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5. Emerging micropollutants and microplastics in water cycle: a focus on the state of knowledge in Lombardy

Author

Tartari, G., Bergna, G., Antonelli, M., Azzellino, A., Bernardi, M, Bernasconi, M., Bertanza, G., Binelli, A., Brioschi, C., Castiglioni, S., Davoli, E., Della Torre, C., Depero, L. E., Di Guardo, A., Federici, S., Galafassi, S., Gugliandolo, M. C., Iacone, V., Lietti, M., Malacrida, C., Malpei, F., Marchesi, V., Mezzanotte, V., Mossotti, R., Pannuzzo, B., Parini, M., Pedrazzani, R., Polesello, S., Sala, A., Tani, S., and Volta, P.

Subjects
microplastics, Lombardy, freshwaters, methodology, emerging micropollutants, microplastics, freshwaters, methodology, Lombardy, emerging micropollutants
Published
2021

6. Banning Microplastics in Cosmetic Products in Europe: Legal Challenges

Author

Kentin, E., Cocca, M., Di, Pace E., Errico, M.E., Gentile, G., Montarsolo, A., Mossotti, R., Cocca, M., Di, Pace E., Errico, M.E., Gentile, G., Montarsolo, A., and Mossotti, R.

Subjects
0106 biological sciences, Microplastics, 010505 oceanography, Environmental protection, 010604 marine biology & hydrobiology, media_common.quotation_subject, Business, Plastic, 01 natural sciences, Cosmetics, 0105 earth and related environmental sciences, media_common
Abstract

The sources of microplastics in the oceans—and in the Mediterranean Sea—are multiple. One of the sources are microplastics that are added to cosmetic products. Several states have adopted national bans on microplastics in rinseoff products. Before EU regulation might accomodate a ban on microplastics in cosmetics, the REACH Regulation has to be amended to include the registration, evaluation and, if necessary, restrict the use of polymers as chemical substance in certain products. Informing consumers about microplastics in cosmetic products, for example by labelling, remains essential as long as there is no ban on microplastics.

Published
2018

7. Superheated water hydrolysed keratin: a new application in dyeing of fabrics

Author

Zoccola M., Bhavsar P.S., Patrucco A., Montarsolo A., Mossotti R., Pozzo P.D., and Tonin,C.

Subjects
protein hydrolysates, wool, superheated water, dyeing
Abstract

A large amount of wool produced in the European region is coarse and of low quality. The limited or nonutilization of such coarse wool leads to landfilling causing environmental pollution. The chemical transformation of wool carried out was based on a green economically sustainable hydrolysis treatment using superheated water. The hydrolyzed product was analyzed using amino acid analysis and molecular weight distribution. Both the amino acid and molecular weight distribution analysis revealed that the wool was completely degraded and the hydrolyzed product contains a low molecular weight proteins and amino acids. Then, we studied the properties of this keratin hydrolyzate, to be used as a foaming agent in foam dyeing of cotton and wool fabrics. We report the use of keratin hydrolyzate as a foaming auxiliary in the textile dyeing process. The surface tension, foam stability, blow ratio, and bubble size of keratin hydrolyzate in aqueous solutions with and without dyeing auxiliaries were determined. The dyeing influential parameter such as wet pickup was studied to identify their effect on dye fixation and color strength. The foam dyeing was compared with conventional cold-pad batch and pad-steam processes for cotton and wool, respectively. In the investigated variant, keratin hydrolyzate shows a reduction in surface tension, good foam stability along with dyeing auxiliaries, a blow ratio of about 10:1, and 0.02-0.1 mm diameter bubble sizes. These results make possible its application as a foaming agent. Cotton and wool fabrics were dyed using reactive and acid dyes respectively, on a horizontal padding mangle. In both cases, hydrolyzed keratin acts as a carrier for dye molecules and the mechanism of dyeing depends on the respective pH of the dye solution, keratin, and fiber. Foam dyeing of cotton resulted in comparable color strength, while wool shows higher color strength when compared with conventional dyeing processes. Washing and rubbing fastness of cotton and wool foam dyed fabrics are similar to the respective conventional dyed fabrics. The combinations of sustainable keratin hydrolyzate production and its use as an eco-friendly, biodegradable foaming agent in less add on foam dyeing technology resulted not only in saving of large amounts of water and energy but also will be helpful in minimizing a load on effluent and the environment. A new approach of coloration of wool was also tried using wool hydrolysate as a color in a dying bath and different shades were obtained using mordants.

Published
2019

9. Microplastics from synthetic clothes: environmental impact and mitigation strategies

Author

Cocca M., De Falco F., Gullo M. P, Gentile G., Di Pace E., Gelabert L., Brouta-Agnésa M., Rovira A., Escudero R., Villalba R., Mossotti R., Montarsolo A., Gavignano S., and Tonin C. And Avella M.

Subjects
synthetic fabric, textile washing process, Microplastic, finishing treatment
Abstract

Microplastics represent a new and very alarming source of pollution for marine environment. Classified as plastic fragments smaller than 5 mm, they mainly derive from the deterioration of scraps of large dimensions, from abrasives or from cosmetics. However, in 2011, another source was identified in the domestic and industrial washing processes of synthetic clothes. The real impact of this newly discovered source of microplastics is not clear yet, so quantitative investigations are highly necessary. For this purpose, the present work aims to assess the role of domestic and industrial washing processes of synthetic clothes, on the release of microfibres. Firstly, standard fabrics were washed simulating both industrial and domestic washing processes, using different detergents and washing conditions. The washing liquor was then filtered and the filters were observed by scanning electron microscopy (SEM). A specific counting method was set up to evaluate the amount of microfibres contained in each filter. Secondly, several finishing treatments were applied on the fabrics to prevent or reduce the amount of microplastics released during the washing process. The obtained results identified the best detergents, washing conditions and treatments to use in order to mitigate the impact of such source of pollutants.

Published
2017

10. Hemp Nanofibrils Reinforced Polycaprolactone Composites

Author

Montarsolo A., Mossotti R., Marques M.F.V., Aguiar V., Crociani L., Avella M., Simionati M., Gavignano S., Patrucco A., Zoccola M., and Tonin C.

Subjects
Sol-gel Treatment, Cellulose Fibrils, Biocomposites, macromolecular substances
Abstract

Cellulose micro and nanofibrils were prepared from hemp fibers by means of a chemical/mechanical treatment and ultrasonication in water suspension. A sol-gel treatment with dimethyldiethoxysilane (MSDS) or titanium (IV) isopropoxide as precursors was developed to avoid the issue of the irreversible aggregation of the fibrils after drying (process known as "hornification"), which results in a material that is not suitable for composite applications. Polycaprolactone composites with 5% dried fibrils were compounded using a Mini extruder. The composites reinforced with cellulose fibrils showed an increase of the storage modulus (stiffness of the composite). Loss modulus (E'') also increased substantially with the addition of hemp fibrils. The reaction of silane on the surface of hemp fibrils prevented hornification in some extent, allowing an effective distribution of the cellulose fibrils in the polymer matrix

Published
2016

11. Electrically conducting linen fabrics for technical applications.

Author

Caringella, R., Patrucco, A., Simionati, M., Gavignano, S., Montarsolo, A., Mossotti, R., Zoccola, M., Tonin, C., Fabris, R., and Floria, L.

Subjects
LINEN, ELECTRIC conductivity, TENSILE strength, POLYPYRROLE, POLYMERIZATION, SCANNING electron microscopy
Abstract

Conducting linen fabrics were prepared by the in situ oxidative polymerization of pyrrole using ferric chloride as the oxidant and anthraquinone-2,6-disulfonic acid disodium salt as the dopant to enhance conductivity. The effect of the pyrrole concentration on the final performance and properties of the conducting fabrics was evaluated. Scanning electron microscopy and light microscopy showed a polypyrrole layer deposited on the fiber surface associated with penetration into the bulk fiber at the highest concentrations of pyrrole. Saturation of the amorphous domains of the cellulose structure and coating of the fiber surface resulted in good electrical properties, heat development by the Joule effect and reduced moisture adsorption. The mechanical properties and electrical conductivity of the fabrics were affected by the strong acid conditions of the treatment, but significant electrical properties were achieved while preserving up to 70% of the original tensile strength. [ABSTRACT FROM AUTHOR]

Published
2018
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24. The degumming of silk fabrics: a preliminary near infrared study

Author

Mossotti R., Innocenti R., Zoccola M., Anghileri A., and Freddi G.

Subjects
sericine, fabric, silk, NIR, degumming
Abstract

The silk filament spun by the silkworm (Bombyx mori) is composed of two fibroin filaments held together by a cementing layer of sericin. Fibroin and sericin account for about 75 w% and 25 w% of the raw silk, respectively. The degumming process involves removing the sericin layer prior to dyeing. Generally, it makes use of a solution containing soap, synthetic detergents or proteolytic enzymes. A set of 50 protease degummed silk fabrics (crepe) with different weight losses were analysed by means of near infrared (NIR) spectroscopy. A correlation between degumming loss (SE=0.312%) and NIR spectra was obtained using the principal component regression (PCR) algorithm. The correlation obtained had a coefficient of determination (RI) of 0.97 and a standard error of calibration (SEC) of 1.6% for a mean value of 14.6%. In the second part of the study, NIR spectroscopy was used to determine the concentration of sericin in solution. A set of sericin aqueous solutions ranging from 20 g L-1 to 200 g L-1 was prepared and the spectra were acquired in transilectance mode between 10000-3700 cm(-1) and correlated with corresponding sericin concentration values. The correlation obtained between specified sericin concentration values and values estimated by NIR spectra had the statistics R-2 of 0.99 and SEC of 4.9 g L-1 for an average sericin concentration of 103.8 g L-1. The assignment of characteristic NIR spectral bands of sericin and fibroin was made.

Published
2006

25. Enhanced adhesion of conductive coating on plasma-treated polyester fabric: A study on the ageing effect.

Author

Montarsolo, A., Varesano, A., Mossotti, R., Rombaldoni, F., Periolatto, M., Mazzuchetti, G., and Tonin, C.

Subjects
ADHESION, ELECTRIC conductivity, SURFACE coatings, PLASMA gases, POLYESTER fibers, CONDUCTING polymers, SURFACE chemistry, SURFACE roughness
Abstract

In recent years, there has been growing attention on intrinsically conducting polymers, such as polypyrrole (PPy) because of the wide range of possible applications. Adhesion to other materials is a pending problem that could be tackled by enhancing the chemical affinity of the surface toward PPy coating. In this work, low-temperature plasma pretreatments were used for improving adhesion of PPy on polyester (PET) fabrics by changing the surface chemistry and generating a microscopically rough surface. Oxygen and argon plasmas were used to treat both sides of PET fabrics before PPy deposition by in situ chemical polymerization. Moreover, PPy depositions were performed 1 h, 1 week, and 1 month after the plasma treatments to study possible ageing effects. Different chemical/physical characterizations (contact angle, surface energy, atomic force microscopy, and X-ray photoelectron spectroscopy) showed the efficacy of plasma pretreatments in inducing wettability on PET fabrics and promoting adhesion of the PPy layer. The enhanced adhesion was confirmed by abrasion tests and subsequent surface resistivity and color measurements. © 2012 Wiley Periodicals, Inc. J Appl Polym Sci, 2012 [ABSTRACT FROM AUTHOR]

Published
2012
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26. Comparison of risk patterns in carcinoma and melanoma of the skin in men: a multi-centre case-case-control study.

Author

Zanetti, R., Rosso, S., Martinez, C., Nieto, A., Miranda, A., Mercier, M., Loria, D. I., Østerlind, A., Greinert, R., Navarro, C., Fabbrocini, G., Barbera, C., Sancho-Garnier, H., Gafà, L., Chiarugi, A., Mossotti, R., Østerlind, A, and Gafà, L

Subjects
CANCER risk factors, BASAL cell carcinoma, SQUAMOUS cell carcinoma, SKIN cancer, MELANOMA, DISEASES in men, RESEARCH, NEVUS, RESEARCH methodology, CASE-control method, EVALUATION research, SKIN tumors, SEX distribution, COMPARATIVE studies, HAIR, EYE color
Abstract

We directly compared risk factors between 214 histologically confirmed melanomas (CMM), 215 basal-cell carcinomas (BCC) and 139 squamous-cell carcinomas (SCC) in a multiple case-case-control study with 349 controls from patients without dermatological disease admitted to the same hospitals. Subjects with fair hair had a significant risk increase for all types of tumours at a comparable level (OR(adj) for blonde hair: CMM 2.3; SCC 2.4; BCC 2.3). The effect of pale eyes was significant and similar for CMM and BCC (OR(adj) 2.6). Intermittent sun exposure measured in hours spent at beach during holidays was significant for both CMM (OR(adj) 2.6 for more than 7000 lifelong hours) and BCC (OR(adj) 2.1 for more than 7000 lifelong hours), while SCC exhibited a significant risk increase for chronic exposure to sunlight measured in hours of outdoor work (OR(adj) 2.2 for more than 6000 lifelong hours). In the case-case comparison using a multinomial logistic regression model, we found a statistically significant risk difference for pale eyes, and number of naevi in the CMM group, compared to other skin cancers. For intermittent sun exposure, there was a significant risk difference of BCC when compared to the risk of SCC. Factors influencing risk of SCC are different, with chronic exposure to sun playing a major role in causing this type of carcinoma. [ABSTRACT FROM AUTHOR]

Published
2006
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27. Insights on Ecotoxicological Effects of Microplastics in Marine Ecosystems: The EPHEMARE Project

Author

Thomas Braunbeck, Marina Albentosa, Xavier Cousin, Annika Batel, Alexandre Pacheco, Juan Bellas, Ronny Blust, Raewyn M. Town, Steffen Keiter, Chiara Gambardella, Jérôme Cachot, Marie-Laure Bégout, Lucia Pittura, Marco Faimali, Kathrin Kopke, Francesco Regoli, Maria João Bebianno, Alberto Cuesta, Lúcia Guilhermino, Bénédicte Morin, Stefania Gorbi, María Ángeles Esteban, Ricardo Beiras, Francesca Garaventa, Bettie Cormier, Ketil Hylland, Camilla Catarci Carteny, Luis R. Vieira, Carlo Giacomo Avio, Agathe Bour, Polytechnic University of Marche, Spanish Oceanographic Institute, Universität Heidelberg [Heidelberg], Universidade do Algarve (UAlg), Université de Montpellier (UM), Centre National de la Recherche Scientifique (CNRS), Institut de Recherche pour le Développement (IRD), Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER), University of Vigo [ Pontevedra], Universiteit Antwerpen [Antwerpen], University of Gothenburg (GU), UMR 5805 Environnements et Paléoenvironnements Océaniques et Continentaux (EPOC), Observatoire aquitain des sciences de l'univers (OASU), Université Sciences et Technologies - Bordeaux 1-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université Sciences et Technologies - Bordeaux 1-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS), Örebro University, Génétique Animale et Biologie Intégrative (GABI), Université Paris-Saclay-AgroParisTech-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), University of Murcia, Institute for the Study of the Anthropic Impacts and the Sustainability in the Marine Environment (IAS), Consiglio Nazionale delle Ricerche (CNR), Interdisciplinary Centre of Marine and Environmental Research [Matosinhos, Portugal] (CIIMAR), Universidade do Porto, University of Oslo (UiO), University College Cork (UCC), ANR-15-JOCE-0002,EPHEMARE,Ecotoxicological effects of microplastics in marine ecosystems(2015), Cocca, M. (Maria Cristina), Di Pace, E., Errico, M.E. (Maria Emanuela), Gentile, G. (Gennaro), Montarsolo, A., Mossotti, R. (Raffaella), Avella, M., Cocca, M, DiPace, E., Errico, M. E., Gentile, G, and Mossotti, R.

Subjects
Microplastics, Work package, Medio Marino y Protección Ambiental, 010501 environmental sciences, Ecotoxicological, 01 natural sciences, 03 medical and health sciences, Marine ecosystem, 14. Life underwater, Centro Oceanográfico de Murcia, Biology, 030304 developmental biology, 0105 earth and related environmental sciences, Trophic level, 0303 health sciences, Marine Ecosystems, Ecology, Pharmacology. Therapy, Environmental Sciences & Ecology, Public, Environmental & Occupational Health, Toxicology, Joint action, Chemistry, 13. Climate action, Environmental science, Human medicine, [SDV.TOX.ECO]Life Sciences [q-bio]/Toxicology/Ecotoxicology
Abstract

International audience; The Ephemare project was supported in the period 2015–2018 by JPI Oceans, as one of 4 sister projects in the joint action on ecological aspects of microplastics. Ephemare investigated several issues concerning the ecotoxicological effects of microplastics (MPs) in marine organisms. Ephemare included 16 European Institutions from 10 Countries and was organized into seven, highly complementary Work Packages (WPs) with the aim to elucidate adsorption and release of chemicals to/from MPs, coupled with MP ingestion rates, translocation in different tissues, trophic transfer and egestion, potential toxicological effects and mechanisms of action, as well as real distributions of MPs in marine organisms from several European areas.

Published
2019

28. Wool fibril sponges with perspective biomedical applications.

Author

Patrucco, A., Cristofaro, F., Simionati, M., Zoccola, M., Bruni, G., Fassina, L., Visai, L., Magenes, G., Mossotti, R., Montarsolo, A., and Tonin, C.

Subjects
*WOOL, *KERATIN, *ULTRASONIC imaging, *BIOLOGICAL assay, *MEDICAL research
Abstract

Sheep's wool was used as a natural source to prepare keratin microfibril sponges for scaffolding, by disruption of the histological structure of the fibres through mild alkali treatment, followed by ultrasonication, casting and salt-leaching. The wool sponges showed highly interconnected porosity (93%) and contain intrinsic sites of cellular recognition that mimic the extracellular matrix (ECM). They displayed good thermal and water stability due to the conversion of disulphide cystine bonds into shorter monosulphide lanthionine intermolecular bonds, but significantly swelled in water, because of the high hydrophilicity and porosity, with a volume increasing up to 38%. Nevertheless, sponges were stable in water without structural changes, with a neutral pH in aqueous media, and showed excellent resilience to repeated compression stresses. According to in vitro biocompatibility assays, wool fibril sponges showed a good cell adhesion and proliferation as proved by MTT, FDA assays and SEM observations. The unique structure of the cortical cell network made by wool keratin proteins with controlled-size macro-porosity suitable for cell guesting, and nutrient feeding, provides an excellent scaffold for future tissue engineering applications. [ABSTRACT FROM AUTHOR]

Published
2016
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29. Challenging the Microplastic Extraction from Sandy Sediments

Author

Guy César, Mikaël Kedzierski, Patrick Bourseau, Olivier Sire, Stéphane Bruzaud, Véronique Le Tilly, Hervé Bellegou, Institut de Recherche Dupuy de Lôme (IRDL), Université de Bretagne Sud (UBS)-Université de Brest (UBO)-École Nationale Supérieure de Techniques Avancées Bretagne (ENSTA Bretagne)-Centre National de la Recherche Scientifique (CNRS), Cocca, M, DiPace, E, Errico, ME, Gentile, G, Montarsolo, A, and Mossotti, R

Subjects
Pollution, Microplastics, 010504 meteorology & atmospheric sciences, media_common.quotation_subject, Extraction (chemistry), [CHIM.MATE]Chemical Sciences/Material chemistry, 010501 environmental sciences, 01 natural sciences, 13. Climate action, Environmental chemistry, Environmental science, [CHIM]Chemical Sciences, 14. Life underwater, ComputingMilieux_MISCELLANEOUS, 0105 earth and related environmental sciences, media_common
Abstract

As plastic particles are one of the most commonly waste found on beaches [1], this pollution requires the use of innovative extraction methodologies especially for smallest size ranges of plastic particles, as microplastics.

Published
2017

30. Intelligent polarization-sensitive holographic flow-cytometer: Towards specificity in classifying natural and microplastic fibers.

Author

Valentino M, Bĕhal J, Bianco V, Itri S, Mossotti R, Fontana GD, Battistini T, Stella E, Miccio L, and Ferraro P

Subjects
Ecosystem, Environmental Monitoring, Microplastics, Plastics, Wastewater, Holography, Water Pollutants, Chemical analysis
Abstract

Micron size fiber fragments (MFFs), both natural and synthetic, are ubiquitous in our life, especially in textile clothes, being necessary in modern society. In the Earth's aquatic ecosystem, microplastic fibers account for ~91% of microplastic pollution, thus deserving notable attention as one of the most alarming ecological problems. Accurate automatic identification of MFFs discharges in specific upstream locations is highly demanded. Computational microscopy based on Digital Holography (DH) and machine learning has been demonstrated to identify microplastics in respect to microalgae. However, DH is a non-specific optical tool, meaning it cannot distinguish different types of plastic materials. On the other hand, materials-specific assessments are pivotal to establish the environmental impact of different textile products and production processes. Spectroscopic assays can be employed to identify microplastics for their intrinsic specificity, although they are generally low-throughput and require large concentrations to enable effective measurements. Conversely, MFFs are usually finely dispersed within a water sample. Here we rely on a polarization-resolved holographic flow cytometer in a Lab-on-Chip (LoC) platform for analysing MFFs. We demonstrate that two important objectives can be achieved, i.e. adding material specificity through polarization analysis while operating in a microfluidic stream modality. Through a machine learning numerical pipeline, natural fibers (i.e. cotton and wool) can be clearly separated from synthetic microfilaments, namely PA6, PA6.6, PET, PP. Moreover, the proposed system can accurately distinguish between different polymers under investigation, thus fulfilling the specificity goal. We extract and select different features from amplitude, phase and birefringence maps retrieved from the digital holograms. These are shown to typify MFFs without the need for sample pre-treatment or large concentrations. The simplicity of the DH method for identifying MFFs in LoC-based flow cytometers could promote the use of polarization resolved field-portable analysis systems suitable for studying pollution caused by washing processes of synthetic textiles., 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 © 2022 Elsevier B.V. All rights reserved.)

Published
2022
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31. Contribution of microplastic particles to the spread of resistances and pathogenic bacteria in treated wastewaters.

Author

Galafassi S, Sabatino R, Sathicq MB, Eckert EM, Fontaneto D, Dalla Fontana G, Mossotti R, Corno G, Volta P, and Di Cesare A

Subjects
Anti-Bacterial Agents, Bacteria genetics, Ecosystem, Genes, Bacterial, Plastics, RNA, Ribosomal, 16S genetics, Microplastics, Wastewater
Abstract

Microplastic Particles (MPs) are ubiquitous pollutants widely found in aquatic ecosystems. Although MPs are mostly retained in wastewater treatment plants (WWTPs), a high number of MPs reaches the open waters potentially contributing to the spread of pathogenic bacteria and antibiotic resistance genes in the environment. Nowadays, a limited number of studies have focused on the role of MPs as carriers of potentially pathogenic and antibiotic resistant bacteria in WWTPs. Thus, an investigation on the community composition (by 16S rRNA gene amplicon sequencing) and the abundance of antibiotic and metal resistance genes (by qPCR) of the biofilm on MPs (the plastisphere) and of planktonic bacteria in treated (pre- and post-disinfection) wastewaters was performed. MPs resulted to be very similar in terms of type, color, size, and chemical composition, before and after the disinfection. The bacterial community on MPs differed from the planktonic community in terms of richness, composition, and structure of the community network. Potentially pathogenic bacteria generally showed higher abundances in treated wastewater than in the biofilm on MPs. Furthermore, among the tested resistance genes, only sul2 (a common resistance gene against sulfonamides) resulted to be more abundant in the plastisphere than in the planktonic bacterial community. Our results suggest that the wastewater plastisphere could promote the spread of pathogenic bacteria and resistance genes in aquatic environment although with a relatively lower contribution than the wastewater planktonic bacterial community., (Copyright © 2021. Published by Elsevier Ltd.)

Published
2021
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32. Preparation and analysis of standards containing microfilaments/microplastic with fibre shape.

Author

Mossotti R, Dalla Fontana G, Anceschi A, Gasparin E, and Battistini T

Subjects
Actin Cytoskeleton chemistry, Environmental Monitoring, Plastics, Reference Standards, Microplastics, Water Pollutants, Chemical analysis
Abstract

Synthetic clothing represents a primary source of environmental pollution because of shedding of microfilaments during laundry washing or in textile processes. Although many approaches can be used for the evaluation of microplastic, there are no precise guideline to follow for the analysis labs. Here, an accurate method for the preparation of microfilaments standard suspensions to facilitate lab tests and the monitoring of microplastic in different matrices was developed. Different standard suspensions were prepared by using five different synthetic threads consisting of a different number of filaments cut with a predetermined length of 0.2 mm suspended in three different volumes of water. The suspensions were filtered and the microfilaments were counted. The number of microfilaments for each polymer solution were statistically elaborated with a logit model and the results showed that the probability of detecting them is higher than 95% when the concentration of microfilaments/L is lower than 200. Moreover, a relationship between the theoretical microfilaments contained in the samples and the detection probability of the single microfilament, for each suspension volume was highlighted., 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 © 2020 Elsevier Ltd. All rights reserved.)

Published
2021
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33. Assessment of microplastics release from polyester fabrics: The impact of different washing conditions.

Author

Dalla Fontana G, Mossotti R, and Montarsolo A

Subjects
Ecosystem, Microplastics, Polyesters, Reproducibility of Results, Textiles, Laundering, Plastics
Abstract

Synthetic fibers account for approximately 60% of the total global fiber production, and polyester (PET) and polyamide (PA) dominate. Synthetic fabrics are now widely used in clothing, upholstery, carpets and other such materials. Textiles based on these materials have the potential to release microplastics (<5 mm in size) into the environment during production and cleaning actions. These particles are released in sewage effluents, as washing machine filters and wastewater treatment plants are not specifically designed to retain them and represent an environmental pollution that continuously increases the scientific and societal concern about their effects on marine biota and ecosystems. This study was focused on the determination of the amount of microfibers release from 100% polyester fabrics, in different washing conditions (programs and temperatures), comparing the use of detergent alone vs detergent with a stain remover. Microplastics released were characterized and quantified with gravimetric analysis, different microscopic, spectroscopic and thermal techniques. Tests were carried out in replicates to assess the data reproducibility and to show statistical differences between washing conditions., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published
2020
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34. Influence of process parameters on microcapsule formation from chitosan-Type B gelatin complex coacervates.

Author

Roy JC, Giraud S, Ferri A, Mossotti R, Guan J, and Salaün F

Abstract

A series of chitosan/gelatin based microcapsules containing n-hexadecane was synthesized through complex phase coacervation from chitosan (CH) and type-B gelatin (GB), and crosslinked by glutaraldehyde (GTA). This research was conducted to clarify the influence of different parameters on the encapsulation process, i.e., the emulsion formation and the shell formation, using zeta potential and surface tension measurements, attenuated total reflectance (ATR), and thermal analysis such as differential scanning calorimetry (DSC). The optimal values of biopolymer ratios (TBP), crosslinker amount, emulsion time and feeding weight ratio of core/shell polymer (RCS) were identified. The stability of the emulsion was depended on the surface activity and TBP ratio, which also affected the droplet size distribution and the thickness of the shell. Furthermore, core content, encapsulation efficiency and thermal properties of the microcapsules were related to TBP and RCS; with the lowest RCS giving the best microcapsules features., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published
2018
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35. Evaluation of microplastic release caused by textile washing processes of synthetic fabrics.

Author

De Falco F, Gullo MP, Gentile G, Di Pace E, Cocca M, Gelabert L, Brouta-Agnésa M, Rovira A, Escudero R, Villalba R, Mossotti R, Montarsolo A, Gavignano S, Tonin C, and Avella M

Subjects
Particle Size, Polyesters chemistry, Wastewater chemistry, Laundering, Plastics analysis, Textiles, Water Pollutants, Chemical analysis
Abstract

A new and more alarming source of marine contamination has been recently identified in micro and nanosized plastic fragments. Microplastics are difficult to see with the naked eye and to biodegrade in marine environment, representing a problem since they can be ingested by plankton or other marine organisms, potentially entering the food web. An important source of microplastics appears to be through sewage contaminated by synthetic fibres from washing clothes. Since this phenomenon still lacks of a comprehensive analysis, the objective of this contribution was to investigate the role of washing processes of synthetic textiles on microplastic release. In particular, an analytical protocol was set up, based on the filtration of the washing water of synthetic fabrics and on the analysis of the filters by scanning electron microscopy. The quantification of the microfibre shedding from three different synthetic fabric types, woven polyester, knitted polyester, and woven polypropylene, during washing trials simulating domestic conditions, was achieved and statistically analysed. The highest release of microplastics was recorded for the wash of woven polyester and this phenomenon was correlated to the fabric characteristics. Moreover, the extent of microfibre release from woven polyester fabrics due to different detergents, washing parameters and industrial washes was evaluated. The number of microfibres released from a typical 5 kg wash load of polyester fabrics was estimated to be over 6,000,000 depending on the type of detergent used. The usage of a softener during washes reduces the number of microfibres released of more than 35%. The amount and size of the released microfibres confirm that they could not be totally retained by wastewater treatments plants, and potentially affect the aquatic environment., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published
2018
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36. Cotton fabric functionalisation with menthol/PCL micro- and nano-capsules for comfort improvement.

Author

Mossotti R, Ferri A, Innocenti R, Zelenková T, Dotti F, Marchisio DL, and Barresi AA

Subjects
Adult, Calorimetry, Differential Scanning, Capsules, Double-Blind Method, Drug Compounding, Female, Humans, Menthol adverse effects, Middle Aged, Particle Size, Skin Tests, Solvents, Cotton Fiber, Menthol administration & dosage, Menthol chemistry, Nanoparticles chemistry, Polyesters chemistry
Abstract

Objective: Cotton functionalisation with poly-ɛ-caprolactone (PCL) micro- and nano-capsules containing menthol was carried out with the aim of introducing a long-lasting refreshing sensation., Materials and Methods: The preparation of the polymer micro- and nano-capsules was carried out by solvent displacement technique. A confined impinging jets mixer was used in order to ensure fast mixing and generate a homogeneous environment where PCL and menthol can self-assemble., Results: The micro- and nano-capsules and the functionalised fabrics were characterised by means of DSC, FT-IR spectroscopy and SEM imaging. Micro- and nano-capsules of different size, from about 200 to about 1200 nm, were obtained varying menthol to PCL ratio (from 0.76 to 8), overall concentration and flow rate (i.e. mixing conditions). The inclusion of menthol was confirmed by DSC analysis., Discussion and Conclusion: A patch test was carried out by 10 volunteers. Micro-capsules were found to be effective in conferring the fabric a refreshing sensation without altering skin physiology.

Published
2015
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37. PTCA determination in human hair: reliability and analytical aspects.

Author

Zanetti R, Zoccola M, Mossotti R, Innocenti R, Loria DI, and Rosso S

Subjects
Female, Humans, Male, Reproducibility of Results, Risk, Chromatography, High Pressure Liquid standards, Hair chemistry, Melanoma diagnosis, Pyrroles analysis
Abstract

Background: In this study we analysed the reliability of HPLC determination of 2.3.5-pyrroletricarboxylic acid (PTCA). This product derives from oxidation of melanin in human hair, and is a good candidate as a risk marker for skin tumors., Material/methods: We determined PTCA in 100 melanoma cases and 100 controls, 21 replicates from six different reference hairs, two trace elements, and one reference sample (brown hair)., Results: Work-up procedures showed an almost perfect reproducibility with an Intraclass Correlation Coefficient (ICC) of 0.990. We noticed a low, detectable, but not statistically significant decrease in reproducibility proportional to the amount of PTCA. Agreement between determination following injection of the same solution in HPLC column was also high, with an overall ICC of 0.986. Simultaneous analysis of reproducibility showed a partial ICC for work-up (0.986), for injection (0.987), and an overall standardised ICC (0.975). The analysis of the two reference tracers in successive tests showed a weak, not statistically significant, decreasing linear drift, possibly due to various factors, such as aging of chemical solutions and HPLC columns., Conclusions: PTCA extracted from human hair through oxidation and determined with HPLC can be considered a reliable marker as a candidate for identifying persons at high risk for melanoma.

Published
2006

38. Near infrared spectroscopy as a tool for the determination of eumelanin in human hair.

Author

Zoccola M, Mossotti R, Innocenti R, Loria DI, Rosso S, and Zanetti R

Subjects
Chromatography, High Pressure Liquid, Humans, Pyrroles analysis, Hair chemistry, Melanins analysis, Spectroscopy, Near-Infrared methods
Abstract

Eumelanins are brown-black pigments present in the hair and in the epidermis which are acknowledged as protection factors against cell damage caused by ultraviolet radiation. The quantity of eumelanin present in hair has recently been put forward as a means of identifying subjects with a higher risk of skin tumours. For epidemiological studies, chromatographic methods of determining pyrrole-2,3,5-tricarboxylic acid (PTCA; the principal marker of eumelanin) are long, laborious and unsuitable for screening large populations. We suggest near infrared (NIR) spectroscopy as an alternative method of analysing eumelanin in hair samples. PCTA was determined on 93 samples of hair by means of oxidizing with hydrogen peroxide in a basic environment followed by chromatographic separation. The same 93 samples were then subjected to NIR spectrophotometric analysis. The spectra were obtained in reflectance mode on hair samples which had not undergone any preliminary treatment, but had simply been pressed and placed on the measuring window of the spectrophotometer. The PTCA values obtained by means of HPLC were correlated with the near infrared spectrum of the respective samples. A correlation between the PTCA values obtained by means of HPLC and the PTCA values obtained from an analysis of the spectra was obtained using the principal component regression (PCR) algorithm. The correlation obtained has a coefficient of regression (R(2)) of 0.89 and a standard error of prediction (SEP) of 13.8 for a mean value of 108.6 ng PTCA/mg hair. Some considerations about the accuracy of the obtained correlation and the main sources of error are made and some validation results are shown.

Published
2004
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39. Degumming of silk fabric with several proteases.

Author

Freddi G, Mossotti R, and Innocenti R

Subjects
Insect Proteins ultrastructure, Sericins, Silk, Textile Industry methods, Endopeptidases chemistry, Insect Proteins chemistry, Insect Proteins isolation & purification, Peptides, Cyclic chemistry, Peptides, Cyclic isolation & purification, Textiles
Abstract

A crêpe silk fabric was treated with different alkaline (3374-L, GC 897-H), neutral (3273-C), and acid (EC 3.4 23.18) proteases with the aim to study their effectiveness as degumming agents. Proteases were used under optimum conditions of pH and temperature, while enzyme dosage (0.05-2 U/g fabric) and treatment time (5-240 min) were changed in order to study the kinetics of sericin removal. Degumming loss with soap and alkali was 27 wt.%. The maximum amount of sericin removed in 1 h was 17.6, 24, and 19 wt.% for 3374-L (2 U/g fabric), GC 897-H (1U/g fabric), and 3273-C (0.1 U/g fabric), respectively. Under the experimental conditions adopted, EC 3.4 23.18 was almost ineffective as a degumming agent. Degumming loss increased as a function of the treatment time, reaching a value of 25 wt.% with 1 U/g fabric of 3374-L. The morphological analysis showed that sericin was completely removed from the warp yarns of the crêpe fabric, while the highly twisted weft yarns still exhibited the presence of sericin deposits within the most internal parts of the close fibre texture. The chromatographic pattern of soluble sericin peptides changed as a function of the kind of enzyme used, enzyme dosage, and treatment time. A mixture of peptides from 5 to 20 kDa in weight, with a weight-average molecular weight of about 12 kDa was obtained.

Published
2003
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