings and Films, Magnetic field, chemistry, Phase composition, Magnetic nanoparticles, Optoelectronics, PLD, 0210 nano-technology, business

Abstract

This paper presents an experimental investigation on laser-assisted fabrication of oriented nanowires composed by magnetic nanoparticles. The nanowires were produced by implementation of pulsed laser deposition in presence of a magnetic field. The application of an external magnetic field led to the formation of nanowires with a length of several micrometers whose orientation is influenced by the direction of the magnetic field lines. The influence of the type of ambient gas and its pressure on morphology and phase composition of the deposited samples was investigated. It was found that the ambient gas has direct influence on both the degree of orientation and the phase composition of the nanowires. SEM analysis of samples deposited at different target-substrate distances showed that the density of the nanowires decreases with the increase of the distance. A preliminary result on the magnetic properties of the produced nanowires is also reported.

Published

2019

157. Visible-Light Responsive Nanocapsules for Wavelength-Selective Release of Natural Active Agents

Author

Bartosz Tylkowski, Valentina Marturano, Marta Giamberini, Giovanni Ausanio, Anna Trojanowska, Pierfrancesco Cerruti, Cosimo Carfagna, Veronica Ambrogi, Nuno A. G. Bandeira, Hugo Marcille, Marturano, V., Marcille, H., Cerruti, P., Bandeira, N. A. G., Giamberini, M., Trojanowska, A., Tylkowski, B., Carfagna, C., Ausanio, G., and Ambrogi, V.

Subjects

natural active agents, Materials science, Comonomer, modified azobenzene, Nanotechnology, visible light-triggered release, polymer nanocapsule, Nanocapsules, Miniemulsion, chemistry.chemical_compound, Wavelength, wavelength selectivity, natural active agent, Polymerization, chemistry, Azobenzene, Drug delivery, polymer nanocapsules, drug delivery, General Materials Science, Visible spectrum

Abstract

A breakthrough feature of visible-light responsive polymer nanocapsules relies on the possibility of customizing the release of the cargo material via precise tuning of the triggering wavelength in the visible spectrum. Here, visible-light responsive polymer nanocapsules are successfully fabricated through interfacial miniemulsion polymerization, introducing a comonomer based on modified ortho-substituted azobenzene in the capsule shell. Thyme essential oil and a model drug molecule, Coumarin-6, are encapsulated as core materials. Continuous irradiation with sunlight or visible light at different wavelenghts gives rise to smooth release patterns whose kinetics is studied as a function of the wavelength and intensity of the light source. Interestingly, an on-off release behavior is achieved when the capsules are irradiated with white or green light. Considering that visible light is readily available and unharmful to human beings, these intelligent delivery platforms are potentially applicable in a wide range of applications requiring a more sustainable approach, such as crop protection, cosmetics and packaging.

Published

2019

158. Laser deposition from a lava stone cup

Author

Valeria Califano, Giovanni Ausanio, Luciano Rosario Maria Vicari, Aniello Costantini, Giovanni Piero Pepe, Claudia Vicari, Ausanio, G., Califano, V., Costantini, A., Pepe, G. P., Vicari, C., and Vicari, L. R. M.

Subjects

Basalt, Materials science, MAPLE, Thin films, Evaporation, 02 engineering and technology, Substrate (electronics), 010402 general chemistry, 021001 nanoscience & nanotechnology, Laser, 01 natural sciences, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Electronic, Optical and Magnetic Materials, law.invention, Biomolecules deposition, law, NIR radiation, Irradiation, Laser power scaling, Electrical and Electronic Engineering, Composite material, Thin film, 0210 nano-technology, Deposition (law)

Abstract

We propose a procedure for the growth of thin films of organic and bio-molecules, which is based on MAPLE (Matrix Assisted Pulsed Laser Evaporation) and inspired by the laser cleaning technique. This procedure is MAPLE-like, meaning that the “evaporation”, or better the ejection of the material to deposit, is not assisted by the matrix, but rather by the target-holder. The target-holder is basalt, a magmatic rock which is able to absorb the laser radiation used (1064 nm) thanks to its high content in iron oxides. A thin veil of solution that contains the molecule of interest is placed into the basalt cup, frozen and irradiated. The laser radiation reaches the bottom of the cup, where it is absorbed. The consequent increase in temperature generates the phase explosion of the overlying frozen matrix. This procedure can be used to obtain thin films from transparent matrices. Here we deposited the enzyme β-glucosidase highly preserving its native conformation. The laser power used was under the ablation threshold of the basalt, so that only few fragments of the rock reached the substrate.

Published

2020

159. OSCAR: A new modular device for the identification and correlation of low energy particles

Author

A. Chbihi, N. Le Neindre, J.D. Frankland, A. Ordine, E. Bonnet, S. Valdrè, A. Camaiani, R. Bougault, M. Parlog, Q. Faible, D. Dell'Aquila, B. Borderie, Luca Morelli, A.J. Kordyasz, Giovanni Casini, Giuseppe Verde, Andrea Stefanini, D. Fabris, Tomasz Kozik, I. Lombardo, Tommaso Marchi, Giovanni Ausanio, L. Augey, Silvia Piantelli, E. Vient, Gabriele Pasquali, M. Bruno, R. LaTorre, G. Tortone, Domenico Santonocito, P. Ottanelli, Mariano Vigilante, R. Alba, M De Luca, Miguel A. Miranda, G. Pastore, Sandro Barlini, L. Francalanza, Diego Gruyer, Magda Cicerchia, L. Grassi, O. Lopez, M. Cinausero, F. Gramegna, Institut de Physique Nucléaire d'Orsay (IPNO), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de physique corpusculaire de Caen (LPCC), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU)-École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), Normandie Université (NU)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Grand Accélérateur National d'Ions Lourds (GANIL), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Dell'Aquila, D., Lombardo, I., Verde, G., Vigilante, M., Ausanio, G., Ordine, A., Miranda, M., De Luca, M., Alba, R., Augey, L., Barlini, S., Bonnet, E., Borderie, B., Bougault, R., Bruno, M., Camaiani, A., Casini, G., Chbihi, A., Cicerchia, M., Cinausero, M., Fabris, D., Faible, Q., Francalanza, L., Frankland, J. D., Grassi, L., Gramegna, F., Gruyer, D., Kordyasz, A. J., Kozik, T., Latorre, R., Le Neindre, N., Lopez, O., Marchi, T., Morelli, L., Ottanelli, P., Parlog, M., Pastore, G., Pasquali, G., Piantelli, S., Santonocito, D., Stefanini, A. A., Tortone, G., Valdrè, S., Vient, E., Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11), Normandie Université (NU)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), and Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)

Subjects

Nuclear and High Energy Physics, Work (thermodynamics), Photon, Nuclear physics detectors, particle identification, thin silicon detectors, 01 natural sciences, Spectral line, ion channeling, Nuclear physics, Modular detectors, Hodoscope, 0103 physical sciences, Isospin dynamics, Thin silicon detectors, [PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det], 010306 general physics, Nuclear Experiment, Instrumentation, silicon uniformity, ComputingMilieux_MISCELLANEOUS, Nuclear and High Energy Physic, Physics, 010308 nuclear & particles physics, Detector, Low identification thresholds, Modular detector, Isospin, modular detectors, Ion channeling, Low identification threshold, low identification thresholds, Silicon uniformity, isospin dynamics, Transport phenomena, Isospin dynamic, Energy (signal processing), Thin silicon detector

Abstract

A new modular and high versatility hodoscope , OSCAR, has been developed and characterized. The aim of this hodoscope is to work as an ancillary detector of present large acceptance heavy ion detectors in specific angular regions where low thresholds and high granularities are needed. We discuss the capabilities of OSCAR in the Δ E–E identification of very low energy light particles, providing a precise map of the thickness uniformity of the Δ E (SSSSD, 20 μ m ) stage and showing how the thickness gradient affects the identification of particles. Energy spectra of light identified particles produced in Ca+Ca collisions at 35 AMeV are used to investigate isospin transport phenomena involving the emission of low energy particles from the quasi-target (QT) source in semi-peripheral nuclear collisions. The possibility to explore particle–particle correlations are also discussed.

Published

2018

160. Plasmon-enhanced Raman spectroscopy: Towards hyperuniform ultrasensitive enhancement through hyperuniform disorder

Author

Giuseppe Pesce, Giovanni Ausanio, Anna Malafronte, Alden Dochshanov, Giulia Rusciano, Gianluigi Zito, Antonio Sasso, Zito, G., Rusciano, G., Pesce, G., Dochshanov, A. M., Malafronte, A., Ausanio, G., and Sasso, A.

Subjects

symbols.namesake, Materials science, hyperuniform disorder, symbols, Analytical chemistry, Nanotechnology, Raman spectroscopy, self-assembling, surface-enhanced Raman spectroscopy, Plasmon

Abstract

We are developing a polymer-silver nanocomposite self-assembling-based protocol for fabricating surface-enhanced Raman scattering (SERS) substrates for versatile applications. The substrate is based on a silver-made fractal nanotexture produced by the long-range self-assembling of Ag-loaded block-copolymer micelles. We removed the nano-packing limitation imposed by the copolymer shell, achieving a condition close to the so-called hyperuniform structural disorder. Despite the large enhancement factor, estimated up to 109, the SERS response shows an ultrahigh spatial uniformity with a relative standard deviation in the range 0.9% - 5.6%, as measured from raster scans covering a total area of 1 cm2, that is from an active surface orders of magnitude larger than the typical nanofeature size and produced by an innovative low-cost and immediate deposition. The SERS-active coating allows large-scale spectroscopic scanning as required for real biological applications, still having, as experimentally evidenced, single-molecule sensitivity. © 2014 IEEE.

Published

2014

161. Metastability in Fe62.5Co6Ni7.5Zr6Nb2Cu1B15 amorphous alloy and optimisation of its magnetoelastic response

Author

F Vinai, F Branda, M. Carbucicchio, Vincenzo Iannotti, Giovanni Ausanio, A. Stantero, G. Luciani, Luca Lanotte, Lanotte, L, Ausanio, G, Iannotti, V, Branda, Francesco, Luciani, Giuseppina, Stantero, A, Vinai, F, Carbucicchio, M., Ausanio, Giovanni, Branda, F, Luciani, G, L., Lanotte, G., Ausanio, V., Iannotti, F., Branda, A., Stantero, F., Vinai, and M., Carbucicchio

Subjects

Materials science, Amorphous metal, Condensed matter physics, Condensed Matter Physics, Amorphous solid, law.invention, Condensed Matter::Materials Science, Magnetization, law, Differential thermal analysis, Metastability, Curie temperature, General Materials Science, Crystallization, Glass transition

Abstract

A new metallic glass alloy characterized by high amplitude of magnetoelastic waves was synthesized. X-ray spectra evidenced the amorphous structure in the as-cast material, while differential thermal analysis confirmed the metastable initial phase and the occurrence of several crystallization peaks. The alloy shows a high difference between the glass transition and crystallization temperatures. Several heat treatments were performed and the structural relaxation effects were shown by means of the behavior of magnetization, Curie temperature and the resonant magneto-elastic wave amplitude. The strong increase of the last parameter, induced by the occurrence of the amorphous structure, is the most important result for application. Magnetic and magneto-elastic properties deteriorate if crystallization occurs, but in the optimal condition a partial nanocrystallisation may be present.

Published

1999

162. A novel microdeletion in the IGF2/H19 imprinting centre region defines a recurrent mutation mechanism in familial Beckwith-Wiedemann syndrome

Author

Gaetano Ausanio, Filomena Coppola, Flavia Cerrato, Italo Bernardo, Pietro Falco, Agostina De Crescenzo, Andrea Riccio, Luigi Falco, De Crescenzo, A, Coppola, F, Falco, P, Bernardo, I, Ausanio, G, Cerrato, Flavia, Falco, L, and Riccio, Andrea

Subjects

Adult, Male, Beckwith-Wiedemann Syndrome, RNA, Untranslated, Genotype, Genomic imprinting, Beckwith–Wiedemann syndrome, Short Report, Growth disorders, Biology, Insulin-Like Growth Factor II, Gene Order, medicine, Genetics, Humans, Genetics(clinical), Growth disorder, Epigenetics, Imprinting (psychology), Genetics (clinical), Chromosomes, Human, Pair 11, Infant, Newborn, Epigenetic, General Medicine, DNA Methylation, Uniparental Disomy, medicine.disease, Penetrance, Molecular biology, Uniparental disomy, Pedigree, Phenotype, CTCF, DNA methylation, Mutation, Female, RNA, Long Noncoding, Chromosome Deletion

Abstract

The overgrowth disorder Beckwith-Wiedemann syndrome (BWS) is associated with dysregulation of imprinted genes at chromosome 11p15.5. The molecular defects are heterogeneous but most of the cases are associated with defective DNA methylation at either one of two Imprinting Control Regions (IC1 and IC2) or Uniparental paternal Disomy (UPD) at 11p15.5. In rare cases, the BWS phenotype has been found associated with maternal transmission of IC1 microdeletions. We describe a family with a novel 1.8. kb deletion that is associated with hypermethylation at IC1. The mutation results from recombination between highly homologous sequences containing target sites for the zinc-finger protein CTCF (CTSs). This finding supports the hypothesis that the function of IC1 and the penetrance of the clinical phenotype depend on the spacing of the CTSs resulting from recombination in the mutant allele. © 2011 Elsevier Masson SAS.

Published

2011

163. Advanced composite substrates for hard tissue regeneration

Author

U. D'Amora, T. Russo, A. Gloria, V. D'Antò, G. Ametrano, F. Bollino, R. De Santis, G. Ausanio, M. Catauro, S. Rengo, L. Ambrosio., D’Amora, U, Russo, T, Gloria, A, D’Antò, V, Ametrano, G, Bollino, F, De Santis, R, Ausanio, G, Catauro, Michelina, Rengo, S, and Ambrosio, L.

Published

2011

164. Poly(e-caprolactone) reinforced with sol-gel synthesized organic-inorganic hybrid fillers as composite substrates for tissue engineering

Author

Teresa Russo, Sandro Rengo, Antonio Gloria, Luigi Ambrosio, Roberto De Santis, Vincenzo D'Antò, Ugo D'Amora, Giovanni Ausanio, Flavia Bollino, Gianluca Ametrano, Michelina Catauro, Russo, Teresa, Gloria, Antonio, D’Antò, V., D’Amora, U., Ametrano, Gianluca, Bollino, F., DE SANTIS, Roberto, Ausanio, Giovanni, Catauro, M., Rengo, Sandro, Ambrosio, Luigi, Russo, T, Gloria, A, Dantò, V, Damora, U, Ametrano, G, Bollino, Flavia, DE SANTIS, R, Ausanio, G, Catauro, Michelina, Rengo, S, and Ambrosio, L.

Subjects

Inorganic Chemical, chemistry.chemical_classification, Titanium, Materials science, Tissue Engineering, Polyesters, Composite number, chemistry.chemical_element, Polymer, Microscopy, Atomic Force, Polyester, chemistry.chemical_compound, chemistry, Tissue engineering, Inorganic Chemicals, Polymethyl Methacrylate, Zirconium, Composite material, Organic Chemicals, Caprolactone, Gels, Sol-gel

Abstract

Purpose: The importance of polymer-based composite materials to make multifunctional substrates for tissue engineering and the strategies to improve their performances have been stressed in the literature. Bioactive features of sol-gel synthesized poly(epsilon-caprolactone)/TiO(2) or poly(epsilon-caprolactone)/ZrO(2) organic-inorganic hybrid materials are widely documented. Accordingly, the aim of this preliminary research was to develop advanced composite substrates consisting of a poly(epsilon-caprolactone) matrix reinforced with sol-gel synthesized PCL/TiO(2) or PCL/ZrO(2) hybrid fillers. Methods: Micro-computed tomography and atomic force microscopy analyses allowed to study surface topography and roughness. On the other hand, mechanical and biological performances were evaluated by small punch tests and Alamar Blue (TM) assay, respectively. Results: Micro-computed tomography and atomic force microscopy analyses highlighted the effect of the preparation technique. Results from small punch tests and Alamar Blue (TM) assay evidenced that PCL reinforced with Ti2 (PCL=12, TiO(2) = 88 wt%) and Zr2 (PCL=12, ZrO(2) = 88 wt%) hybrid fillers provided better mechanical and biological performances. Conclusions: PCL reinforced with Ti2 (PCL=12, TiO(2) = 88 wt%) and Zr2 (PCL=12, ZrO(2) = 88 wt%) hybrid fillers could be considered as advanced composite substrates for hard tissue engineering.

Published

2010

165. Sol-gel synthesis, characterization and bioactivity of Poly(ether-imide)/TiO2 hybrid materials

Author

M. Catauro, RAUCCI, Mariagrazia, AUSANIO, GIOVANNI, AMBROSIO, LUIGI, Catauro, Michelina, Raucci, Mg, Ausanio, G, Ambrosio, L., M., Catauro, Raucci, Mariagrazia, Ausanio, Giovanni, and Ambrosio, Luigi

Subjects

technology, industry, and agriculture

Abstract

Novel organic-inorganic hybrid materials were synthesized by the sol-gel method from a multicomponent solution containing titanium butoxide, 6 weight % (wt%) or 12 wt% poly(ether-imide) (PEI), water and chloroform. The structure of the interpenetrating network is realized by hydrogen bonds between the Ti-OH group (H-donator) in the sol-gel intermediate species and the carboxylic group (H-acceptor) in the repeating units of the polymer. By Fourier transform infrared (FTIR) analysis the presence of hydrogen bonds between organic-inorganic components of the hybrid materials were proved. The morphology of the hybrid materials was studied by scanning electron microscopy (SEM). The structure of a molecular level dispersion was disclosed by an atomic force microscope (AFM), pore size distribution and surface measurements. The AFM and SEM analyzes confirmed that the PEI/TiO2 samples can be considered homogenous organic/inorganic hybrid materials because in both the compositions studied the average domains were less than 400 nm in size. The bioactivity of the synthesized hybrid materials was demonstrated by the formation of a layer of hydroxyapatite on the surface of the PEI/TiO2 samples soaked in a fluid simulating the composition of human blood plasma (SBF), demonstrated by SEM and energy dispersive spectroscopy (EDS) microscopy.

Published

2007

166. Metastability in Fe62.5Co6Ni7.5Zr6Cu1Nb2B15 amorphous alloy and optimisation of its magnetoelastic response

Author

LANOTTE, LUCIANO, IANNOTTI, VINCENZO, G. Ausanio, F. Branda, G. Luciani, A. Stantero, F. Vinai, M. Carbucicchio, Lanotte, Luciano, Ausanio, G., Iannotti, Vincenzo, Branda, F., Luciani, G., Stantero, A., Vinai, F., and Carbucicchio, M.

Subjects

Thermal effect, Magnetoelastic wave amplitude, Amorphous alloy, Crystallization

Abstract

A new metallic glass alloy characterized by high amplitude of magnetoelastic waves was synthesized. X-ray spectra evidenced the amorphous structure in the as-cast material, while differential thermal analysis confirmed the metastable initial phase and the occurrence of several crystallization peaks. The alloy shows a high difference between the grass transition and crystallization temperatures. Several heat treatments were performed and the structural relaxation effects were shown by means of the behavior of magnetization, Curie temperature and the resonant magneto-elastic wave amplitude. The strong increase of the last parameter, induced by the occurrence of the amorphous structure, is the most important result for application. Magnetic and magneto-elastic properties deteriorate if crystallization occurs, but in the optimal condition a partial nanocrystallisation may be present.

Published

1999

167. Potentialities and limits of magnetoelasticity applications for noise detection and attenuation

Author

Giovanni AUSANIO, Hison, C., Iannotti, V., Luponio, C., Lanotte, L., Ausanio, G., Hison, C., Iannotti, V., Luponio, C., and Lanotte, L.

Abstract

Starting from the basic phenomena of direct and inverse magnetostriction, the status of art of actual application and material development are critically reviewed. Important developments in noise detection and control are pointed out and several innovations are also reported. On the other hand, the crucial improvements to be performed in material performance, devices techniques and modeling are clearly discussed. In particular the first characterization of a new device, based on a novel composite material made of magnetic particles dispersed in an elastic matrix, able of self-attenuation of vibrations also at the resonance frequency, is reported and discussed. Since some problems in vibration control are related to the induction of a spontaneous acoustic mode in the core of the device used for the oscillations detection and/or attenuation, this new system appears to be very interesting for the researchers community involved in noise control and monitoring.

168. Biocompatible Hybrid Graphenic Thin Coatings on Flexible Substrates through Matrix-Assisted Pulsed Laser Evaporation (MAPLE).

Author

Alfe M, Minopoli G, Tartaglia M, Gargiulo V, and Ausanio G

Subjects

Mice, Animals, Humans, NIH 3T3 Cells, Lasers, HeLa Cells, HaCaT Cells, Indoles chemistry, Graphite chemistry, Polymers chemistry, Coated Materials, Biocompatible chemistry, Coated Materials, Biocompatible pharmacology

Abstract

This work reports the production of biocompatible thin layers for biomedical applications based on a graphene-like material (GL), a graphene-related material (GRM) obtained from carbon black. GL was combined in a hybrid fashion with polydopamine (pDA), a mussel-inspired water-resistant wet adhesive bonding obtained by the oxidative polymerization of dopamine (DA), and polyvinyl pyrrolidinone (PVP), a nontoxic synthetic polymer with intrinsic adhesion properties, to obtain a tighter adhesion of the thin layer to the substrate (silicone slices). Matrix-assisted pulsed laser evaporation (MAPLE) was used to coat PDMS slices with thin films of GL-pDA and GL-PVP directly from their frozen suspensions in water. The results indicate that the relevant chemical-physical characteristics of both thin films (evidenced by FTIR and AFM) were maintained after MAPLE deposition and that the films exhibit uniformity also at the nanometric level. After deposition, the GL-pDA and GL-PVP films underwent a biological survey toward murine fibroblasts (NIH3T3), human keratinocytes (HaCAT), and human cervical adenocarcinoma epithelial-like (HeLa) cells to assess the feasibility of this approach. Results indicate that both the GL-pDA and GL-PVP films did not perturb the biological parameters evaluated, including cytoskeleton alterations. Both hybrid films enhanced the effects of GL on cellular vitality across all cell lines. Specifically, the GL-pDA film exhibited a more stable effect over time (up to 72 h), whereas the GL-PVP film behaved similarly to the GL film in NIH3T3 and HeLa cell lines after long-term exposure. These promising results make the GL-pDA and GL-PVP films potential candidates for the manufacture of coated flexible devices for biomedical applications.

Published

2024

169. An integrated design strategy coupling additive manufacturing and matrix-assisted pulsed laser evaporation (MAPLE) towards the development of a new concept 3D scaffold with improved properties for tissue regeneration.

Author

Russo T, Peluso V, Gloria A, Gargiulo V, Alfe M, and Ausanio G

Abstract

Bioinspired strategies for scaffold design and optimization were improved by the introduction of Additive Manufacturing (AM), thus allowing for replicating and reproducing complex shapes and structures in a reliable manner, adopting different kinds of polymeric and nanocomposite materials properly combined according to the features of the natural host tissues. Benefiting from recent findings in AM, a Matrix-Assisted Pulsed Laser Evaporation (MAPLE) technique was employed for obtaining graphene-like material (GL) uniform coatings on 3D scaffolds for tissue repair strategies, towards the development of a new concept 3D scaffold with controlled morphological/architectural and surface features and mechanical and biological properties. The effect of the material-design combination through an integrated technological approach ( i.e. , MAPLE deposition of GL on 3D AM PCL scaffolds) was assessed through scanning electron microscopy, atomic force microscopy, contact angle measurements, mechanical measurements and biological analyses (cell viability assay and alkaline phosphatase activity) in conjunction with confocal laser scanning microscopy. The differentiation of hMSCs towards the osteoblast phenotype was also investigated analysing the gene expression profile. The obtained findings provided a further insight into the development of improved strategies for the functionalization or combination of GL with other materials and 3D structures in a hybrid fashion for ensuring a tighter adhesion onto the substrates, improving cell fate over time, without negatively altering the mechanical properties and behaviour of the neat constructs. In particular, the results provided interesting information, making 3D AM GL-coated scaffolds potential candidates for bone tissue engineering., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2024

170. Magnetic Response of Nano/Microparticles into Elastomeric Electrospun Fibers.

Author

Iannotti V, Ausanio G, Ferretti AM, Babar ZUD, Guarino V, Ambrosio L, and Lanotte L

Abstract

Combining magnetic nanoparticles (MNPs) with high-voltage processes to produce ultra-thin magnetic nanofibers (MNFs) fosters the development of next-generation technologies. In this study, polycarbonate urethane nanofibers incorporating magnetic particles were produced via the electrospinning technique. Two distinct types of magnetic payload were used: (a) iron oxide nanoparticles (IONPs) with an average size and polydispersity index of 7.2 nm and 3.3%, respectively; (b) nickel particles (NiPs) exhibiting a bimodal size distribution with average sizes of 129 nanometers and 600 nanometers, respectively, and corresponding polydispersity indexes of 27.8% and 3.9%. Due to varying particle sizes, significant differences were observed in their aggregation and distribution within the nanofibers. Further, the magnetic response of the IONP and/or NiP-loaded fiber mats was consistent with their morphology and polydispersity index. In the case of IONPs, the remanence ratio (M r /M s ) and the coercive field (H c ) were found to be zero, which agrees with their superparamagnetic behavior when the average size is smaller than 20-30 nm. However, the NiPs show M r /M s = 22% with a coercive field of 0.2kOe as expected for particles in a single or pseudo-single domain state interacting with each other via dipolar interaction. We conclude that magnetic properties can be modulated by controlling the average size and polydispersity index of the magnetic particles embedded in fiber mats to design magneto-active systems suitable for different applications (i.e., wound healing and drug delivery)., Competing Interests: The authors declare no conflicts of interest.

Published

2023

171. High-Quality Ferromagnetic Josephson Junctions Based on Aluminum Electrodes.

Author

Vettoliere A, Satariano R, Ferraiuolo R, Di Palma L, Ahmad HG, Ausanio G, Pepe GP, Tafuri F, Massarotti D, Montemurro D, Granata C, and Parlato L

Abstract

Aluminum Josephson junctions are the building blocks for the realization of superconducting quantum bits. Attention has been also paid to hybrid ferromagnetic Josephson junctions, which allow switching between different magnetic states, making them interesting for applications such as cryogenic memories, single-photon detectors, and spintronics. In this paper, we report on the fabrication and characterization of high-quality ferromagnetic Josephson junctions based on aluminum technology. We employed an innovative fabrication process inspired by niobium-based technology, allowing us to obtain very high-quality hybrid aluminum Josephson junctions; thus, supporting the use of ferromagnetic Josephson junctions in advanced quantum circuits. The fabrication process is described in detail and the main DC transport properties at low temperatures (current-voltage characteristic, critical current as a function of the temperature, and the external magnetic field) are reported. Here, we illustrate in detail the fabrication process, as well as the main DC transport properties at low temperatures (current-voltage characteristic, critical current as a function of the temperature, and the external magnetic field).

Published

2022

172. Coating of Flexible PDMS Substrates through Matrix-Assisted Pulsed Laser Evaporation (MAPLE) with a New-Concept Biocompatible Graphenic Material.

Author

Alfe M, Minopoli G, Tartaglia M, Gargiulo V, Caruso U, Pepe GP, and Ausanio G

Abstract

In this study, matrix-assisted pulsed laser evaporation (MAPLE) was used to deposit graphene-like materials (GL), a new class of biocompatible graphene-related materials (GRMs) obtained from a controlled top-down demolition of a carbon black, on silicone slices to test their potential use as functional coating on invasive medical devices as indwelling urinary catheters. Results indicate that the relevant chemical-physical features of the deposit (controlled by FTIR and AFM) were maintained after MAPLE deposition. After deposition, GL films underwent a biological survey toward target cellular lines (murine fibroblast NIH3T3, human keratinocytes HaCAT and the human cervical adenocarcinoma epithelial-like HeLa). Results indicate that the GL films did not lead to any perturbations in the different biological parameters evaluated. The presented results and the possibility to further functionalize the GL or combine them with other functional materials in a hybrid fashion to assure a tighter adhesion onto the substrate for use in harsh conditions open the door to practical applications of these new-concept medical devices (drug delivery, next generation flexible devices, multifunctional coatings) paving the way to the prevention of nosocomial infections driven by catheterization through antibiotics-free approaches.

Published

2022

173. Tailoring defects and nanocrystal transformation for optimal heating power in bimagnetic Co y Fe 1- y O@Co x Fe 3- x O 4 particles.

Author

Antonaropoulos G, Vasilakaki M, Trohidou KN, Iannotti V, Ausanio G, Abeykoon M, Bozin ES, and Lappas A

Abstract

The effects of cobalt incorporation in spherical heterostructured iron oxide nanocrystals (NCs) of sub-critical size have been explored by colloidal chemistry methods. Synchrotron X-ray total scattering methods suggest that cobalt (Co) substitution in rock salt iron oxide NCs tends to remedy their vacant iron sites, offering a higher degree of resistance to oxidative conversion. Self-passivation still creates a spinel-like shell, but with a higher volume fraction of the rock salt Co-containing phase in the core. The higher divalent metal stoichiometry in the rock salt phase, with increasing Co content, results in a population of unoccupied tetrahedral metal sites in the spinel part, likely through oxidative shell creation, involving an ordered defect-clustering mechanism, directly correlated to core stabilization. To shed light on the effects of Co-substitution and atomic-scale defects (vacant sites), Monte Carlo simulations suggest that the designed NCs, with desirable, enhanced magnetic properties ( cf. exchange bias and coercivity), are developed with magnetocrystalline anisotropy which increases due to a relatively low content of Co ions in the lattice. The growth of optimally performing candidates combines also a strongly exchange-coupled system, secured through a high volumetric ratio rock salt phase, interfaced by a not so defective spinel shell. In view of these requirements, specific absorption rate (SAR) calculations demonstrate that the rock salt core sufficiently protected from oxidation and the heterostructure preserved over time, play a key role in magnetically mediated heating efficacies, for potential use of such NCs in magnetic hyperthermia applications.

Published

2022

174. Nanopatterning of oxide 2-dimensional electron systems using low-temperature ion milling.

Author

D'Antuono M, Kalaboukhov A, Caruso R, Wissberg S, Weitz Sobelman S, Kalisky B, Ausanio G, Salluzzo M, and Stornaiuolo D

Abstract

We present a 'top-down' patterning technique based on ion milling performed at low-temperature, for the realization of oxide two-dimensional electron system devices with dimensions down to 160 nm. Using electrical transport and scanning Superconducting QUantum Interference Device measurements we demonstrate that the low-temperature ion milling process does not damage the 2DES properties nor creates oxygen vacancies-related conducting paths in the STO substrate. As opposed to other procedures used to realize oxide 2DES devices, the one we propose gives lateral access to the 2DES along the in-plane directions, finally opening the way to coupling with other materials, including superconductors., (Creative Commons Attribution license.)

Published

2021

175. An Oenothera biennis Cell Cultures Extract Endowed with Skin Anti-Ageing Activity Improves Cell Mechanical Properties.

Author

Ceccacci S, De Lucia A, Tito A, Tortora A, Falanga D, Arciello S, Ausanio G, Di Cicco C, Monti MC, and Apone F

Abstract

Skin aging is a very well-known process setting a gradual worsening of skin mechanical features due to a decline in the production of the extra-cellular matrix machinery and to a concurrent change in the contraction process. To slow this progression, it is crucial to induce the expression of several proteins able to promote elastic fibers formation and tissue repair. Here, the Oenothera biennis cell culture aqueous extract has been investigated from a chemical point of view and then it was tested in vitro, in cell, and in ex vivo experiments as adjuvant in counteracting skin aging. Accordingly, it has been shown that the Oenothera biennis extract was able, by increasing MYLK gene expression, to promote matrix collagen contraction, actin polymerization, and the production of essential ECM proteins.

Published

2021

176. Smart Coatings Prepared via MAPLE Deposition of Polymer Nanocapsules for Light-Induced Release.

Author

Marturano V, Abate F, Ambrogi V, Califano V, Cerruti P, Pepe GP, Vicari LRM, and Ausanio G

Abstract

Herein, smart coatings based on photo-responsive polymer nanocapsules (NC) and deposited by laser evaporation are presented. These systems combine remotely controllable release and high encapsulation efficiency of nanoparticles with the easy handling and safety of macroscopic substrates. In particular, azobenzene-based NC loaded with active molecules (thyme oil and coumarin 6) were deposited through Matrix-Assisted Pulsed Laser Evaporation (MAPLE) on flat inorganic (KBr) and organic (polyethylene, PE) and 3D (acrylate-based micro-needle array) substrates. SEM analyses highlighted the versatility and performance of MAPLE in the fabrication of the designed smart coatings. DLS analyses, performed on both MAPLE- and drop casting-deposited NC, demonstrated the remarkable adhesion achieved with MAPLE. Finally, thyme oil and coumarin 6 release experiments further demonstrated that MAPLE is a promising technique for the realization of photo-responsive coatings on various substrates.

Published

2021

177. Lung recruitment before surfactant administration in extremely preterm neonates with respiratory distress syndrome (IN-REC-SUR-E): a randomised, unblinded, controlled trial.

Author

Vento G, Ventura ML, Pastorino R, van Kaam AH, Carnielli V, Cools F, Dani C, Mosca F, Polglase G, Tagliabue P, Boni L, Cota F, Tana M, Tirone C, Aurilia C, Lio A, Costa S, D'Andrea V, Lucente M, Nigro G, Giordano L, Roma V, Villani PE, Fusco FP, Fasolato V, Colnaghi MR, Matassa PG, Vendettuoli V, Poggi C, Del Vecchio A, Petrillo F, Betta P, Mattia C, Garani G, Solinas A, Gitto E, Salvo V, Gargano G, Balestri E, Sandri F, Mescoli G, Martinelli S, Ilardi L, Ciarmoli E, Di Fabio S, Maranella E, Grassia C, Ausanio G, Rossi V, Motta A, Tina LG, Maiolo K, Nobile S, Messner H, Staffler A, Ferrero F, Stasi I, Pieragostini L, Mondello I, Haass C, Consigli C, Vedovato S, Grison A, Maffei G, Presta G, Perniola R, Vitaliti M, Re MP, De Curtis M, Cardilli V, Lago P, Tormena F, Orfeo L, Gizzi C, Massenzi L, Gazzolo D, Strozzi MCM, Bottino R, Pontiggia F, Berardi A, Guidotti I, Cacace C, Meli V, Quartulli L, Scorrano A, Casati A, Grappone L, and Pillow JJ

Subjects

Female, Humans, Infant, Extremely Premature, Infant, Newborn, Intensive Care Units, Neonatal, Italy, Lung physiopathology, Male, Respiration, Artificial statistics & numerical data, Treatment Outcome, Airway Extubation methods, Critical Care methods, Intubation, Intratracheal methods, Pulmonary Surfactants therapeutic use, Respiratory Distress Syndrome, Newborn therapy

Abstract

Background: The importance of lung recruitment before surfactant administration has been shown in animal studies. Well designed trials in preterm infants are absent. We aimed to examine whether the application of a recruitment manoeuvre just before surfactant administration, followed by rapid extubation (intubate-recruit-surfactant-extubate [IN-REC-SUR-E]), decreased the need for mechanical ventilation during the first 72 h of life compared with no recruitment manoeuvre (ie, intubate-surfactant-extubate [IN-SUR-E])., Methods: We did a randomised, unblinded, controlled trial in 35 tertiary neonatal intensive care units in Italy. Spontaneously breathing extremely preterm neonates (24 + 0 to 27 + 6 weeks' gestation) reaching failure criteria for continuous positive airway pressure within the first 24 h of life were randomly assigned (1:1) with a minimisation algorithm to IN-REC-SUR-E or IN-SUR-E using an interactive web-based electronic system, stratified by clinical site and gestational age. The primary outcome was the need for mechanical ventilation in the first 72 h of life. Analyses were done in intention-to-treat and per-protocol populations, with a log-binomial regression model correcting for stratification factors to estimate adjusted relative risk (RR). This study is registered with ClinicalTrials.gov, NCT02482766., Findings: Of 556 infants assessed for eligibility, 218 infants were recruited from Nov 12, 2015, to Sept 23, 2018, and included in the intention-to-treat analysis. The requirement for mechanical ventilation during the first 72 h of life was reduced in the IN-REC-SUR-E group (43 [40%] of 107) compared with the IN-SUR-E group (60 [54%] of 111; adjusted RR 0·75, 95% CI 0·57-0·98; p=0·037), with a number needed to treat of 7·2 (95% CI 3·7-135·0). The addition of the recruitment manoeuvre did not adversely affect the safety outcomes of in-hospital mortality (19 [19%] of 101 in the IN-REC-SUR-E group vs 37 [33%] of 111 in the IN-SUR-E group), pneumothorax (four [4%] of 101 vs seven [6%] of 111), or grade 3 or worse intraventricular haemorrhage (12 [12%] of 101 vs 17 [15%] of 111)., Interpretation: A lung recruitment manoeuvre just before surfactant administration improved the efficacy of surfactant treatment in extremely preterm neonates compared with the standard IN-SUR-E technique, without increasing the risk of adverse neonatal outcomes. The reduced need for mechanical ventilation during the first 72 h of life might facilitate implementation of a non-invasive respiratory support strategy., Funding: None., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

178. Matrix-assisted pulsed laser evaporation of β-glucosidase from a dopa/quinone target.

Author

Ausanio G, Califano V, Costantini A, Perretta G, Aronne A, Pepe GP, Sannino F, and Vicari LRM

Subjects

Catalysis, Cellobiose metabolism, Cellulase metabolism, Enzymes, Immobilized metabolism, Hydrogen-Ion Concentration, Hydrolysis, Multienzyme Complexes, Quinones metabolism, Temperature, Benzoquinones metabolism, Dihydroxyphenylalanine analogs & derivatives, Dihydroxyphenylalanine metabolism, beta-Glucosidase metabolism

Abstract

β-glucosidase (BG) plays a key role in determining the efficiency of the enzymatic complex cellulase for the degradation of cellulose into sugars. It hydrolyses the cellobiose, an inhibitor of the enzymatic complex. Therefore, the immobilization of BG is a great challenge for the industrial application of cellulases. Cellulases usually contains a BG amount insufficient to avoid inhibition by cellobiose. Here the BG was immobilized by matrix assisted pulsed laser evaporation (MAPLE) technique. The frozen matrix was composed of water, water/m-DOPA and water/m-DOPA/quinone. The effect of the excipients on the final conformation of the enzyme after the MAPLE processing was determined. The enzyme secondary structure was studied by FTIR analysis. The catalytic performances of the deposited films were tested in the cellobiose hydrolysis reaction. The results demonstrate that the presence of the oxidized form of m-DOPA, the O-quinone form, can protect the protein native structure, with the laser inducing little or no damage. In fact, only the samples deposited from this target preserved the secondary structure of the polypeptide chain and allowed a complete hydrolysis of cellobiose for four consecutive runs, showing a high operational stability of the biocatalyst., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2020

179. Non Monotonous Effects of Noncovalently Functionalized Graphene Addition on the Structure and Sound Absorption Properties of Polyvinylpyrrolidone (1300 kDa) Electrospun Mats.

Author

Del Sorbo GR, Truda G, Bifulco A, Passaro J, Petrone G, Vitolo B, Ausanio G, Vergara A, Marulo F, and Branda F

Abstract

Graphene is an attractive component for high-performance stimuli-responsive or 'smart' materials, shape memory materials, photomechanical actuators, piezoelectric materials and flexible strain sensors. Nanocomposite fibres were produced by electrospinning high molecular weight Polyvinylpyrrolidone (PVP-1300 kDa) in the presence of noncovalently functionalised graphene obtained through tip sonication of graphite alcoholic suspensions in the presence of PVP (10 kDa). Bending instability of electrospun jet appears to progressively increase at low graphene concentrations with the result of greater fibre stretching that leads to lower fibre diameter and possibly conformational changes of PVP. Further increase of graphene content seams having the opposite effect leading to greater fibre diameter and Raman spectra similar to the pure PVP electrospun mats. All this has been interpreted on the basis of currently accepted model for bending instability of electrospun jets. The graphene addition does not lower the very high sound absorption coefficient, α, close to unity, of the electrospun PVP mats in the frequency range 200⁻800 Hz. The graphene addition affects, in a non-monotonous manner, the bell shaped curves of α versus frequency curves becoming sharper and moving to higher frequency at the lower graphene addition. The opposite is observed when the graphene content is further increased.

Published

2018

180. The intracavitary electrocardiography method for positioning the tip of epicutaneous cava catheter in neonates: Pilot study.

Author

Capasso A, Mastroianni R, Passariello A, Palma M, Messina F, Ansalone A, Bernardo I, Brescia D, Crispino F, Grassia C, Romano A, and Ausanio G

Subjects

Catheterization, Central Venous adverse effects, Catheterization, Central Venous instrumentation, Catheterization, Peripheral adverse effects, Catheterization, Peripheral instrumentation, Catheters, Indwelling, Central Venous Catheters, Echocardiography, Feasibility Studies, Female, Humans, Infant, Newborn, Italy, Male, Pilot Projects, Predictive Value of Tests, Prospective Studies, Radiography, Thoracic, Catheterization, Central Venous methods, Catheterization, Peripheral methods, Electrocardiography, Vena Cava, Superior

Abstract

Purpose:: The neonatologists of Sant'Anna and San Sebastiano Hospital of Caserta have carried out a pilot study investigating the safety, feasibility, and accuracy of intracavitary electrocardiography for neonatal epicutaneous cava catheter tip positioning., Patients and Methods:: We enrolled 39 neonates (1-28 days of postnatal age or correct age lower than 41 weeks) requiring epicutaneous cava catheter in the district of superior vena cava (head-neck or upper limbs). Intracavitary electrocardiography was applicable in 38 neonates., Results:: No significant complications related to intracavitary electrocardiography occurred in the studied neonates. The increase in P wave on intracavitary electrocardiography was detected in 30 cases. Of the remaining eight cases, six malpositioned catheters tipped out of cavoatrial junction-target zone (chest x-ray and echocardiographical control) and two were false negative (tip located in target zone). The match between intracavitary electrocardiography and x-ray was observed in 29/38 cases, and the same ratio between intracavitary electrocardiography and echocardiography was detected., Conclusion:: We conclude that the intracavitary electrocardiography method is safe and accurate in neonates as demonstrated in pediatric and adult patients. The applicability of the method is 97% and its feasibility is 79%. The overall accuracy is 76% but it rises to 97% if "peak" P wave is detected.

Published

2018

181. The intracavitary electrocardiography method for tip location of jugular internal vein access device in infants of less than 5 kg: A pilot study.

Author

Mastroianni R, Capasso A, and Ausanio G

Subjects

Catheterization, Central Venous adverse effects, Echocardiography, Feasibility Studies, Female, Humans, Infant, Newborn, Intensive Care Units, Neonatal, Italy, Male, Pilot Projects, Predictive Value of Tests, Prospective Studies, Birth Weight, Catheterization, Central Venous instrumentation, Catheterization, Central Venous methods, Catheters, Indwelling, Central Venous Catheters, Electrocardiography, Jugular Veins diagnostic imaging

Abstract

Purpose:: This is a prospective observational study conducted by neonatologists in neonatal intensive care unit from Sant'Anna and San Sebastiano Hospital, Caserta, Italy. The objective of the study is to verify the feasibility of intracavitary electrocardiography method for tip location of central venous access device in infants of less than 5 kg and evaluate the accuracy of the method in comparison with post-procedural echocardiographical verification of the tip position., Patients and Methods:: We enrolled 27 patients weighted between 0.660 and 5 kg, requiring central vascular access. Ultrasound-guided jugular internal vein access was used and after cannulation, we applied the intracavitary electrocardiography for tip location as well as post-procedural echocardiography., Results:: No significant complication related to intracavitary electrocardiography occurred in the studied infants. The increase in P wave on intracavitary electrocardiography was detected in all cases (27/27). In only one case (false positive), the catheter had the tip out of cavoatrial junction-target zone (to post-procedural echocardiography)., Conclusion:: The intracavitary electrocardiography method for tip location of central venous access device is safe and accurate in infants, as demonstrated by post-procedural comparative echocardiographic controls. As an alternative to echocardiography, not always achievable, the diffusion of intracavitary electrocardiography method could reduce X-ray exposition and complications of a malpositioned tip.

Published

2018

182. On the use of superparamagnetic hydroxyapatite nanoparticles as an agent for magnetic and nuclear in vivo imaging.

Author

Adamiano A, Iafisco M, Sandri M, Basini M, Arosio P, Canu T, Sitia G, Esposito A, Iannotti V, Ausanio G, Fragogeorgi E, Rouchota M, Loudos G, Lascialfari A, and Tampieri A

Subjects

Animals, Contrast Media, Dextrans chemistry, Iron chemistry, Leukocytes, Mononuclear cytology, Liver diagnostic imaging, Magnetic Resonance Imaging, Magnetic Resonance Spectroscopy, Male, Mice, Mice, Inbred C57BL, Nanotechnology, Phagocytes cytology, Spleen diagnostic imaging, Thermogravimetry, Tissue Distribution, Tomography, Emission-Computed, Single-Photon, X-Ray Diffraction, Durapatite chemistry, Ferric Compounds chemistry, Magnetics, Magnetite Nanoparticles chemistry

Abstract

The identification of alternative biocompatible magnetic NPs for advanced clinical application is becoming an important need due to raising concerns about iron accumulation in soft issues associated to the administration of superparamagnetic iron oxide nanoparticles (NPs). Here, we report on the performance of previously synthetized iron-doped hydroxyapatite (FeHA) NPs as contrast agent for magnetic resonance imaging (MRI). The MRI contrast abilities of FeHA and Endorem® (dextran coated iron oxide NPs) were assessed by 1 H nuclear magnetic resonance relaxometry and their performance in healthy mice was monitored by a 7 Tesla scanner. FeHA applied a higher contrast enhancement, and had a longer endurance in the liver with respect to Endorem® at iron equality. Additionally, a proof of concept of FeHA use as scintigraphy imaging agent for positron emission tomography (PET) and single photon emission computed tomography (SPECT) was given labeling FeHA with 99m Tc-MDP by a straightforward surface functionalization process. Scintigraphy/x-ray fused imaging and ex vivo studies confirmed its dominant accumulation in the liver, and secondarily in other organs of the mononuclear phagocyte system. FeHA efficiency as MRI-T 2 and PET-SPECT imaging agent combined to its already reported intrinsic biocompatibility qualifies it as a promising material for innovative nanomedical applications., Statement of Significance: The ability of iron-doped hydroxyapatite nanoaprticles (FeHA) to work in vivo as imaging agents for magnetic resonance (MR) and nuclear imaging is demonstrated. FeHA applied an higher MR contrast in the liver, spleen and kidneys of mice with respect to Endorem®. The successful radiolabeling of FeHA allowed for scintigraphy/X-ray and ex vivo biodistribution studies, confirming MR results and envisioning FeHA application for dual-imaging., (Copyright © 2018 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.)

Published

2018

183. Frozen Microemulsions for MAPLE Immobilization of Lipase.

Author

Califano V, Bloisi F, Perretta G, Aronne A, Ausanio G, Costantini A, and Vicari L

Subjects

Bromides chemistry, Candida chemistry, Candida enzymology, Dihydroxyphenylalanine analogs & derivatives, Emulsions, Freezing, Fungal Proteins isolation & purification, Immobilized Proteins isolation & purification, Laser Therapy, Lasers, Lipase isolation & purification, Pentanes chemistry, Potassium Compounds chemistry, Dihydroxyphenylalanine chemistry, Fungal Proteins chemistry, Immobilized Proteins chemistry, Lipase chemistry

Abstract

Candida rugosa lipase (CRL) was deposited by matrix assisted pulsed laser evaporation (MAPLE) in order to immobilize the enzyme with a preserved native conformation, which ensures its catalytic functionality. For this purpose, the composition of the MAPLE target was optimized by adding the oil phase pentane to a water solution of the amino acid 3-(3,4-dihydroxyphenyl)-2-methyl-l-alanine (m-DOPA), giving a target formed by a frozen water-lipase-pentane microemulsion. Fourier transform infrared (FTIR) spectroscopy and atomic force microscopy (AFM) were used to investigate the structure of MAPLE deposited lipase films. FTIR deconvolution of amide I band indicated a reduction of unfolding and aggregation, i.e., a better preserved lipase secondary structure in the sample deposited from the frozen microemulsion target. AFM images highlighted the absence of big aggregates on the surface of the sample. The functionality of the immobilized enzyme to promote transesterification was determined by thin layer chromatography, resulting in a modified specificity., Competing Interests: The authors declare no conflict of interest.

Published

2017

184. Fe-Doping-Induced Magnetism in Nano-Hydroxyapatites.

Author

Iannotti V, Adamiano A, Ausanio G, Lanotte L, Aquilanti G, Coey JMD, Lantieri M, Spina G, Fittipaldi M, Margaris G, Trohidou K, Sprio S, Montesi M, Panseri S, Sandri M, Iafisco M, and Tampieri A

Subjects

Particle Size, Surface Properties, Hydroxyapatites chemistry, Iron chemistry, Magnetic Phenomena, Nanoparticles chemistry

Abstract

Doping of biocompatible nanomaterials with magnetic phases is currently one of the most promising strategies for the development of advanced magnetic biomaterials. However, especially in the case of iron-doped magnetic hydroxyapatites, it is not clear if the magnetic features come merely from the magnetic phases/ions used as dopants or from complex mechanisms involving interactions at the nanoscale. Here, we report an extensive chemical-physical and magnetic investigation of three hydroxyapatite nanocrystals doped with different iron species and containing small or no amounts of maghemite as a secondary phase. The association of several investigation techniques such as X-ray absorption spectroscopy, Mössbauer, magnetometry, and TEM allowed us to determine that the unusual magnetic properties of Fe 2+/3+ -doped hydroxyapatites (FeHA) occur by a synergy of two different phenomena: i.e., (i) interacting superparamagnetism due to the interplay between iron-doped apatite and iron oxide nanoparticles as well as to the occurrence of dipolar interactions and (ii) interacting paramagnetism due to Fe 3+ ions present in the superficial hydrated layer of the apatite nanophase and, to a lesser extent, paramagnetism due to isolated Fe 3+ ions in the apatite lattice. We also show that a major player in the activation of the above phenomena is the oxidation of Fe 2+ into Fe 3+ , as induced by the synthesis process, and their consequent specific positioning in the FeHA structure.

Published

2017

185. Efficacy of a new technique - INtubate-RECruit-SURfactant-Extubate - "IN-REC-SUR-E" - in preterm neonates with respiratory distress syndrome: study protocol for a randomized controlled trial.

Author

Vento G, Pastorino R, Boni L, Cota F, Carnielli V, Cools F, Dani C, Mosca F, Pillow J, Polglase G, Tagliabue P, van Kaam AH, Ventura ML, Tana M, Tirone C, Aurilia C, Lio A, Ricci C, Gambacorta A, Consigli C, D'Onofrio D, Gizzi C, Massenzi L, Cardilli V, Casati A, Bottino R, Pontiggia F, Ciarmoli E, Martinelli S, Ilardi L, Colnaghi M, Matassa PG, Vendettuoli V, Villani P, Fusco F, Gazzolo D, Ricotti A, Ferrero F, Stasi I, Magaldi R, Maffei G, Presta G, Perniola R, Messina F, Montesano G, Poggi C, Giordano L, Roma E, Grassia C, Ausanio G, Sandri F, Mescoli G, Giura F, Garani G, Solinas A, Lucente M, Nigro G, Del Vecchio A, Petrillo F, Orfeo L, Grappone L, Quartulli L, Scorrano A, Messner H, Staffler A, Gargano G, Balestri E, Nobile S, Cacace C, Meli V, Dallaglio S, Pasqua B, Mattia L, Gitto E, Vitaliti M, Re MP, Vedovato S, Grison A, Berardi A, Torcetta F, Guidotti I, di Fabio S, Maranella E, Mondello I, Visentin S, and Tormena F

Subjects

Caffeine administration & dosage, Central Nervous System Stimulants administration & dosage, Citrates administration & dosage, Continuous Positive Airway Pressure, Female, Humans, Infant, Newborn, Male, Time Factors, Treatment Outcome, Airway Extubation methods, Biological Products administration & dosage, High-Frequency Ventilation methods, Infant, Premature, Intubation, Intratracheal methods, Phospholipids administration & dosage, Pulmonary Surfactants administration & dosage, Respiratory Distress Syndrome, Newborn therapy

Abstract

Background: Although beneficial in clinical practice, the INtubate-SURfactant-Extubate (IN-SUR-E) method is not successful in all preterm neonates with respiratory distress syndrome, with a reported failure rate ranging from 19 to 69 %. One of the possible mechanisms responsible for the unsuccessful IN-SUR-E method, requiring subsequent re-intubation and mechanical ventilation, is the inability of the preterm lung to achieve and maintain an "optimal" functional residual capacity. The importance of lung recruitment before surfactant administration has been demonstrated in animal studies showing that recruitment leads to a more homogeneous surfactant distribution within the lungs. Therefore, the aim of this study is to compare the application of a recruitment maneuver using the high-frequency oscillatory ventilation (HFOV) modality just before the surfactant administration followed by rapid extubation (INtubate-RECruit-SURfactant-Extubate: IN-REC-SUR-E) with IN-SUR-E alone in spontaneously breathing preterm infants requiring nasal continuous positive airway pressure (nCPAP) as initial respiratory support and reaching pre-defined CPAP failure criteria., Methods/design: In this study, 206 spontaneously breathing infants born at 24(+0)-27(+6) weeks' gestation and failing nCPAP during the first 24 h of life, will be randomized to receive an HFOV recruitment maneuver (IN-REC-SUR-E) or no recruitment maneuver (IN-SUR-E) just prior to surfactant administration followed by prompt extubation. The primary outcome is the need for mechanical ventilation within the first 3 days of life. Infants in both groups will be considered to have reached the primary outcome when they are not extubated within 30 min after surfactant administration or when they meet the nCPAP failure criteria after extubation., Discussion: From all available data no definitive evidence exists about a positive effect of recruitment before surfactant instillation, but a rationale exists for testing the following hypothesis: a lung recruitment maneuver performed with a step-by-step Continuous Distending Pressure increase during High-Frequency Oscillatory Ventilation (and not with a sustained inflation) could have a positive effects in terms of improved surfactant distribution and consequent its major efficacy in preterm newborns with respiratory distress syndrome. This represents our challenge., Trial Registration: ClinicalTrials.gov identifier: NCT02482766 . Registered on 1 June 2015.

Published

2016

186. Nanoscale engineering of two-dimensional disordered hyperuniform block-copolymer assemblies.

Author

Zito G, Rusciano G, Pesce G, Malafronte A, Di Girolamo R, Ausanio G, Vecchione A, and Sasso A

Abstract

Disordered hyperuniform (DH) media have been recognized as a new state of disordered matter that broadens our vision of material engineering. Here, long-range correlated disordered two-dimensional patterns are fabricated by self-assembling of spherical diblock-copolymer (BCP) micelles. Control of the self-assembling parameters leads to the formation of DH patterns of micelles that can host nanoscale material inclusions, therefore providing an effective strategy for fabricating multimaterial DH structures at molecular scale. Centroidal patterns are accurately determined by virtue of BCP micelles loaded with metal nanoparticles. Our analysis reveals the signature of nearly ideal DH BCP assemblies in the local density fluctuation and a dominant linear scaling in the local number fluctuation.

Published

2015

187. Synthesis and characterization of electrically conductive polyethylene-supported graphene films.

Author

Carotenuto G, Nicola SD, Ausanio G, Massarotti D, Nicolais L, and Pepe GP

Abstract

We describe a simple mechanical approach for low-density polyethylene film coating by multilayer graphene. The technique is based on the exfoliation of nanocrystalline graphite (few-layer graphene) by application of shear stress and allows to obtain thin graphene layers on the plastic substrate. We report on the temperature dependence of electrical resistance behaviors in films of different thickness. The experimental results suggest that the semiconducting behavior observed at low temperature can be described in the framework of the Efros-Shklovskii variable-range-hopping model. The obtained films exhibit good electrical conductivity and transparency in the visible spectral region., Pacs: 72.80.Vp; 78.67.Wj; 78.66.Qn; 85.40.Hp.

Published

2014

188. Experimental evidence of stable water nanostructures in extremely dilute solutions, at standard pressure and temperature.

Author

Elia V, Ausanio G, Gentile F, Germano R, Napoli E, and Niccoli M

Subjects

Microscopy, Atomic Force, Microscopy, Fluorescence, Solutions, Temperature, Thermodynamics, Homeopathy, Nanostructures chemistry, Water chemistry

Abstract

This paper presents the results of several experimental methods (FT-IR spectroscopy, UV-vis spectroscopy, fluorescence microscopy (FM), Atomic Force Microscopy (AFM)) evidencing structural changes induced in extremely diluted solutions (EDS), which are prepared by an iterated process of centesimal (1:100) dilution and succussion (shaking). The iteration is repeated until an extremely high dilution is reached, so that the composition of the solution becomes identical to that of the solvent--in this case water--used to prepare it. The experimental observations reveal the presence of supramolecular aggregates hundreds of nanometres in size in EDS at ambient pressure and temperature, and in the solid state. These findings confirm the hypothesis--developed thanks to previous physico-chemical investigations--that formation of water aggregates occurs in EDS. The experimental data can be analyzed and interpreted with reference to the thermodynamics of far-from-equilibrium systems and irreversible processes., (Copyright © 2013 The Faculty of Homeopathy. Published by Elsevier Ltd. All rights reserved.)

Published

2014

189. A novel microdeletion in the IGF2/H19 imprinting centre region defines a recurrent mutation mechanism in familial Beckwith-Wiedemann syndrome.

Author

De Crescenzo A, Coppola F, Falco P, Bernardo I, Ausanio G, Cerrato F, Falco L, and Riccio A

Subjects

Adult, Chromosome Deletion, Chromosomes, Human, Pair 11 genetics, DNA Methylation genetics, Female, Gene Order, Genotype, Humans, Infant, Newborn, Male, Pedigree, Phenotype, RNA, Long Noncoding, Uniparental Disomy genetics, Beckwith-Wiedemann Syndrome genetics, Genomic Imprinting genetics, Insulin-Like Growth Factor II genetics, Mutation genetics, RNA, Untranslated genetics

Abstract

The overgrowth disorder Beckwith-Wiedemann syndrome (BWS) is associated with dysregulation of imprinted genes at chromosome 11p15.5. The molecular defects are heterogeneous but most of the cases are associated with defective DNA methylation at either one of two Imprinting Control Regions (IC1 and IC2) or Uniparental paternal Disomy (UPD) at 11p15.5. In rare cases, the BWS phenotype has been found associated with maternal transmission of IC1 microdeletions. We describe a family with a novel 1.8 kb deletion that is associated with hypermethylation at IC1. The mutation results from recombination between highly homologous sequences containing target sites for the zinc-finger protein CTCF (CTSs). This finding supports the hypothesis that the function of IC1 and the penetrance of the clinical phenotype depend on the spacing of the CTSs resulting from recombination in the mutant allele., (Copyright © 2011 Elsevier Masson SAS. All rights reserved.)

Published

2011

190. Poly(ε-caprolactone) reinforced with sol-gel synthesized organic-inorganic hybrid fillers as composite substrates for tissue engineering.

Author

Russo T, Gloria A, D-Antò V, D'Amora U, Ametrano G, Bollino F, De Santis R, Ausanio G, Catauro M, Rengo S, and Ambrosio L

Subjects

Gels chemistry, Inorganic Chemicals chemistry, Microscopy, Atomic Force, Organic Chemicals chemistry, Polymethyl Methacrylate chemistry, Polyesters chemistry, Tissue Engineering methods, Titanium chemistry, Zirconium chemistry

Abstract

Purpose: The importance of polymer-based composite materials to make multifunctional substrates for tissue engineering and the strategies to improve their performances have been stressed in the literature. Bioactive features of sol-gel synthesized poly(ε-caprolactone)/TiO₂ or poly(ε-caprolactone)/ZrO₂ organic-inorganic hybrid materials are widely documented. Accordingly, the aim of this preliminary research was to develop advanced composite substrates consisting of a poly(ε-caprolactone) matrix reinforced with sol-gel synthesized PCL/TiO₂ or PCL/ZrO₂ hybrid fillers., Methods: Micro-computed tomography and atomic force microscopy analyses allowed to study surface topography and roughness. On the other hand, mechanical and biological performances were evaluated by small punch tests and Alamar Blue™ assay, respectively., Results: Micro-computed tomography and atomic force microscopy analyses highlighted the effect of the preparation technique. Results from small punch tests and Alamar Blue™ assay evidenced that PCL reinforced with Ti2 (PCL=12, TiO₂=88 wt%) and Zr2 (PCL=12, ZrO₂=88 wt%) hybrid fillers provided better mechanical and biological performances., Conclusions: PCL reinforced with Ti2 (PCL=12, TiO₂=88 wt%) and Zr2 (PCL=12, ZrO₂=88 wt%) hybrid fillers could be considered as advanced composite substrates for hard tissue engineering.

Published

2010

191. Intravenous magnesium sulphate vs. inhaled nitric oxide for moderate, persistent pulmonary hypertension of the newborn. A Multicentre, retrospective study.

Author

Raimondi F, Migliaro F, Capasso L, Ausanio G, Bisceglia M, Giliberti P, Messina F, Salvia G, and Paludetto R

Subjects

Bronchodilator Agents administration & dosage, Female, Humans, Infant, Newborn, Italy, Magnesium Sulfate administration & dosage, Magnesium Sulfate blood, Male, Multicenter Studies as Topic, Nitric Oxide administration & dosage, Retrospective Studies, Bronchodilator Agents therapeutic use, Hypertension, Pulmonary drug therapy, Magnesium Sulfate therapeutic use, Nitric Oxide therapeutic use

Abstract

We have compared intravenous magnesium sulphate vs. inhaled nitric oxide in the therapy of moderate persistent pulmonary hypertension of the neonate. A retrospective collection of clinical data from 58 neonates was carried out in six neonatal intensive care units of Southern Italy sharing the same operational protocols. In our setting, both drugs were effective in treating moderate persistent pulmonary hypertension of the neonate but nitric oxide (NO) treatment resulted in much faster amelioration of oxygenation index, taken as a marker of the underlying condition. No significant difference was recorded in immediate or long-term complications. We conclude that, wherever NO facilities are not readily available, magnesium sulphate is a safe and cheaper alternative for first-line treatment of moderate persistent pulmonary hypertension of the neonate.

Published

2008

192. Sol-gel processing of drug delivery zirconia/polycaprolactone hybrid materials.

Author

Catauro M, Raucci M, and Ausanio G

Subjects

Biocompatible Materials, Kinetics, Materials Testing, Microscopy, Electron, Scanning, Phase Transition, Polycarboxylate Cement chemistry, Zirconium chemistry

Abstract

Poly(epsilon-caprolactone) (PCL 6, 12 and 24 wt%) and zirconium (ZrO(2)) organic-inorganic hybrid materials have been synthesized by the sol-gel method from a multicomponent solution containing zirconium propoxide [Zr(OC(2)H(7))(4)], poly(epsilon-caprolactone) (PCL), water, chloroform (CHCl(3)). Sodium ampicillin was incorporate in the hybrid materials to verify the effect as local controlled drug delivery system. The structure of interpenetrating network is realized by hydrogen bonds between Zr-OH group (H donator) in the sol-gel intermediate species and carboxylic group (H-acceptor) in the repeating units of the polymer. The presence of hydrogen bonds between organic/inorganic components of the hybrid material was proved by FTIR analysis. The morphology of the hybrid material was studied by scanning electron microscope (SEM). The structure of a molecular level dispersion has been disclosed by atomic force microscope (AFM), pore size distribution and surface measurements. The bioactivity of the synthesized hybrid material has been showed by the formation of a layer of hydroxyapatite on the surface of PCL/ZrO(2) samples soaked in a fluid simulating the composition of the human blood plasma. Release kinetics in a simulate body fluid (SBF) have been subsequently investigated. The amount of sodium ampicillin released has been detected by UV-VIS spectroscopy and SEM. The release kinetics seems to occur in more than one stage. HPLC analysis has also been taken to ensure the integrity of ampicillin after the synthetic treatment.

Published

2008

193. Synthesis, morphology, and magnetic characterization of iron oxide nanowires and nanotubes.

Author

Suber L, Imperatori P, Ausanio G, Fabbri F, and Hofmeister H

Abstract

We have explored the synthesis of iron oxide particles, tubes, and fibrils within the pores of nanoporous polycarbonate and alumina membranes. The membranes contain uniformly distributed cylindrical pores with monodispersed diameters (varying between 20 and 200 nm) and thicknesses of 6 and 60 microm, respectively. By hydrolysis and polymerization of iron salts, particles of different sizes and phases were formed in the pores, building iron oxide particle nanowires. Alternatively, by the sol-gel technique, using as reagents metalloorganic compounds, fibrils and tubes of different iron oxide phases were prepared. Structural and morphological investigations performed using scanning electron microscopy and transmission electron microscopy revealed ordered iron oxide particle wires, tubes, and fibrils formed inside the membrane nanopores. Magnetic characterization was accomplished with a vibrating sample magnetometer. Below the blocking temperature (T(B)), the magnetic behavior of the nanowires was governed by dipolar interaction between nearest-neighbor nanoparticles inside the pore, whereas the energy barrier, and therefore the T(B) value, was mainly governed by dipolar interaction between magnetic moments over larger (interpore) distances. As expected, crystalline iron oxide nanotubes exhibited magnetic perpendicular anisotropy due to their magnetocrystalline and shape anisotropy.

Published

2005