Your search keyword '"Coceani N"' showing total 7 results

1. Givinostat in DMD : Results of the Epidys Study

Author

Mercuri, E., Vilchez, J., Boespflug-Tanguy, O., Zaidman, C., Mah, J., Goemans, N., Müller-Felber, W., Niks, E., Munell, F., Schara, Ulrike, Bertini, E., Comi, G., Mathews, K., Servais, L., Vandenborne, K., Cazzaniga, S., Coceani, N., Bettica, P., and McDonald, C.

Subjects

Medizin

Published

2022

2. Characterization of a quatyernary liquid system improving the biovailability of poorly water soluble drugs

Author

Meriani, F, Coceani, N, Sirotti, C, Voinovich, Dario, Grassi, Mario, Meriani, F, Coceani, N, Sirotti, C, Voinovich, Dario, and Grassi, Mario

Subjects

Interfacial properties, Tween 80, Interfacial properties, Modeling, Phase diagram, Ethanol, Triacetin, Tween 80, Ethanol, Modeling, Triacetin, Phase diagram

Abstract

The aim of this work is the characterization of the quaternary system composed of water, triacetin (oil), ethanol (alcohol), and Tween 80 (surfactant), as its results enable the enhancement of the bioavailability of nimesulide, a poorly water soluble nonsteroidal antiinflammatory drug widely employed in the pharmaceutical field. Particular attention is devoted to the surfactant-free ternary system, as it proved able to solubilize nimesulide as well, and the absence of a surfactant is desirable in order to keep the preparation as tolerable as possible. Both bulk and interfacial properties of this system are investigated, and a mathematical model to calculate the interface composition of a threecomponent two-phase system is developed. This model is based on Gibbs’ theory on interfaces, which considers an arbitrary mathematical dividing surface so that the two phases continue uniformly up to it, although interface regions have no sharply defined boundaries. We find that both the quaternary and the ternary systems investigated show a miscibility lacuna and that, in the surfactant-free ternary system, an increase of the ethanol weight fraction is reflected as an impoverishment of the ethanol interfacial molar fraction.  2003 Elsevier Inc. All rights reserved.

Published

2003

3. Mathematical modelling of drug release from microemulsions: theory in comparison with experiments

Author

Grassi, Mario, Coceani, N., Magarotto, L., Grassi, Mario, N., Coceani, and L., Magarotto

Published

2000

4. Study on Polymer-Surfactant Interactions for the Improvement of Drug Delivery Systems Wettability

Author

Simone, I., Coceani, N., Farra, R., Fiorentino, S. M., Grassi, G., Lapasin, R., Dritan Hasa, Perissutti, B., Grassi, M., Voinovich, D., De Simone, I., Coceani, N., Farra, Rossella, Fiorentino, SIMONA MARIA, Grassi, Gabriele, Lapasin, Romano, Hasa, Dritan, Perissutti, Beatrice, Grassi, Mario, and Voinovich, Dario

Subjects

Wettability, mechanochemical activation, surfactant, surface characterization, co-grinding, wettability

Abstract

One of the possible causes of failure of the mechanochemical activation of poorly soluble drugs relies on the scarce drug wettability. Indeed, the mechanochemical process comports the disposition of drug nano-crystals and amorphous drug, generated by the destruction of original drug macro-crystals, on the surface of the carrier (acting as stabiliser), usually represented by crosslinked polymeric particles. Accordingly, the scarce drug wettability can reduce the beneficial action of mechanochemical activation (nano-crystals and amorphous drug are characterised by a higher solubility with respect to the original macro-crystals). In this light, this paper is focussed on the use of surfactants for the increase of delivery system (drug plus carrier) wettability. In particular, the surfactant-polymer systems are characterised for what concerns their bulk and surface properties. This allows to select the best surfactant and to experimentally verify its effect on the release kinetics of a poorly soluble and wettable drug.

5. In vitro percutaneous absorption of cobalt

Author

Rossana Bussani, Pierluigi Barbieri, Francesca Larese Filon, Nicoletta Coceani, Gianpiero Adami, Marilena Massiccio, Paolo Spinelli, Marta Venier, Giovanni Maina, LARESE FILON, Francesca, Maina, G, Adami, Gianpiero, Venier, M, Coceani, N, Bussani, Rossana, Massiccio, M, Barbieri, Pierluigi, and Spinelli, P.

Subjects

inorganic chemicals, skin, in vitro absorption, Cobalt, franz diffusion cell, percutaneous absorption, in vitro experiments, franz cells, chemistry.chemical_element, Human skin, In Vitro Techniques, law.invention, Ion, Metal, franz cell, law, Occupational Exposure, Humans, Polarography, integumentary system, Chemistry, Spectrophotometry, Atomic, Public Health, Environmental and Occupational Health, Penetration (firestop), Permeation, cobalt, skin absorption, Italy, visual_art, visual_art.visual_art_medium, Atomic absorption spectroscopy, Nuclear chemistry

Abstract

Objectives To evaluate skin absorption of cobalt powder in an in vitro system. Experiments with volunteers show that cobalt powder can permeate through the skin, but there are no data with regard to the mechanism or the amount of permeation. Methods Skin permeation was calculated by the Franz diffusion cell method with human skin. A physiological solution was used as receiving phase and the cobalt powder was dispersed in synthetic sweat. The amount of metal passing through the skin was analysed by electro-thermal atomic absorption spectrometry (ETAAS). Parallel polarographic analysis (differential pulse polarography—DPP) allowed evaluation of cobalt present as ions (Co2+) in donor and receiving phases. Measurements of cobalt skin content were also performed. Results Evaluation of metal in the receiving phase allowed us to demonstrate the permeation of cobalt through the skin. Steady-state flow of percutaneous cobalt permeation was calculated as 0.0123±0.0054 mgrg cm–2 h–1, with a lag time of 1.55±0.71 h. Conclusions The experiments show that cobalt powder can pass through the skin when applied as a dispersion in synthetic sweat, oxidising metallic cobalt into ions, which permeate the skin. These experiments show for the first time how cobalt can permeate the skin.

Published

2004

6. Characterization of a quaternary liquid system improving the bioavailability of poorly water soluble drugs

Author

C. Sirotti, F. Meriani, Mario Grassi, N. Coceani, Dario Voinovich, Meriani, F., Coceani, N., Sirotti, C., Voinovich, D., and Grassi, M.

Subjects

Aqueous solution, Ternary numeral system, Chromatography, Interfacial properties, Tween 80, Ethanol, Modeling, Mole fraction, Miscibility, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Bioavailability, Phase diagram, Biomaterials, chemistry.chemical_compound, Colloid and Surface Chemistry, chemistry, Chemical engineering, Pulmonary surfactant, Ternary operation, Triacetin, Interfacial propertie

Abstract

The aim of this work is the characterization of the quaternary system composed of water, triacetin (oil), ethanol (alcohol), and Tween 80 (surfactant), as its results enable the enhancement of the bioavailability of nimesulide, a poorly water soluble nonsteroidal antiinflammatory drug widely employed in the pharmaceutical field. Particular attention is devoted to the surfactant-free ternary system, as it proved able to solubilize nimesulide as well, and the absence of a surfactant is desirable in order to keep the preparation as tolerable as possible. Both bulk and interfacial properties of this system are investigated, and a mathematical model to calculate the interface composition of a three-component two-phase system is developed. This model is based on Gibbs' theory on interfaces, which considers an arbitrary mathematical dividing surface so that the two phases continue uniformly up to it, although interface regions have no sharply defined boundaries. We find that both the quaternary and the ternary systems investigated show a miscibility lacuna and that, in the surfactant-free ternary system, an increase of the ethanol weight fraction is reflected as an impoverishment of the ethanol interfacial molar fraction.

Published

2003

7. Skin absorption in vitro of glycol ethers

Author

F. Larese Filon, Edoardo Reisenhofer, Rossana Bussani, Gianpiero Adami, Pierluigi Barbieri, A. Fiorito, N. Coceani, LARESE FILON, Francesca, Fiorito, A, Adami, Gianpiero, Barbieri, Pierluigi, Coceani, N, Bussani, Rossana, and Reisenhofer, Edoardo

Subjects

Adult, Male, Chromatography, Time Factors, Skin Absorption, Public Health, Environmental and Occupational Health, Ether, Absorption (skin), Permeation, In Vitro Techniques, Middle Aged, Solvent, chemistry.chemical_compound, Glycol ethers, chemistry, Propylene Glycols, Acetone, Solvents, Humans, Dimethyl ether, Ethylene Glycols, Ethylene glycol, Ethers

Abstract

Objectives: The increased use of glycol ethers (GEs) for water-based paints and cleaning products, combined with a lack of information about many of these products, particularly with regard to the effects of percutaneous exposure, led us to evaluate the skin absorption rates of a group of glycol ethers in vitro. Methods: Skin permeation was calculated using the Franz cell method with human skin. A physiological solution was used as the receiving phase. The amount of solvent passing through the skin was analysed with a gas chromatographic technique employing flame ionization detection. A permeation profile was obtained and steady state, lag time and permeation constant flux was calculated for each of the following solvents: ethylene glycol monoethyl ether (EGMEE), propylene glycol mono-methyl ether (PGMME); propylene glycol mono-methyl ether acetate (PGMMEac); 2-propylene glycol 1-butyl ether (2PG1BE), ethylene glycol dimethyl ether (EGDME), ethylene glycol diethyl ether (EGDEE) and diethylene glycol dimethyl ether (DEGDME). All solvents were tested in their pure form and with 70% acetone. Results: For all solvents tested the lag time was less than 2 h, and for the majority of them was about 60 min. Flux at steady state ranged between 0.017 ± 0.005 and 3.435 ± 1.897 mg/cm2/h and permeation rate was from 0.0192 to 1.02 × 10−3 cm/h. The presence of acetone in the solution caused a reduction in lag time and an increase in permeation rate, higher for EGMEE, lower for EGDEE, indicating the enhancing effect of this mixture of solvents. Conclusions: Our results confirm the high percutaneous absorption of the GEs tested. The Franz method might be helpful for obtaining a grading of skin notation for hydrophilic substances: in the case of glycol ethers, it can give us precise information about permeation risk, particularly important in the evaluation of exposure. In the case of solvents with high dermal absorption, the air concentration is no longer a sufficient measure of the total exposure to workers, and therefore merely respecting threshold limit values (TLVs) in the air is not necessarily enough to protect them.

Published

1999