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1. Silver Decorated Mesoporous Carbons for the Treatment of Acute and Chronic Wounds, in a Tissue Regeneration Context

Author

Torre E, Giasafaki D, Steriotis T, Cassinelli C, Morra M, Fiorilli S, Vitale-Brovarone C, Charalambopoulou G, and Iviglia G

Subjects
ordered mesoporous carbon, silver nanoparticles, metal doped carbons, wound healing, tissue regeneration, Medicine (General), R5-920
Abstract

Elisa Torre,1 Dimitra Giasafaki,2 Theodore Steriotis,2 Clara Cassinelli,1 Marco Morra,1 Sonia Fiorilli,3 Chiara Vitale-Brovarone,3 Georgia Charalambopoulou,2 Giorgio Iviglia1 1Nobil Bio Ricerche Srl, Portacomaro 14037, AT, Italy; 2National Center for Scientific Research “Demokritos”, Athens 15341, Greece; 3Department of Applied Science and Technology, Politecnico di Torino, Torino, ItalyCorrespondence: Giorgio Iviglia Email giviglia@nobilbio.itIntroduction: Silver decorated mesoporous carbons are interesting systems that may offer effective solutions for advanced wound care products by combining the well-known anti-microbial activity of silver nanoparticles with the versatile properties of ordered mesoporous carbons. Silver is being used as a topical antimicrobial agent, especially in wound repair. However, while silver shows bactericidal properties, it is also cytotoxic at high concentrations. Therefore, the incorporation of silver into ordered mesoporous carbons allows to exploit both silver’s biological effects and mesoporous carbons’ biocompatibility and versatility with the purpose of conceiving silver-doped materials in light of the growing health concern in wound care.Methods: The wound healing potential of an ordered mesoporous carbon also doped with two different loadings of silver nanoparticles (2 wt% and 10 wt%), was investigated through a biological assessment study based on different assays (cell viability, inflammation, antibacterial tests, macrophage-conditioned fibroblast and human keratinocyte cell cultures).Results: The results show silver-doped ordered mesoporous carbons to positively condition cell viability, with a cell viability percentage >70% even for 10 wt% Ag, to modulate the expression of inflammatory cytokines and of genes involved in tissue repair (KRT6a, VEGFA, IVN) and remodeling (MMP9, TIMP3) in different cell systems. Furthermore, along with the biocompatibility and the bioactivity, the silver-doped ordered mesoporous carbons still retain an antibacterial effect, as shown by a maximum of 13.1% of inhibited area in the Halo test. The obtained results clearly showed that the silver-doped ordered mesoporous carbons exhibit both good biocompatibility and antibacterial effect with enhanced re-epithelialization, angiogenesis promotion and tissue regeneration.Discussion: These findings suggest that the exceptional properties of silver-doped ordered mesoporous carbons could be exploited in the treatment of acute and chronic wounds and that such carbon materials could be potential candidates for use in medical devices for wound healing purposes, in particular, the 10 wt% loading, as the results showed to be the most effective.Keywords: ordered mesoporous carbon, silver nanoparticles, metal doped carbons, wound healing, tissue regeneration

Published
2019

5. Hydrothermally-assisted recovery of Yttria- stabilized zirconia (YSZ) from end-of-life solid oxide cells

Author

Saffirio, S., Pylypko, S., Fiorot, S., Schiavi, I., Fiore, S., Santarelli, M., Ferrero, D., Smeacetto, F., and Fiorilli, S.

Subjects
Solid oxide cell, Recovery, Selective Ni leaching, Renewable Energy, Sustainability and the Environment, End-of-life, Hydrothermal treatment, Yttria-stabilized zirconia (YSZ), General Materials Science, Waste Management and Disposal, Industrial and Manufacturing Engineering
Abstract

Scientific paper published by Politecnico di Torino with the support of Elcogen. Thearticle delivers the results of the activity dedicated to find out an effective and scalable recycling strategies for the recovery of critical raw materials from solid oxide cells (SOCs) technologies.

Published
2022

21. Assessment of kinetic model for ceria oxidation for chemical-looping CO2 dissociation

Author

Universitat Politècnica de Catalunya. Departament d'Enginyeria Química, Universitat Politècnica de Catalunya. NEMEN - Nanoenginyeria de materials aplicats a l'energia, Farooqui, A.E., Manfredi Pica, A., Marocco, P., Ferrero, D., Lanzini, A., Fiorilli, S., Llorca Piqué, Jordi, Santarelli, Massimo, Universitat Politècnica de Catalunya. Departament d'Enginyeria Química, Universitat Politècnica de Catalunya. NEMEN - Nanoenginyeria de materials aplicats a l'energia, Farooqui, A.E., Manfredi Pica, A., Marocco, P., Ferrero, D., Lanzini, A., Fiorilli, S., Llorca Piqué, Jordi, and Santarelli, Massimo

Abstract

Chemical looping technologies are identified as to have an excellent potential for CO2 capture and fuels synthesis. Oxygen carriers are the fundamental component of a chemical looping process, and the choice of stable and efficient carriers with fast redox kinetics is the key to the successful design of the process. Hence, understanding the reaction kinetics is of paramount importance for the selection of an appropriate oxygen carrier material. This work provides a method for kinetic model selection based on a statistical approach to identify the reaction mechanism. The study experimentally investigates the oxidation kinetics of CeO2-d by CO2 and applies a statistical method for the selection of the best-fitting kinetic model for the reaction. The kinetic study is performed in the temperature range of 700–1000¿°C with a CO2 concentration between 20 and 40¿vol% in the feed. The measured peak rates of CO production on ceria were influenced both by temperature and concentration of reactant. The total CO production was more influenced by the temperature than by CO2 concentration, with a maximum CO yield of 33.66¿ml/g at 1000¿°C and 40% CO2. The identification of the oxidation kinetic model is performed by fitting different reactions models to the measured reaction rates and statistically comparing them using the Residual sum of squares (RSS), Akaike information criterion (AICc) and the F-test for the selection of the best-fitting one. Models corresponding to the nucleation and grain growth reaction mechanism provided a good fit of the data, with the Sestak-Berggren (SB) model showing the best approximation of the measured rate of reaction with an evaluated activation energy of 79.1¿±¿6.5¿kJ/mol for the CO2 oxidation., Peer Reviewed, Postprint (author's final draft)

Published
2018

23. Smart scaffolds for osteoporosis treatment

Author

Vitale-Brovarone, C., Fiorilli, S., Molino, G., Vozzi, G., MATTIOLI BELMONTE CIMA, Monica, and Ciapetti, Gabriela

Subjects
smart scaffold, osteoporosis, biofabrication, osteoblast-osteoclast coupling, biofabrication, osteoblast-osteoclast coupling, smart scaffold, osteoporosis
Published
2016

26. An FTIR study of zeolite theta-1

Author

Geobaldo, F., Garrone, E., Fiorilli, S., Onida, B., Giordano, G., and Katovic, A.

Subjects
Hydrogen bonding -- Research, Fourier transform infrared spectroscopy -- Usage, Zeolites -- Research, Zeolites -- Chemical properties, Chemistry, Physical and theoretical -- Research, Chemicals, plastics and rubber industries
Abstract

The acidic properties of two samples of zeolite Theta-1 (Si/Al = 25 and 50) were studied as the propensity to form hydrogen bond with several probes. The adsorption of small molecules at a nominal temperature of 77 K leads to bathochromic shifts in OH stretching vibration of the Si(OH)Al groups close to the medium-pore zeolites observed with ZSM-5 and H-MOR.

Published
2003

33. A biofunctional polymeric coating for microcantilever molecular recognition

Author

Oliviero G., Bergese P., Canavese G., Chiari M., Colombi P., Cretich M., Damin F., Fiorilli S., Marasso S.L., Ricciardi C., Rivolo P., and Depero L.E.

Abstract

An innovative route to activate silicon microcantilevers (MCs) for label free molecular recognition is presented. The method consists in coating the underivatized MCs with a functional ter-polymer based on N,N-dimethylacrylamide (DMA) bearing N-acryloyloxysuccinimide (NAS) and 3-(trimethoxysilyl)propyl-methacrylate (MAPS), two functional monomers that confer to the polymer the ability to react with nucleophilic species on biomolecules and with glass silanols, respectively. The polymer was deposited onto MCs by dip coating. Polymer coated MCs were tested in both static and dynamic modes of actuation, featuring detection of DNA hybridization as well as protein/protein interaction. In the dynamic experiments, focused on protein detection, the MCs showed an average mass responsivity of 0.4 Hz/pg for the first resonant mode and of 2.5 Hz/pg for the second resonant mode. The results of the static experiments, dedicated to DNA hybridization detection, allowed for direct estimation of the DNA duplex formation energetics, which resulted fully consistent with the nominal expected values. These results, together with easiness and cheapness, high versatility, and excellent stability of the recognition signal, make the presented route a reliable alternative to standard SAM functionalization (for microcantilevers (MCs) and for micro-electro-mechanical systems (MEMS) in general).

Published
2008

42. Sulfate Species in MgO-Supported LaMn<INF>0.5</INF>Mg<INF>0.5</INF>O<INF>3</INF> Perovskites:  An Insight into the Chemistry of MgO

Author

Rosso, I., Fiorilli, S., Onida, B., Saracco, G., and Garrone, E.

Abstract

The structure, thermal stability, and reducibility in H2 of sulfate species formed in MgO-promoted perovskites, LaMn0.5Mg0.5O3·17 MgO, have been studied by infrared spectroscopy, temperature-programmed desorption, and temperature-programmed reduction−mass spectrometry. Sulfation at 1073 K generates on the MgO phase both bulk and subsurface sulfates, whereas the latter species are the major product of sulfation at room temperature. In contrast with high-surface MgO samples (where sulfate species of covalent nature are found), the surface species closely resemble those in the bulk. Bulk sulfates are more resistant to thermal treatments than surface sulfates. A transformation of bulk sulfates at higher temperature into sulfides is suggested by IR spectroscopy and proved by chemical analysis. SO2, SO, and H2S are the products of sulfate reduction.

Published
2002
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43. IR Evidence that Secondary Interactions May Hamper H-Bonding at Protonic Sites in Zeolites

Author

Onida, B., Bonelli, B., Borello, L., Fiorilli, S., Geobaldo, F., and Garrone, E.

Abstract

When a molecule, engaged in H-bonding with an acidic proton in zeolites, is large enough to interact with the surrounding walls, the IR spectroscopic measure of the acidity is affected, but information may be gained on the geometry of the site. Examples concerning MCM-22, ZSM-5, SAPO-40, and Theta-1 are discussed.

Published
2002
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46. Osteoporosis-related variations of trabecular bone properties of proximal human humeral heads at different scale lengths

Author

Gabriela Ciapetti, Chiara Vitale-Brovarone, Sonia Lucia Fiorilli, Nicola Baldini, Marco Cavallo, Giulia Molino, Chiara Novara, Massimo Lorusso, Fabrizio Giorgis, Alessio Dalpozzi, Molino G., Dalpozzi A., Cipaetti G., Lorusso M., Novara C., Cavallo M., Baldini N., Giorgis F., Fiorilli S., and Vitale-Brovarone-C.

Subjects
Male, Compressive Strength, Biopsy, Osteoporosis, 02 engineering and technology, Spectrum Analysis, Raman, 0302 clinical medicine, X-Ray Diffraction, Materials Testing, Bone mineral, Aged, 80 and over, humeral heads: micro-CT, Compression test, Middle Aged, 021001 nanoscience & nanotechnology, Compression (physics), Compressive strength, Mechanics of Materials, osteoporosis, compression tests, nanoindentation, Raman spectroscopy, Cancellous Bone, Thermogravimetry, Female, Collagen, 0210 nano-technology, Micro-CT, Materials science, Biomedical Engineering, Arthroplasty, Biomaterials, 03 medical and health sciences, Skeletal disorder, medicine, Humans, Aged, Osteoporosi, 030206 dentistry, X-Ray Microtomography, Nanoindentation, medicine.disease, Durapatite, Bone Trabeculae, Humeral Head, Linear Models, Crystallite, Stress, Mechanical, Osteoporotic Fractures, Biomedical engineering
Abstract

Osteoporosis (OP) is a skeletal disorder responsible for the weakening of the bone structure and, consequently, for an increased fracture risk in the elderly population. In the past, bone mineral density (BMD) variation was considered the best OP indicator, but recently the focus has shifted toward the variation of microstructural bone parameters. This work is based on the characterisation of 8-mm cylindrical biopsies harvested from proximal humeral heads belonging to healthy and osteoporotic patients, in order to assess the OP-related variations of bone properties at different scale lengths. In particular, bone biopsies underwent micro-computed tomography analysis to study the most relevant features of bone architecture and extrapolate the tissue mineral density (TMD) value of bone trabeculae. Compression tests and nanoindentations were performed to investigate the macro- and micromechanical properties of bone biopsies, respectively. In addition, XRD analyses were performed to obtain the mean hydroxyapatite (HA) crystallite size, while Raman spectroscopy investigated the collagen secondary structure. Thermogravimetric analysis was performed to evaluate the ratio between organic and inorganic phases. From the obtained results, OP samples showed a more anisotropic and less interconnected structure responsible for reduced compression strength. From this, it can be supposed that OP caused an alteration of bone structure that led to inferior macroscopic mechanical properties. Furthermore, OP samples possessed higher TMD and bigger HA crystals that are correlated to an increase of the hardness value obtained by means of nanoindentation. This less controlled HA crystal growth is probably due to an alteration of the organic matrix structure, as revealed by the increase of the random coil contribution in the Raman spectra of the OP bone. This higher crystal content led to an increase in trabecular density and hardness. In conclusion, the obtained data showed that OP affects bone properties at different scale lengths causing an alteration of its morphological, structural and mechanical features.

Published
2019
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47. Organo-silane coated substrates for DNA purification

Author

M. Anderle, Lia Vanzetti, L. Marocchi, Cecilia Pederzolli, Cristina Potrich, Lorenzo Lunelli, Laura Pasquardini, Sonia Lucia Fiorilli, Diego Vozzi, Paolo Gasparini, Pasquardini, L., Lunelli, L., Potrich, C., Marocchi, L., Fiorilli, S., Vozzi, D., Vanzetti, L., Gasparini, P., Anderle, M., and Pederzolli, C.

Subjects
Organo-silane molecules, Chromatography, Materials science, Elution, Base pair, General Physics and Astronomy, Substrate (chemistry), Surfaces and Interfaces, General Chemistry, DNA separation by silica adsorption, Condensed Matter Physics, DNA extraction, Electrostatic interaction, Surfaces, Coatings and Films, Surfaces, Coatings and Films, chemistry.chemical_compound, genomic DNA, chemistry, Triethoxysilane, Organo-silane molecule, DNA
Abstract

The use of blood as DNA source to be employed in genetic analysis requires a purification process in order to remove proteins, lipids and any other contaminants, such as hemoglobin, which inhibit PCR. On the other hand, the increasing demand of miniaturized and automated biological tests able to reduce time and cost of analysis, requires the development and the characterization of materials aimed to perform the DNA purification processes in micro-devices. In this work we studied the interaction of DNA molecules with modified silicon based substrates, positively charged after deposition of a (3-aminopropyl)triethoxysilane (APTES) or 3-[2-(2-aminoethylamino)ethylamino]propyl-trimethoxysilane (AEEA) interfacial layer. The evaluation of the DNA adsorption and elution capacity of different substrates (thermally grown silicon oxide, silicon oxide obtained by plasma enhanced chemical vapour deposition, and Pyrex ® ) was studied taking into account the nature of the substrate and the effect of DNA length (in the 208–50,000 base pairs range). Main findings are that DNA elution capacity depends both on the utilized substrate and on the choice of the silanizing agent. Higher DNA recovery was obtained from AEEA-modified substrates, but the eluted DNA had different electrophoretic properties from native DNA. DNA with the same electrophoretic behaviour as genomic DNA was instead recovered from APTES-treated surfaces. Furthermore, the length of DNA present in the starting material strongly modulates the elution efficiency, longer DNA being released in a lesser amount, suggesting that opportunely modified surfaces could be used as systems for differential DNA separation.

Published
2011

48. Finite element analysis of vertebroplasty in the osteoporotic T11-L1 vertebral body: Effects of bone cement formulation.

Author

Mondal S, MacManus DB, Banche-Niclot F, Vitale-Brovarone C, Fiorilli S, McCarthy HO, and Dunne N

Subjects
Male, Humans, Female, Bone Cements pharmacology, Finite Element Analysis, Vertebral Body, Fractures, Compression surgery, Spinal Fractures surgery, Vertebroplasty
Abstract

Vertebral compression fractures are one of the most severe clinical consequences of osteoporosis and the most common fragility fracture afflicting 570 and 1070 out of 100,000 men and women worldwide, respectively. Vertebroplasty (VP), a minimally invasive surgical procedure that involves the percutaneous injection of bone cement, is one of the most efficacious methods to stabilise osteoporotic vertebral compression fractures. However, postoperative fracture has been observed in up to 30% of patients following VP. Therefore, this study aims to investigate the effect of different injectable bone cement formulations on the stress distribution within the vertebrae and intervertebral discs due to VP and consequently recommend the optimal cement formulation. To achieve this, a 3D finite element (FE) model of the T11-L1 vertebral body was developed from computed tomography scan data of the spine. Osteoporotic bone was modeled by reducing the Young's modulus by 20% in the cortical bone and 74% in cancellous bone. The FE model was subjected to different physiological movements, such as extension, flexion, bending, and compression. The osteoporotic model caused a reduction in the average von Mises stress compared with the normal model in the T12 cancellous bone and an increment in the average von Mises stress value at the T12 cortical bone. The effects of VP using different formulations of a novel injectable bone cement were modeled by replacing a region of T12 cancellous bone with the materials. Due to the injection of the bone cement at the T12 vertebra, the average von Mises stresses on cancellous bone increased and slightly decreased on the cortical bone under all loading conditions. The novel class of bone cements investigated herein demonstrated an effective restoration of stress distribution to physiological levels within treated vertebrae, which could offer a potential superior alternative for VP surgery as their anti-osteoclastogenic properties could further enhance the appeal of their fracture treatment and may contribute to improved patient recovery and long-term well-being., (© 2024 The Authors. Journal of Biomedical Materials Research Part B: Applied Biomaterials published by Wiley Periodicals LLC.)

Published
2024
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49. Osteogenic Potential of Nano-Hydroxyapatite and Strontium-Substituted Nano-Hydroxyapatite.

Author

Kontogianni GI, Coelho C, Gauthier R, Fiorilli S, Quadros P, Vitale-Brovarone C, and Chatzinikolaidou M

Abstract

Nanohydroxyapatite (nanoHA) is the major mineral component of bone. It is highly biocompatible, osteoconductive, and forms strong bonds with native bone, making it an excellent material for bone regeneration. However, enhanced mechanical properties and biological activity for nanoHA can be achieved through enrichment with strontium ions. Here, nanoHA and nanoHA with a substitution degree of 50 and 100% of calcium with strontium ions (Sr-nanoHA&#95;50 and Sr-nanoHA&#95;100, respectively) were produced via wet chemical precipitation using calcium, strontium, and phosphorous salts as starting materials. The materials were evaluated for their cytotoxicity and osteogenic potential in direct contact with MC3T3-E1 pre-osteoblastic cells. All three nanoHA-based materials were cytocompatible, featured needle-shaped nanocrystals, and had enhanced osteogenic activity in vitro. The Sr-nanoHA&#95;100 indicated a significant increase in the alkaline phosphatase activity at day 14 compared to the control. All three compositions revealed significantly higher calcium and collagen production up to 21 days in culture compared to the control. Gene expression analysis exhibited, for all three nanoHA compositions, a significant upregulation of osteonectin and osteocalcin on day 14 and of osteopontin on day 7 compared to the control. The highest osteocalcin levels were found for both Sr-substituted compounds on day 14. These results demonstrate the great osteoinductive potential of the produced compounds, which can be exploited to treat bone disease.

Published
2023
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50. Incorporation of strontium-containing bioactive particles into PEOT/PBT electrospun scaffolds for bone tissue regeneration.

Author

Tomasina C, Montalbano G, Fiorilli S, Quadros P, Azevedo A, Coelho C, Vitale-Brovarone C, Camarero-Espinosa S, and Moroni L

Subjects
Humans, Strontium pharmacology, Cell Differentiation, Bone Regeneration, Tissue Scaffolds chemistry, Core Binding Factor Alpha 1 Subunit metabolism
Abstract

The combination of biomaterials and bioactive particles has shown to be a successful strategy to fabricate electrospun scaffolds for bone tissue engineering. Among the range of bioactive particles, hydroxyapatite and mesoporous bioactive glasses (MBGs) have been widely used for their osteoconductive and osteoinductive properties. Yet, the comparison between the chemical and mechanical characteristics as well as the biological performances of these particle-containing scaffolds have been characterized to a limited extent. In this work, we fabricated PEOT/PBT-based composite scaffolds incorporating either nanohydroxyapatite (nHA), strontium-containing nanohydroxyapatite (nHA&#95;Sr) or MBGs doped with strontium ions up to 15 wt./vol% and 12,5 wt./vol% for nHA and MBG, respectively. The composite scaffolds presented a homogeneous particle distribution. Morphological, chemical and mechanical analysis revealed that the introduction of particles into the electrospun meshes caused a decrease in the fiber diameter and mechanical properties, yet maintaining the hydrophilic nature of the scaffolds. The Sr 2+ release profile differed according to the considered system, observing a 35-day slowly decreasing release from strontium-containing nHA scaffolds, whereas MBG-based scaffolds showed a strong burst release in the first week. In vitro, culture of human bone marrow-derived mesenchymal stromal cells (hMSCs) on composite scaffolds demonstrated excellent cell adhesion and proliferation. In maintenance and osteogenic media, all composite scaffolds showed high mineralization as well as expression of Col I and OCN compared to PEOT/PBT scaffolds, suggesting their ability to boost bone formation even without osteogenic factors. The presence of strontium led to an increase in collagen secretion and matrix mineralization in osteogenic medium, while gene expression analysis showed that hMSCs cultured on nHA-based scaffolds had a higher expression of OCN, ALP and RUNX2 compared to cells cultured on nHA&#95;Sr scaffolds in osteogenic medium. Yet, cells cultured on MBGs-based scaffolds showed a higher gene expression of COL1, ALP, RUNX2 and BMP2 in osteogenic medium compared to nHA-based scaffolds, which is hypothesized to lead to high osteoinductivity in long term cultures., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2023
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