Your search keyword '"Magnano, Greta"' showing total 4 results

1. 3D human foreskin model for testing topical formulations of sildenafil citrate

Author

Magnano, Greta Camilla, Quadri, Marika, Palazzo, Elisabetta, Lotti, Roberta, Loschi, Francesca, Dall'Acqua, Stefano, Abrami, Michela, Larese Filon, Francesca, Marconi, Alessandra, and Hasa, Dritan

Published

2024

2. Tailor-Made Synthesis of Cerium Oxide Nanoparticles for Improving the Skin Decontamination of Paraoxon.

Author

Thomas, Eloise, Briançon, Stéphanie, Chaput, Frédéric, Magnano, Greta Camilla, Trenque, Isabelle, Arquier, Delphine, Barratier, Cynthia, Amans, David, Devers, Thierry, Pitault, Isabelle, Masenelli-Varlot, Karine, Bugnet, Matthieu, and Bolzinger, Marie-Alexandrine

Abstract

CeO2 nanoparticles possess catalytic activity for hydrolysis of organophosphates such as paraoxon and nerve agents used in chemical warfare. Intoxication with these highly toxic compounds can occur directly through inhalation or dermal contact and lead to rapid and severe consequences including death. It is therefore necessary to have effective means of skin decontamination, and CeO2 nanoparticles are promising. In this study, a wide range of CeO2 nanoparticles were synthesized and their efficiency against paraoxon degradation was evaluated. Nanocubes (NC), nanorods (NR), nano-octahedra (NO), and nanopolyhedra (NPO) were studied along with nanoparticles obtained after calcination (NC*, NR*, NO*, and nanotruncated octahedra NTO*). Results show an influence of calcination, specific surface area, and crystal facets with higher activity for {111} facets compared to {100} facets. pH also impacted POX degradation rates, with higher pH accelerating the degradation. In vitro tests using the Franz cell method demonstrated the skin decontamination efficacy of the CeO2 nanoparticles. NC* exhibited lower efficiency, possibly due to smaller surface area and limited {100} facet degradation. The most efficient nanoparticles were NR* and NO* followed by NTO* consistently with their degradation efficiency and specific surface area. Notably, NR* and NO* performed comparably to FE (Fuller's earth), the standard powder skin decontaminant on battlefield. Unlike FE that can only adsorb paraoxon, CeO2 nanoparticles can neutralize it into safer byproducts. This study highlights the interest of CeO2 nanoparticles and the influence of their physicochemical properties on organophosphorus compound degradation and cutaneous decontamination. [ABSTRACT FROM AUTHOR]

Published

2024

3. Exposure to gallium arsenide nanoparticles in a research facility: a case study using molecular beam epitaxy.

Author

Rizzo, Marco, Bordignon, Michele, Bertoli, Paolo, Biasiol, Giorgio, Crosera, Matteo, Magnano, Greta Camilla, Marussi, Giovanna, Negro, Corrado, and Larese Filon, Francesca

Subjects

MOLECULAR beam epitaxy, GALLIUM arsenide, SHIFT systems, ADHESIVE tape, SURFACE contamination, WORKWEEK, MICROBIOLOGICAL aerosols

Abstract

We evaluated GaAs nanoparticle-concentrations in the air and on skin and surfaces in a research facility that produces thin films, and to monitored As in the urine of exposed worker. The survey was over a working week using a multi-level approach. Airborne personal monitoring was implemented using a miniature diffusion size classifier (DiSCMini) and IOM sampler. Environmental monitoring was conducted using the SKC Sioutas Cascade Impactor to evaluate dimensions and nature of particles collected. Surfaces contamination were assessed analyzing As and Ga in ghost wipes. Skin contamination was monitored using tape strips. As and Ga were analyzed in urines collected every day at the beginning and end of the shift. The greatest airborne exposure occurred during the cutting operations of the GaAs Sample (88883 np/cm3). The highest levels of contamination were found inside the hood (As max = 1418 ng/cm2) and on the laboratory floor (As max = 251 ng/cm2). The average concentration on the worker's skin at the end of the work shift (3.36 ng/cm2) was more than 14 times higher than before the start of the shift. In weekly urinary biomonitoring an average As concentration of 19.5 µg/L, which was above the Società Italiana Valori di Riferimento (SIVR) reference limit for the non-occupational population (2.0 – 15 µg/L), but below the ACGIH limit (30 µg/L). Overall, airborne monitoring, surface sampling, skin sampling, and biomonitoring of worker confirmed the exposure to As of workers. Systematic cleaning operations, hood implementation and correct PPE management are needed to improve worker protection. [ABSTRACT FROM AUTHOR]

Published

2024

4. Probing the effectiveness of barrier creams against human skin penetration of nickel powder.

Author

Magnano, Greta Camilla, Marussi, Giovanna, Crosera, Matteo, Hasa, Dritan, Adami, Gianpiero, Lionetti, Nicola, and Larese Filon, Francesca

Subjects

*ALLERGENS, *NICKEL, *CHELATING agents, *SKIN absorption, *THIN films

Abstract

Objective: Barrier creams (BCs) are marketed as locally applied medical devices or cosmetic products to protect the skin from exposure to chemicals and irritants. Generally, the mechanism of action of such products is mainly due to the formation of a superficial thin film between the skin and the irritant or sensitizer, thus reducing or totally blocking the cutaneous penetration of such agents. Specifically, studies focusing on the effectiveness of commercial protective creams to prevent nickel cutaneous penetration are extremely scarce. The aim of the current work, therefore, is to evaluate the protective role of a commercially available barrier cream for nickel and compare the results with a simple moisturizing, following exposure to Ni powder. Methods: Marketed BCs were evaluated and tested. Human skin absorption of Ni was studied in vitro using static Franz diffusion cells. Results: Our results demonstrate that the application of both formulations caused a reduction of Ni inside the skin (8.00 ± 3.35 μg cm−2 for the barrier cream and 22.6 ± 12.6 μg cm−2 for the general moisturizing product), with the specialized barrier cream being statistically (p = 0.015) more efficient on forming a protective barrier, thus evidencing the importance of some ingredients in such formulations on the nickel dermal accumulation. Conclusions: The composition of the formulations based on film‐forming or chelating agents may play an imperative role in reducing the cutaneous penetration of Ni. [ABSTRACT FROM AUTHOR]

Published

2024