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2. A computational analysis of a novel therapeutic approach combining an advanced medicinal therapeutic device and a fracture fixation assembly for the treatment of osteoporotic fractures: Effects of physiological loading, interface conditions, and fracture fixation materials

Author

Mondal, Subrata, MacManus, David B., Bonatti, Amedeo Franco, De Maria, Carmelo, Dalgarno, Kenny, Chatzinikolaidou, Maria, De Acutis, Aurora, Vozzi, Giovanni, Fiorilli, Sonia, Vitale-Brovarone, Chiara, and Dunne, Nicholas

Published
2023
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6. Buckwheat Hull Extracts Inhibit Aspergillus flavus Growth and AFB1 Biosynthesis

Author

Chiara Nobili, Agnese De Acutis, Massimo Reverberi, Cristiano Bello, Gian Paolo Leone, Domenico Palumbo, Fausta Natella, Silvia Procacci, Slaven Zjalic, and Andrea Brunori

Subjects
Aspergillus flavus, biomolecules, Fagopyrum esculentum, industrial waste recovery, organic pest-control, Microbiology, QR1-502
Abstract

Fungal contamination poses at risk the whole food production chain - from farm to fork - with potential negative impact on human health. So far, the insurgence of pathogens has been restrained by the use of chemical compounds, whose residues have gradually accumulated determining toxic effects in the environment. Modern innovative techniques imply the use of natural and eco-sustainable bioactive plant molecules as pathogens and pests-control agents. These may be profitably recovered in large amounts at the end of industrial milling processes. This is the case of the non-digestible hull of common buckwheat (Fagopyrum esculentum Moench), a natural source of polyphenols, tocopherols, phytosterols and fatty acids. We extract these compounds from the hull of buckwheat; apply them to Aspergillus flavus - aflatoxin producer - under in vitro conditions, checking their ability to inhibit fungal growth and aflatoxin biosynthesis. Moreover, a solvent free method implying the adoption of supercritical CO2 as solvent was set up to extract lipophilic molecules from the buckwheat’ hulls. Positive results in controlling fungal growth and aflatoxin biosynthesis let infer that the extracts could be further tested also under in vivo conditions.

Published
2019
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7. Electrospun Structures Made of a Hydrolyzed Keratin-Based Biomaterial for Development of in vitro Tissue Models

Author

Gabriele Maria Fortunato, Francesco Da Ros, Samuele Bisconti, Aurora De Acutis, Francesco Biagini, Anna Lapomarda, Chiara Magliaro, Carmelo De Maria, Francesca Montemurro, Dario Bizzotto, Paola Braghetta, and Giovanni Vozzi

Subjects
hydrolyzed keratin, gelatin, GPTMS, TFE, electrospinning, tissue engineering, Biotechnology, TP248.13-248.65
Abstract

The aim of this study is the analysis and characterization of a hydrolyzed keratin-based biomaterial and its processing using electrospinning technology to develop in vitro tissue models. This biomaterial, extracted from poultry feathers, was mixed with type A porcine gelatin and cross-linked with γ-glycidyloxy-propyl-trimethoxy-silane (GPTMS) to be casted initially in the form of film and characterized in terms of swelling, contact angle, mechanical properties, and surface charge density. After these chemical-physical characterizations, electrospun nanofibers structures were manufactured and their mechanical properties were evaluated. Finally, cell response was analyzed by testing the efficacy of keratin-based structures in sustaining cell vitality and proliferation over 4 days of human epithelial, rat neuronal and human primary skin fibroblast cells.

Published
2019
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8. A computational analysis of a novel therapeutic approach combining an advanced medicinal therapeutic device and a fracture fixation assembly for the treatment of osteoporotic fractures: Effects of physiological loading, interface conditions, and fracture fixation materials

Author

Subrata Mondal, David B. MacManus, Amedeo Franco Bonatti, Carmelo De Maria, Kenny Dalgarno, Maria Chatzinikolaidou, Aurora De Acutis, Giovanni Vozzi, Sonia Fiorilli, Chiara Vitale-Brovarone, and Nicholas Dunne

Subjects
Periprosthetic femoral fracture, Fracture fixation assembly, Biomedical Engineering, Biophysics, Finite element analysis, Osteoporosis, Femur, Bone regeneration
Abstract

The occurrence of periprosthetic femoral fractures (PFF) has increased in people with osteoporosis due to decreased bone density, poor bone quality, and stress shielding from prosthetic implants. PFF treatment in the elderly is a genuine concern for orthopaedic surgeons as no effective solution currently exists. Therefore, the goal of this study was to determine whether the design of a novel advanced medicinal therapeutic device (AMTD) manufactured from a polymeric blend in combination with a fracture fixation plate in the femur is capable of withstanding physiological loads without failure during the bone regenerative process. This was achieved by developing a finite element (FE) model of the AMTD together with a fracture fixation assembly, and a femur with an implanted femoral stem. The response of both normal and osteoporotic bone was investigated by implementing their respective material properties in the model. Physiological loading simulating the peak load during standing, walking, and stair climbing was investigated. The results showed that the fixation assembly was the prime load bearing component for this configuration of devices. Within the fixation assembly, the bone screws were found to have the highest stresses in the fixation assembly for all the loading conditions. Whereas the stresses within the AMTD were significantly below the maximum yield strength of the device's polymeric blend material. Furthermore, this study also investigated the performance of different fixation assembly materials and found Ti-6Al-4V to be the optimal material choice from those included in this study.

Published
2023
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9. Biological Activity of Humulus lupulus (L.) Essential Oil and Its Main Components against Sitophilus granarius (L.)

Author

Gianluca Paventi, Laura de Acutis, Antonio De Cristofaro, Marco Pistillo, Giacinto S. Germinara, and Giuseppe Rotundo

Subjects
botanical insecticides, hop terpenes, pest control, acetylcholinesterase, electroantennography, Microbiology, QR1-502
Abstract

Besides its use in the brewing industry, hop cones appear as a powerful source of biologically active compounds, already checked for their putative anticancer, antimicrobial, and other bioactivities. Conversely, hop use in pest control remains to date under-investigated. Therefore, the biological activity of hop essential oil (EO) and its main constituents was investigated here against Sitophilus granarius. Adult contact toxicity was found 24 h after treatment with hop EO (LD50/LD90 13.30/40.23 µg/adult), and its three most abundant components, α-humulene, β-myrcene, and β-caryophyllene (LD50/LD90 41.87/73.51, 75.91/126.05, and 138.51/241.27 µg/adult, respectively); negligible variations at 48 h, except for α-humulene (LD50/LD90 26.83/49.49 µg/adult), were found. The fumigant toxicity of the EO and terpenes was also checked: in the absence of wheat grains, β-myrcene showed the highest inhalation toxicity (LC50/LC90 72.78/116.92 mg/L air), whereas α-humulene, β-caryophyllene, and the EO induced similar values (LC50/LC90 about 130/200 mg/L air); with the exception for EO, the wheat presence increased (30–50%) LC50/LC90 values. Moreover, EO and terpenes were perceived by insect antennae and elicited repellent activity. Only β-caryophyllene showed an anticholinesterase effect, this suggesting that different mechanisms of action should be responsible for hop EO toxicity. Therefore, hop EO appears suitable for developing control means against this pest.

Published
2020
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10. A new path to platelet production through matrix sensing

Author

Vittorio Abbonante, Christian Andrea Di Buduo, Cristian Gruppi, Carmelo De Maria, Elise Spedden, Aurora De Acutis, Cristian Staii, Mario Raspanti, Giovanni Vozzi, David L. Kaplan, Francesco Moccia, Katya Ravid, and Alessandra Balduini

Subjects
Diseases of the blood and blood-forming organs, RC633-647.5
Abstract

Megakaryocytes (MK) in the bone marrow (BM) are immersed in a network of extracellular matrix components that regulates platelet release into the circulation. Combining biological and bioengineering approaches, we found that the activation of transient receptor potential cation channel subfamily V member 4 (TRPV4), a mechano-sensitive ion channel, is induced upon MK adhesion on softer matrices. This response promoted platelet production by triggering a cascade of events that lead to calcium influx, β1 integrin activation and internalization, and Akt phosphorylation, responses not found on stiffer matrices. Lysyl oxidase (LOX) is a physiological modulator of BM matrix stiffness via collagen crosslinking. In vivo inhibition of LOX and consequent matrix softening lead to TRPV4 activation cascade and increased platelet levels. At the same time, in vitro proplatelet formation was reduced on a recombinant enzyme-mediated stiffer collagen. These results suggest a novel mechanism by which MKs, through TRPV4, sense extracellular matrix environmental rigidity and release platelets accordingly.

Published
2017
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12. One-pot process: Microwave-assisted keratin extraction and direct electrospinning to obtain keratin-based bioplastic

Author

Luca Bernazzani, Emilia Bramanti, Maria Rosaria Tine, Elena Pulidori, Chiara Pelosi, Giovanni Vozzi, Celia Duce, Simone Micalizzi, Aurora De Acutis, Francesca Montemurro, and Carmelo De Maria

Subjects
Bioplastic, Gelatin, Keratin, Spectroscopy, Fourier Transform Infrared, Scanning, Biology (General), Microwaves, Spectroscopy, Circular economy, Electrospinning, Green chemistry, Keratin-based bioplastics, Microwave-assisted extractions, Acetic Acid, chemistry.chemical_classification, Microscopy, Calorimetry, Differential Scanning, integumentary system, General Medicine, Animals, Feathers, Keratins, Microscopy, Electron, Scanning, Solvents, Computer Science Applications, Solvent, Chemistry, Thermogravimetric analysis, food.ingredient, Materials science, QH301-705.5, Calorimetry, Differential Scanning, Electron, Catalysis, Article, Inorganic Chemistry, Differential scanning calorimetry, food, Physical and Theoretical Chemistry, QD1-999, Molecular Biology, Organic Chemistry, Extraction (chemistry), chemistry, Chemical engineering, Fourier Transform Infrared
Abstract

Poultry feathers are among the most abundant and polluting keratin-rich waste biomasses. In this work, we developed a one-pot microwave-assisted process for eco-friendly keratin extraction from poultry feathers followed by a direct electrospinning (ES) of the raw extract, without further purification, to obtain keratin-based bioplastics. This microwave-assisted keratin extraction (MAE) was conducted in acetic acid 70% v/v. The effects of extraction time, solvent/feathers ratio, and heating mode (MAE vs. conventional heating) on the extraction yield were investigated. The highest keratin yield (26 ± 1% w/w with respect to initial feathers) was obtained after 5 h of MAE. Waste-derived keratin were blended with gelatin to fabricate keratin-based biodegradable and biocompatible bioplastics via ES, using 3-(Glycidyloxypropyl)trimethoxysilane (GPTMS) as a cross-linking agent. A full characterization of their thermal, mechanical, and barrier properties was performed by differential scanning calorimetry, thermogravimetric analysis, uniaxial tensile tests, and water permeability measurements. Their morphology and protein structure were investigated using scanning electron microscopy and attenuated total reflection-infrared spectroscopy. All these characterizations highlighted that the properties of the keratin-based bioplastics can be modulated by changing keratin and GPTMS concentrations. These bioplastics could be applied in areas such as bio-packaging and filtration/purification membranes.

Published
2021
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13. Buckwheat Hull Extracts Inhibit Aspergillus flavus Growth and AFB1 Biosynthesis

Author

Domenico Palumbo, Chiara Nobili, Gian Paolo Leone, Slaven Zjalic, Massimo Reverberi, Cristiano Bello, Agnese De Acutis, Silvia Procacci, Andrea Brunori, Fausta Natella, Nobili, C., De Acutis, A., Reverberi, M., Bello, C., Leone, G. P., Palumbo, D., Natella, F., Procacci, S., Zjalic, S., and Brunori, A.

Subjects
Microbiology (medical), Aflatoxin, organic pest-control, lcsh:QR1-502, Buckwheat Hull, mycotoxins, aflatoxins, Aspergillus flavus, Aspergillus flavu, Microbiology, biomolecules, lcsh:Microbiology, 03 medical and health sciences, chemistry.chemical_compound, Biosynthesis, Food science, industrial waste recovery, Fagopyrum esculentum, 030304 developmental biology, Original Research, 0303 health sciences, Aspergillus, biology, 030306 microbiology, food and beverages, biology.organism_classification, In vitro, Solvent, Biomolecule, chemistry, Polyphenol, Whole food
Abstract

Fungal contamination poses at risk the whole food production chain - from farm to fork - with potential negative impact on human health. So far, the insurgence of pathogens has been restrained by the use of chemical compounds, whose residues have gradually accumulated determining toxic effects in the environment. Modern innovative techniques imply the use of natural and eco-sustainable bioactive plant molecules as pathogens and pests-control agents. These may be profitably recovered in large amounts at the end of industrial milling processes. This is the case of the non- digestible hull of common buckwheat (Fagopyrum esculentum Moench), a natural source of polyphenols, tocopherols, phytosterols and fatty acids. We extract these compounds from the hull of buckwheat ; apply them to Aspergillus flavus - aflatoxin producer - under in vitro conditions, checking their ability to inhibit fungal growth and aflatoxin biosynthesis. Moreover, a solvent free method implying the adoption of supercritical CO2 as solvent was set up to extract lipophilic molecules from the buckwheat’ hulls. Positive results in controlling fungal growth and aflatoxin biosynthesis let infer that the extracts could be further tested also under in vivo conditions.

Published
2019

14. Modelling the 3D bioprinting process of β-sheet self-assembling peptide hydrogel scaffolds

Author

Chiesa, Irene, Ligorio, Cosimo, Bonatti, Amedeo, De Acutis, Aurora, Smith, Andrew, Saiani, Alberto, Vozzi, Giovanni, and De Maria, Carmelo

Subjects
Scaffolds, Self-assembling peptide hydrogel, Manchester Institute of Biotechnology, Printability, ResearchInstitutes_Networks_Beacons/manchester_institute_of_biotechnology, Finite element modelling, extrusion-based 3D bioprinting
Abstract

Extrusion-based three-dimensional (3D) bioprinting is nowadays the most efficient additive manufacturing technology to fabricate well-defined and clinical-scale relevant 3D scaffolds, exploiting soft biomaterials. However, trial and error approaches are usually employed to achieve the desired structures, thus leading to a waste of time and material. In this work, we show the potential of finite element (FE) simulation in predicting the printability of a biomaterial, in terms of extrudability and scaffold mechanical stability over time. To this end, we firstly rheologically characterized a newly developed self-assembling peptide hydrogel (SAPH). Subsequently, we modelled both the extrusion process of the SAPHs as well as the stability over time of a 3D bioprinted wood-pile scaffold. FE modelling revealed that the simulated SAPHs and printing set-ups led to a successful extrusion, within a range of shear stresses that are not detrimental for cells. Finally, we successfully 3D bioprinted a human ear-shaped scaffolds with in vivo dimensions and several protrusion planes by bioplotting the SAPH into a poly(vinyl alcohol)-poly(vinyl pyrrolidone) copolymer, which was identified as a suitable bioprinting strategy by mechanical FE simulation.

Published
2020
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15. Modeling the Three-Dimensional Bioprinting Process of β-Sheet Self-Assembling Peptide Hydrogel Scaffolds

Author

Giovanni Vozzi, Alberto Saiani, Cosimo Ligorio, Aurora De Acutis, Amedeo Franco Bonatti, Andrew M. Smith, Irene Chiesa, and Carmelo De Maria

Subjects
Medical Technology, Vinyl alcohol, Scaffold, Materials science, printability, Beta sheet, Biomaterial, finite element modeling, Nanotechnology, Finite element method, chemistry.chemical_compound, chemistry, scaffolds, Copolymer, Extrusion, self-assembling peptide hydrogel, Original Research, extrusion-based 3D bioprinting, Self-assembling peptide
Abstract

Extrusion-based three-dimensional (3D) bioprinting is nowadays the most efficient additive manufacturing technology to fabricate well-defined and clinical-scale relevant 3D scaffolds, exploiting soft biomaterials. However, trial and error approaches are usually employed to achieve the desired structures, thus leading to a waste of time and material. In this work, we show the potential of finite element (FE) simulation in predicting the printability of a biomaterial, in terms of extrudability and scaffold mechanical stability over time. To this end, we firstly rheologically characterized a newly developed self-assembling peptide hydrogel (SAPH). Subsequently, we modelled both the extrusion process of the SAPHs as well as the stability over time of a 3D bioprinted wood-pile scaffold. FE modelling revealed that the simulated SAPHs and printing set-ups led to a successful extrusion, within a range of shear stresses that are not detrimental for cells. Finally, we successfully 3D bioprinted a human ear-shaped scaffolds with in vivo dimensions and several protrusion planes by bioplotting the SAPH into a poly(vinyl alcohol)-poly(vinyl pyrrolidone) copolymer, which was identified as a suitable bioprinting strategy by mechanical FE simulation.

Published
2020

16. Buckwheat antioxidant profile modulates aspergillus flavus AFB1 production, In Vitro

Author

De Acutis, A., Brunori, A., Nobili, C., De Acutis, A., Brunori, A., and Nobili, C.

Subjects
Biomolecule, Biomolecules, AFB1, Fagopyrum esculentum, Biocontrol, Aspergillus flavus
Abstract

Field commodities are exposed to fungal contamination with potential negative impact on human health. Bioactive plant molecules, as for example antioxidant compounds present in common buckwheat (Fagopyrum esculentum Moench), can provide natural means of biocontrol. To this purpose, the ability of flavonols extracted from common buckwheat hull to modulate, in in vitro conditions, Aspergillus flavus production of aflatoxin B1 (AFB1) was tested in comparison to synthetic rutin. Positive results achieved let infer that the extract could be furtherly tested also in vivo. Copyright� (2017) by the International Measurement Confederation (IMEKO). All rights reserved.

Published
2017

18. Design and proof of concept for multi degree of freedom hydrostatically coupled dielectric elastomer actuators with roto-translational kinematics for object handling

Author

A De Acutis, Nicola M. Pugno, A Bau, Antonio Bicchi, Vinicio Tincani, L Calabrese, and Danilo De Rossi

Subjects
soft robotics, 0209 industrial biotechnology, Field (physics), Computer science, object transportation, Mechanical engineering, 02 engineering and technology, Transduction (psychology), Computer Science::Robotics, dielectric elastomer actuator, object transportation, soft platform, soft robotics, soft platform, 020901 industrial engineering & automation, General Materials Science, Electrical and Electronic Engineering, dielectric elastomer actuator, Civil and Structural Engineering, Modular unit, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Object (computer science), Atomic and Molecular Physics, and Optics, Computer Science::Other, Contact mechanics, Mechanics of Materials, Proof of concept, Signal Processing, Mechanics of planar particle motion, 0210 nano-technology, Actuator
Abstract

In this article we present an upgraded design of the existing push–pull hydrostatically coupled dielectric elastomer actuator (HC-DEA) for use in the field of soft manipulators. The new design has segmented electrodes, which stand as four independent elements on the active membrane of the actuator. When properly operated, the actuator can generate both out of plane and in-plane motions resulting in a multi-degrees of freedom soft actuator able to exert both normal pushes (like a traditional HC-DEA) and tangential thrusts. This novel design makes the actuator suitable for delicate flat object transportation. In order to use the actuator in soft systems, we experimentally characterized its electromechanical transduction and modeled its contact mechanics. Finally, we show that the proposed actuator can be employed as a modular unit to develop active surfaces for flat object roto-translation.

Published
2018

23. Multimaterial and Multiscale Rapid Prototyping of Patient-Specific Scaffold

Author

Giovanni Vozzi, Aurora De Acutis, and Carmelo De Maria

Subjects
Rapid prototyping, Multi Material, Scaffold, Engineering drawing, Multi Material, Multi Scale, Rapid Prototyping, Scaffold, Tissue Engineering, Materials science, Fabrication, Tissue Engineering, technology, industry, and agriculture, Multi material, CAD, Rapid Prototyping, Patient specific, Workflow, Tissue engineering, Multi Scale
Abstract

The majority of strategies used in tissue engineering (TE) employ a scaffold, which is used to guide .the proliferation, the migration and the adhesione of cell in 3D to pruduce an engineered tissue. A new trend in scaffolds’s fabrication is represented by the hybrid Rapid Prototyping technologies. This is a new multimaterial and multiscale fabrication approach which combine the common RP technologies with other micro/nanofabrication techiques to fabricate scaffold that mimick the hetereogenty and hierarchical structure typical of the native extracellular matrix. In this new contest our work present: 1) an innovative device for the fabrication of multi material scaffolds based on an open source FDM 3D printer suitably modified to integrate a multi nozzle deposition tool 2) a design proposal for a multi material and multi scale machine to allow a full control over the modulation of the building materials and of the topography in a scaffold 3) and lastly a CAD workflow to guide the fabrication of RP patient specific scaffolds. Multifunctional hydrogel-based scaffold are fabricated as a demonstration of the validity of the proposed devices. Starting from a clinical case we print a patient-specific scaffold with the aim to recover bone defects at mandibular level as a validation of the proposed CAD process.

Published
2016

24. Machine design for multimaterial processing

Author

Michele Carrabba, Giuseppe Criscenti, Carmelo De Maria, Giovanni Vozzi, and Aurora De Acutis

Subjects
Genetics and Molecular Biology (all), Scaffold, Modularity (networks), Engineering drawing, Materials science, Multimaterial processing, Parallel manipulator, Mechanical engineering, Workspace, Degrees of freedom (mechanics), Biochemistry, Electrospinning, Microfabrication, Biochemistry, Genetics and Molecular Biology (all), Engineering (all), Biofabrication
Abstract

A parallel manipulator with three translational degrees of freedom for microfabrication of biomaterials was designed for a given workspace. The device was opportunely designed to mount the following biofabrication tools on its mobile platform: a pressure-driven extrusion tool, a piston-driven extrusion tool, and an electrospinning tool. Taking advantage of the modularity of the system, it was possible to combine these different techniques to obtain multimaterial and multiscale scaffolds with structural and mechanical characteristics more similar to biological tissues. In this work, hydrogel-based composite scaffolds were fabricated as a demonstration.

Published
2016

26. Indirect Rapid Prototyping for Tissue Engineering

Author

Giovanni Vozzi, Aurora De Acutis, and Carmelo De Maria

Subjects
Rapid prototyping, Scaffold, Fabrication, Materials science, Tissue engineering, Casting (metalworking), Natural polymers, Biomaterial, Nanotechnology, Compositional variation
Abstract

Tissue engineering (TE) aims at producing patient-specific biological substitutes in an attempt to repair, replace and regenerate damaged tissues or organs in order to improve the current state of clinical treatments. A three-dimensional substrate, the scaffold, is a key aspect to promote cell organization to form a tissue. Recently, rapid prototyping (RP) technologies have been successfully used to fabricate complex scaffolds, thanks to the ability to create highly reproducible architecture and compositional variation across the entire structure, due to their precise controlled computer driven fabrication. The drawback of most of the fabrication principles applied in the RP processes is the requirement of particular conditions (e.g., pressure or temperature) that limit the material choice. Natural polymers, such as collagen, have underlined their superiority for TE solutions but they are challenging to be processed with RP techniques. As alternative, scaffold made of natural biomaterial can be produced by indirect fabrication techniques, casting a biomaterial into sacrificial mold realized by RP processes. So far, the indirect rapid prototyping (iRP) has emerged in a number of different approaches with promising results. The present chapter is focused on iRP multistep methods, highlighting strength and weakness and indicating possible future perspectives.

Published
2015

28. Buckwheat Hull Extracts Inhibit Aspergillus flavus Growth and AFB1 Biosynthesis.

Author

Nobili, Chiara, De Acutis, Agnese, Reverberi, Massimo, Bello, Cristiano, Leone, Gian Paolo, Palumbo, Domenico, Natella, Fausta, Procacci, Silvia, Zjalic, Slaven, and Brunori, Andrea

Subjects
ASPERGILLUS flavus, RICE hulls, BUCKWHEAT, BIOSYNTHESIS, PHYTOPATHOGENIC microorganisms, FUNGAL growth, MANUFACTURING processes, EXTRACTS
Abstract

Fungal contamination poses at risk the whole food production chain - from farm to fork - with potential negative impact on human health. So far, the insurgence of pathogens has been restrained by the use of chemical compounds, whose residues have gradually accumulated determining toxic effects in the environment. Modern innovative techniques imply the use of natural and eco-sustainable bioactive plant molecules as pathogens and pests-control agents. These may be profitably recovered in large amounts at the end of industrial milling processes. This is the case of the non-digestible hull of common buckwheat (Fagopyrum esculentum Moench), a natural source of polyphenols, tocopherols, phytosterols and fatty acids. We extract these compounds from the hull of buckwheat; apply them to Aspergillus flavus - aflatoxin producer - under in vitro conditions, checking their ability to inhibit fungal growth and aflatoxin biosynthesis. Moreover, a solvent free method implying the adoption of supercritical CO2 as solvent was set up to extract lipophilic molecules from the buckwheat' hulls. Positive results in controlling fungal growth and aflatoxin biosynthesis let infer that the extracts could be further tested also under in vivo conditions. [ABSTRACT FROM AUTHOR]

Published
2019
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30. Bioactivities of Lavandula angustifolia essential oil against the stored grain pest Sitophilus granarius.

Author

GERMINARA, Giacinto Salvatore, DI STEFANO, Maria Giovanna, DE ACUTIS, Laura, PATI, Sandra, DELFINE, Sebastiano, DE CRISTOFARO, Antonio, and ROTUNDO, Giuseppe

Subjects
FUMIGANTS, ESSENTIAL oils, LAVENDERS, PESTS, INSECT pest control, GRAIN
Abstract

The contact and fumigant toxicity and repellent, antifeedant and nutritional effects of essential oil (EO) isolated from flower spikes of Lavandula angustifolia Miller were evaluated against adults of the granary weevil, Sitophilus granarius (L.). A total of 53 EO constituents were identified by gas chromatography coupled with mass spectrometry (GC-MS) accounting for 98.3% of whole EO. The main EO constituents were linalool (23.8%), 1,8-cineole (12.0%), borneol (10.7%), terpinen-4-ol (10.0%), linalyl acetate (6.9%), (E)-β-ocimene (6.2%), (E)-β-farnesene (3.5%), and camphor (2.8%). Contact toxicity of lavender EO significantly increased with dose and time after treatment. At the 0.449 mg/adult dose, mortality reached 91.7 and 100% after 24 and 48 h exposure, respectively. A strong fumigant toxicity was also observed but it was reduced by the presence of wheat grains. The LC50 and LC90 values were respectively 1.5 and 4.1 mg/L in the absence of wheat grains and 10.9 and 47.6 mg/L in the presence of this substrate. A marked repellent activity was found both in filter paper and arena bioassays. In this latter, the EO effectively disrupted adult granary weevil orientation to an attractive host substrate (200 g of wheat grains) starting from the 1.1 mg dose. Flour disc bioassays showed that the EO did not significantly affect feeding activity, growth rate, food consumption and food utilization. Potential applications of lavender EO as a natural alternative to synthetic insecticides for controlling stored-product insect pests are discussed. [ABSTRACT FROM AUTHOR]

Published
2017

31. Number of eggs in egg-noodles

Author

Emilio, Bottari, Rodolfo, De Acutis, and Maria Rosa, Festa

Subjects
Cholesterol, Food, Eggs, Flour, Wheat, Food Analysis, Triticum
Abstract

The official method to determine the number of eggs present in egg-noodles is the digitonin method. By applying this method the total content of sterols is determined and expressed as total sterols. The official method is time consuming, not very accurate and its performance is very complicated. Its results are not very reliable either because the composition of the wheat is not considered. In this paper some markers are proposed to verify the correct ratio between eggs and triticum durum (TD) semolina used to prepare egg-noodles. Markers are selected ratios between sterols and FAME. The lipid extract is trans-esterified and injected into a gas chromatograph. The ratio between the areas of the selected components gives the markers. This method is proposed to substitute or alternate the official method because is more accurate and time saving.

Published
2002

32. Characterization of foxing stains by chemical and spectrometric methods

Author

Bicchieri M, Pappalardo G, Romano FP, Sementilli FM, and De Acutis R

Abstract

Foxing is a complex phenomenon, not yet well understood. The term is applied to stains of reddish-brown, brown, or yellowish colour, gener¬ally of small dimensions, with sharp or irregular edges, most of which, if excited with UV light, show fluorescence. Fluorescence is also often present in areas in which the alteration is not yet visible under natural light, but which is probably in for¬mation 1?9. Its formation mechanisms have been studied since 1935, however, despite more recent intensive research since the 1980s there are still no conclusive results. Some authors found evidence of bacterial and fungal stains in some foxed areas sometimes associated with the presence of iron. We decided to analyse some foxed stains present on naturally aged papers from the 16th to 18th centuries, trying to find a common trend for a better comprehension of the foxing phenomenon and also for finding restoring procedures and methods. We applied non-destructive techniques and, when it was possible, destructive techniques to carry out a more complete analyses. Some samples were treated with borane tert-butylamine complex, a reducing compound 10, to test its effectiveness in reducing oxidised functional groups present in the foxed areas.In the present work we will focus our attention on the XRF results obtained from ancient papers.

Published
2001

34. List of contributors

Author

Abraham, Gustavo A., Albu, Madalina Georgiana, Andronescu, Ecaterina, Ballarin, Florencia Montini, Bambole, Vaishali, Basmaji, Pierre, Bejenaru, Cornelia, Bejenaru, Ludovic Everard, Beresteanu, Şerban Vifor Gabriel, Caracciolo, Pablo C., Carrabba, Michele, Chifiriuc, Mariana Carmen, Cortez Tornello, Pablo R., Costa, Ligia Maria Manzine, Criscenti, Giuseppe, Curutiu, Carmen, Dahman, Yaser, Daltro, Gildásio de Cerqueira, Daltro, Paula Braga, De Acutis, Aurora, De Maria, Carmelo, Ditu, Lia-Mara, Eva, Filová, Eva, Prosecká, Ficai, Anton, Ficai, Denisa, Gainza, Garazi, Garcia-Orue, Itxaso, Ghaffari, Maryam, Ghalia, Mustafa Abu, Gholipourmalekabadi, Mazaher, Goldstein, Aaron S., Grigore, Raluca, Grumezescu, Alexandru Mihai, Guastaldi, Antonio Carlos, Hernandez, Rosa Maria, Holban, Alina Maria, Igartua, Manoli, Iordache, Carmen, Jajarmi, Vahid, Lazar, Veronica, Martin, Plencner, Meliţă, Daniela, Michaela, Rampichová, Miroslav, Holeček, Mogoantă, Laurenţiu, Mogoşanu, George Dan, Mozafari, Masoud, de Olyveira, Gabriel Molina, Patel, Satish, Pedraz, Jose Luis, Petra, Kochová, Popa, Marcela, Purcel, Gabriela, Rezvani, Zahra, Riccardi, Carla dos Santos, Santos, Márcio Luiz dos, Shirinzadeh, Haji, Singh, Deependra, Singh, Manju Rawat, Sonmez, Maria, Tereza, Kubíková, Thayer, Patrick S., Verma, Keshav Deo, Villullas, Silvia, Vozzi, Giovanni, Yakhmi, Jatinder Vir, and Zbyněk, Tonar

Published
2016
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37. List of Contributors

Author

Arai, Kenichi, Atala, Anthony, Bashir, Rashid, Beski, Danielle, Butcher, Jonathan T., Byun, Hyung-Gi, Carrow, James K., Catros, Sylvain, Cheung, Daniel Y.C., Cho, Dong-Woo, Dean, David, De Acutis, Aurora, De Maria, Carmelo, Duan, Bin, Dufour, Tom, Fisher, John P., Flanagan, Colleen L., Forgacs, Gabor, Fricain, Jean-Christophe, Gaharwar, Akhilesh K., Gelaude, Frederik, Green, Glenn E., Guillemot, Fabien, Hollister, Scott J., Hoying, James B., Huh, Jeung Soo, Ilankovan, Ashok, Iwanaga, Shintaroh, Jaiswal, Manish K., Jang, Jinah, Kang, Hyun-Wook, Kengla, Carlos, Kerativitayanan, Punyavee, Keriquel, Virginie, Kvasnytsia, Maryna, Labuz, Joseph M., Lai, Kuilin, Larsen, Michael, Lau, Hui Chong, Lawrenchuk, Mike, Lee, Jin Woo, Lee, Sang Jin, Leung, Brendan M., Lim, Grace J., Lokhande, Giriraj, Lukyanenko, Ihor, Marco, Julie, Marga, Francoise, Melchiorri, Anthony J., Merceron, Tyler K., Miller, Michael, Mir, Mariam, Mishra, Ruchi, Moraes, Christopher, Moroni, Lorenzo, Morrison, Robert J., Mota, Carlos, Murphy, Sean V., Nakamura, Makoto, Nasser, Hassan, Neumann, Lars, Nguyen, Anthony, Owens, Christopher, Pati, Falguni, Pentoney, Steve, Presnell, Sharon, Raman, Ritu, Roskos, Kristina, Sauvage, Emilie, Seol, Young-Joon, Skardal, Aleksander, Soares, Ana, Stuiver, Ingrid, Takayama, Shuichi, Vanderperren, Katrien, Vangeneugden, Dieter, Vozzi, Giovanni, Wheeler, Matthew B., Williams, Stuart K., Xu, Tao, Yoo, James J., and Zopf, David A.

Published
2015
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39. Lysyl-Oxidase Dependent Extracellular Matrix Stiffness in Hodgkin Lymphomas: Mechanical and Topographical Evidence.

Author

Alfano, Massimo, Locatelli, Irene, D'Arrigo, Cristina, Mora, Marco, Vozzi, Giovanni, De Acutis, Aurora, Pece, Roberta, Tavella, Sara, Costa, Delfina, Poggi, Alessandro, and Zocchi, Maria Raffaella

Subjects
HODGKIN'S disease, COLLAGEN, CANCER invasiveness, ELASTICITY, LYMPH nodes, ELECTRON microscopy, ANISOTROPY, FLUORIMETRY, EXTRACELLULAR space, OXIDOREDUCTASES, TISSUE scaffolds
Abstract

Simple Summary: Alterations of the composition and architecture of the extracellular matrix (ECM), leading to increased stiffness, is known to condition development, invasiveness and severity of neoplasms. In this study, we report increased lymph node (LN) stiffness in human lymphomas, measured by LN elastometry or by computerized imaging of bioptic specimens. Stiffness matched to lymphoma histotype and grading. The enzyme lysyl oxidase (LOX) is involved in the rise of collagen cross-linking in Hodgkin lymphomas, while altered architecture, shown by scanning electron microscopy and polarized light microscopy is involved in advanced follicular lymphomas. Based on these data, digital pathology may help in the staging of lymphomas, and lysyl oxidase may represent a target for therapy in Hodgkin lymphomas. Purpose: The biochemical composition and architecture of the extracellular matrix (ECM) is known to condition development and invasiveness of neoplasms. To clarify this point, we analyzed ECM stiffness, collagen cross-linking and anisotropy in lymph nodes (LN) of Hodgkin lymphomas (HL), follicular lymphomas (FL) and diffuse large B-cell lymphomas (DLBCL), compared with non-neoplastic LN (LDN). Methods and Results: We found increased elastic (Young's) modulus in HL and advanced FL (grade 3A) over LDN, FL grade 1–2 and DLBCL. Digital imaging evidenced larger stromal areas in HL, where increased collagen cross-linking was found; in turn, architectural modifications were documented in FL3A by scanning electron microscopy and enhanced anisotropy by polarized light microscopy. Interestingly, HL expressed high levels of lysyl oxidase (LOX), an enzyme responsible for collagen cross-linking. Using gelatin scaffolds fabricated with a low elastic modulus, comparable to that of non-neoplastic tissues, we demonstrated that HL LN-derived mesenchymal stromal cells and HL cells increased the Young's modulus of the extracellular microenvironment through the expression of LOX. Indeed, LOX inhibition by β-aminopropionitrile prevented the gelatin stiffness increase. Conclusions: These data indicate that different mechanical, topographical and/or architectural modifications of ECM are detectable in human lymphomas and are related to their histotype and grading. [ABSTRACT FROM AUTHOR]

Published
2022
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40. Characterization of Foxing Stains by Chemical and Spectrometric Methods.

Author

Bicchieri, Marina, Sementilli, Francesca Maria, De Acutis, Rodolfo, Pappalardo, Giuseppe, and Romano, Francesco Paolo

Subjects
PAPER deacidification, OXIDATION, SPECTRUM analysis
Abstract

Presents a study which examined foxing stains on six different papers from the 16th to the 18th centuries and fox-like stains produced by dripping different amount of solutions on modern paper. Details on the foxing process; Infrared radiation and chemical analysis of the papers; Link between the foxing phenomenon and strong oxidation of the cellulose chain.

Published
2001
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41. One-Pot Process: Microwave-Assisted Keratin Extraction and Direct Electrospinning to Obtain Keratin-Based Bioplastic.

Author

Pulidori, Elena, Micalizzi, Simone, Bramanti, Emilia, Bernazzani, Luca, Duce, Celia, De Maria, Carmelo, Montemurro, Francesca, Pelosi, Chiara, De Acutis, Aurora, Vozzi, Giovanni, and Tinè, Maria Rosaria

Subjects
KERATIN, DIFFERENTIAL scanning calorimetry, ELECTROSPINNING, PERMEABILITY measurement, PROTEIN structure, BIODEGRADABLE plastics
Abstract

Poultry feathers are among the most abundant and polluting keratin-rich waste biomasses. In this work, we developed a one-pot microwave-assisted process for eco-friendly keratin extraction from poultry feathers followed by a direct electrospinning (ES) of the raw extract, without further purification, to obtain keratin-based bioplastics. This microwave-assisted keratin extraction (MAE) was conducted in acetic acid 70% v/v. The effects of extraction time, solvent/feathers ratio, and heating mode (MAE vs. conventional heating) on the extraction yield were investigated. The highest keratin yield (26 ± 1% w/w with respect to initial feathers) was obtained after 5 h of MAE. Waste-derived keratin were blended with gelatin to fabricate keratin-based biodegradable and biocompatible bioplastics via ES, using 3-(Glycidyloxypropyl)trimethoxysilane (GPTMS) as a cross-linking agent. A full characterization of their thermal, mechanical, and barrier properties was performed by differential scanning calorimetry, thermogravimetric analysis, uniaxial tensile tests, and water permeability measurements. Their morphology and protein structure were investigated using scanning electron microscopy and attenuated total reflection-infrared spectroscopy. All these characterizations highlighted that the properties of the keratin-based bioplastics can be modulated by changing keratin and GPTMS concentrations. These bioplastics could be applied in areas such as bio-packaging and filtration/purification membranes. [ABSTRACT FROM AUTHOR]

Published
2021
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42. Biological Activity of Humulus lupulus (L.) Essential Oil and Its Main Components against Sitophilus granarius (L.).

Author

Paventi, Gianluca, de Acutis, Laura, De Cristofaro, Antonio, Pistillo, Marco, Germinara, Giacinto S., and Rotundo, Giuseppe

Subjects
*HOPS, *FUMIGANTS, *ESSENTIAL oils, *BIOACTIVE compounds, *PEST control, *BREWING industry
Abstract

Besides its use in the brewing industry, hop cones appear as a powerful source of biologically active compounds, already checked for their putative anticancer, antimicrobial, and other bioactivities. Conversely, hop use in pest control remains to date under-investigated. Therefore, the biological activity of hop essential oil (EO) and its main constituents was investigated here against Sitophilus granarius. Adult contact toxicity was found 24 h after treatment with hop EO (LD50/LD90 13.30/40.23 µg/adult), and its three most abundant components, α-humulene, β-myrcene, and β-caryophyllene (LD50/LD90 41.87/73.51, 75.91/126.05, and 138.51/241.27 µg/adult, respectively); negligible variations at 48 h, except for α-humulene (LD50/LD90 26.83/49.49 µg/adult), were found. The fumigant toxicity of the EO and terpenes was also checked: in the absence of wheat grains, β-myrcene showed the highest inhalation toxicity (LC50/LC90 72.78/116.92 mg/L air), whereas α-humulene, β-caryophyllene, and the EO induced similar values (LC50/LC90 about 130/200 mg/L air); with the exception for EO, the wheat presence increased (30–50%) LC50/LC90 values. Moreover, EO and terpenes were perceived by insect antennae and elicited repellent activity. Only β-caryophyllene showed an anticholinesterase effect, this suggesting that different mechanisms of action should be responsible for hop EO toxicity. Therefore, hop EO appears suitable for developing control means against this pest. [ABSTRACT FROM AUTHOR]

Published
2020
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44. Pectin-Based Scaffolds for Tissue Engineering Applications

Author

Vozzi, Giovanni, De Acutis, Aurora, De Maria, Carmelo, and Lapomarda, Anna

Subjects
Technology & Engineering / Agriculture
Abstract

Tissue engineering (TE) is an interdisciplinary field that was introduced from the necessity of finding alternative approaches to transplantation for the treatment of damaged and diseased organs or tissues. Unlike the conventional procedures, TE aims at inducing the regeneration of injured tissues through the implantation of customized and functional engineered tissues, built on the so-called ‘scaffolds’. These provide structural support to cells and regulate the process of new tissue formation. The properties of the scaffold are essentials, and they can be controlled by varying the biomaterial formulation and the fabrication technology used to its production. Pectin is emerging as an alternative biomaterial to non-degradable and high-cost petroleum-based biopolymers commonly used in this field. It shows several promising properties including biocompatibility, biodegradability, non-toxicity and gelling capability. Pectin-based formulations can be processed through different fabrication approaches into bidimensional and three-dimensional scaffolds. This chapter aims at highlighting the potentiality in using pectin as biomaterial in the field of tissue engineering. The most representative applications of pectin in preparing scaffolds for wound healing and tissue regeneration are discussed.

Published
2019

45. Pectin-GPTMS-Based Biomaterial: toward a Sustainable Bioprinting of 3D scaffolds for Tissue Engineering Application.

Author

Lapomarda A, De Acutis A, Chiesa I, Fortunato GM, Montemurro F, De Maria C, Mattioli Belmonte M, Gottardi R, and Vozzi G

Subjects
Biocompatible Materials chemistry, Cells, Cultured, Cross-Linking Reagents chemistry, Ear, Freeze Drying, Humans, Materials Testing, Mesenchymal Stem Cells cytology, Nose, Porosity, Rheology, Tissue Engineering methods, Water chemistry, Bioprinting methods, Epoxy Compounds chemistry, Pectins chemistry, Silanes chemistry, Tissue Scaffolds chemistry
Abstract

Developing green and nontoxic biomaterials, derived from renewable sources and processable through 3D bioprinting technologies, is an emerging challenge of sustainable tissue engineering. Here, pectin from citrus peels was cross-linked for the first time with (3-glycidyloxypropyl)trimethoxysilane (GPTMS) through a one-pot procedure. Freeze-dried porous pectin sponges, with tunable properties in terms of porosity, water uptake, and compressive modulus, were obtained by controlling GPTMS content. Cell experiments showed that GPTMS did not affect the cytocompatibility of pectin. The addition of GPTMS improved the printability of pectin due to an increase of viscosity and yield stress. Three-dimensional woodpile and complex anatomical-shaped scaffolds with interconnected micro- and macropores were, therefore, bioprinted without the use of any additional support material. These results show the great potential of using pectin cross-linked with GPTMS as biomaterial ink to fabricate patient-specific scaffolds, which could be used to promote tissue regeneration in vivo.

Published
2020
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46. Buckwheat Hull Extracts Inhibit Aspergillus flavus Growth and AFB 1 Biosynthesis.

Author

Nobili C, De Acutis A, Reverberi M, Bello C, Leone GP, Palumbo D, Natella F, Procacci S, Zjalic S, and Brunori A

Abstract

Fungal contamination poses at risk the whole food production chain - from farm to fork - with potential negative impact on human health. So far, the insurgence of pathogens has been restrained by the use of chemical compounds, whose residues have gradually accumulated determining toxic effects in the environment. Modern innovative techniques imply the use of natural and eco-sustainable bioactive plant molecules as pathogens and pests-control agents. These may be profitably recovered in large amounts at the end of industrial milling processes. This is the case of the non-digestible hull of common buckwheat ( Fagopyrum esculentum Moench), a natural source of polyphenols, tocopherols, phytosterols and fatty acids. We extract these compounds from the hull of buckwheat; apply them to Aspergillus flavus - aflatoxin producer - under in vitro conditions, checking their ability to inhibit fungal growth and aflatoxin biosynthesis. Moreover, a solvent free method implying the adoption of supercritical CO 2 as solvent was set up to extract lipophilic molecules from the buckwheat' hulls. Positive results in controlling fungal growth and aflatoxin biosynthesis let infer that the extracts could be further tested also under in vivo conditions.

Published
2019
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47. Electrospun Structures Made of a Hydrolyzed Keratin-Based Biomaterial for Development of in vitro Tissue Models.

Author

Fortunato GM, Da Ros F, Bisconti S, De Acutis A, Biagini F, Lapomarda A, Magliaro C, De Maria C, Montemurro F, Bizzotto D, Braghetta P, and Vozzi G

Abstract

The aim of this study is the analysis and characterization of a hydrolyzed keratin-based biomaterial and its processing using electrospinning technology to develop in vitro tissue models. This biomaterial, extracted from poultry feathers, was mixed with type A porcine gelatin and cross-linked with γ-glycidyloxy-propyl-trimethoxy-silane (GPTMS) to be casted initially in the form of film and characterized in terms of swelling, contact angle, mechanical properties, and surface charge density. After these chemical-physical characterizations, electrospun nanofibers structures were manufactured and their mechanical properties were evaluated. Finally, cell response was analyzed by testing the efficacy of keratin-based structures in sustaining cell vitality and proliferation over 4 days of human epithelial, rat neuronal and human primary skin fibroblast cells.

Published
2019
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48. A new path to platelet production through matrix sensing.

Author

Abbonante V, Di Buduo CA, Gruppi C, De Maria C, Spedden E, De Acutis A, Staii C, Raspanti M, Vozzi G, Kaplan DL, Moccia F, Ravid K, and Balduini A

Subjects
Animals, Calcium metabolism, Cell Adhesion, Cell Differentiation, Collagen Type I metabolism, Collagen Type IV metabolism, Hematopoietic Stem Cells cytology, Hematopoietic Stem Cells metabolism, Humans, Integrin beta1 metabolism, Mice, Phosphatidylinositol 3-Kinases metabolism, Protein Transport, Protein-Lysine 6-Oxidase metabolism, Proto-Oncogene Proteins c-akt metabolism, TRPV Cation Channels metabolism, Blood Platelets cytology, Blood Platelets metabolism, Megakaryocytes cytology, Megakaryocytes metabolism, Thrombopoiesis
Abstract

Megakaryocytes (MK) in the bone marrow (BM) are immersed in a network of extracellular matrix components that regulates platelet release into the circulation. Combining biological and bioengineering approaches, we found that the activation of transient receptor potential cation channel subfamily V member 4 (TRPV4), a mechano-sensitive ion channel, is induced upon MK adhesion on softer matrices. This response promoted platelet production by triggering a cascade of events that lead to calcium influx, β1 integrin activation and internalization, and Akt phosphorylation, responses not found on stiffer matrices. Lysyl oxidase (LOX) is a physiological modulator of BM matrix stiffness via collagen crosslinking. In vivo inhibition of LOX and consequent matrix softening lead to TRPV4 activation cascade and increased platelet levels. At the same time, in vitro proplatelet formation was reduced on a recombinant enzyme-mediated stiffer collagen. These results suggest a novel mechanism by which MKs, through TRPV4, sense extracellular matrix environmental rigidity and release platelets accordingly., (Copyright© 2017 Ferrata Storti Foundation.)

Published
2017
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