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3. SOC-I-07 Hazard strategy for nanoforms and nano-enabled products to implement safe-and-sustainable-by-design

Author

Braakhuis, H., primary, Cabellos, J., additional, Auffan, M., additional, Ayerbe, R., additional, Boyles, M., additional, Candalija, A., additional, Carriere, M., additional, Catalan, J., additional, Cross, R., additional, Hanlon, J., additional, Katsumiti, A., additional, Lahive, E., additional, Masion, A., additional, McLean, P., additional, Morel, E., additional, Rashid, S., additional, Rodriguez-Llopis, I., additional, Ruijter, N., additional, Simeone, F., additional, Soeteman-Hernández, L., additional, Vanhauten, R., additional, and Vázquez-Campos, S., additional

Published
2022
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5. Hazard strategy for nanoforms and nano-enabled products to implement safe-and-sustainable-by-design [Abstract]

Author

Braakhuis, H., Cabellos, J., Auffan, M., Ayerbe, R., Boyles, M., Candalija, A., Carriere, M., Catalan, J., Cross, R., Hanlon, J., Katsumiti, A., Lahive, E., Masion, A., McLean, P., Morel, E., Rashid, S., Rodriguez-Llopis, I., Ruijter, N., Simeone, F., Soeteman-Hernández, L., Vanhauten, R., Vázquez-Campos, S., Braakhuis, H., Cabellos, J., Auffan, M., Ayerbe, R., Boyles, M., Candalija, A., Carriere, M., Catalan, J., Cross, R., Hanlon, J., Katsumiti, A., Lahive, E., Masion, A., McLean, P., Morel, E., Rashid, S., Rodriguez-Llopis, I., Ruijter, N., Simeone, F., Soeteman-Hernández, L., Vanhauten, R., and Vázquez-Campos, S.

Published
2022

8. Safer by design strategies

Author

Cobaleda-Siles, M., primary, Guillamon, A.P., additional, Delpivo, C., additional, Vázquez-Campos, S., additional, and Puntes, V. F., additional

Published
2017
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9. Towards a nanospecific approach for risk assessment

Author

Dekkers, S., Oomen, A.G., Bleeker, E.A.J., Vandebriel, R.J., Micheletti, C., Cabellos, J., Janer, G., Fuentes, N., Vázquez-Campos, S., Borges, T., Silva, M.J., Prina-Mello, A., Movia, D., Nesslany, F., Ribeiro, A.R., Leite, P.E., Groenewold, M., Cassee, F.R., Sips, A.J.A.M., Dijkzeul, A., van Teunenbroek, T., Wijnhoven, S.W.P., Dekkers, S., Oomen, A.G., Bleeker, E.A.J., Vandebriel, R.J., Micheletti, C., Cabellos, J., Janer, G., Fuentes, N., Vázquez-Campos, S., Borges, T., Silva, M.J., Prina-Mello, A., Movia, D., Nesslany, F., Ribeiro, A.R., Leite, P.E., Groenewold, M., Cassee, F.R., Sips, A.J.A.M., Dijkzeul, A., van Teunenbroek, T., and Wijnhoven, S.W.P.

Abstract

In the current paper, a new strategy for risk assessment of nanomaterials is described, which builds upon previous project outcomes and is developed within the FP7 NANoREG project. NANoREG has the aim to develop, for the long term, new testing strategies adapted to a high number of nanomaterials where many factors can affect their environmental and health impact. In the proposed risk assessment strategy, approaches for (Quantitative) Structure Activity Relationships ((Q)SARs), grouping and read-across are integrated and expanded to guide the user how to prioritise those nanomaterial applications that may lead to high risks for human health. Furthermore, those aspects of exposure, kinetics and hazard assessment that are most likely to be influenced by the nanospecific properties of the material under assessment are identified. These aspects are summarised in six elements, which play a key role in the strategy: exposure potential, dissolution, nanomaterial transformation, accumulation, genotoxicity and immunotoxicity. With the current approach it is possible to identify those situations where the use of nanospecific grouping, read-across and (Q)SAR tools is likely to become feasible in the future, and to point towards the generation of the type of data that is needed for scientific justification, which may lead to regulatory acceptance of nanospecific applications of these tools. © 2016 The Authors

Published
2016

10. Towards a nanospecific approach for risk assessment

Author

dIRAS RA-2, LS IRAS EEPI Inhalatie Toxicologie, Dekkers, S., Oomen, A.G., Bleeker, E.A.J., Vandebriel, R.J., Micheletti, C., Cabellos, J., Janer, G., Fuentes, N., Vázquez-Campos, S., Borges, T., Silva, M.J., Prina-Mello, A., Movia, D., Nesslany, F., Ribeiro, A.R., Leite, P.E., Groenewold, M., Cassee, F.R., Sips, A.J.A.M., Dijkzeul, A., van Teunenbroek, T., Wijnhoven, S.W.P., dIRAS RA-2, LS IRAS EEPI Inhalatie Toxicologie, Dekkers, S., Oomen, A.G., Bleeker, E.A.J., Vandebriel, R.J., Micheletti, C., Cabellos, J., Janer, G., Fuentes, N., Vázquez-Campos, S., Borges, T., Silva, M.J., Prina-Mello, A., Movia, D., Nesslany, F., Ribeiro, A.R., Leite, P.E., Groenewold, M., Cassee, F.R., Sips, A.J.A.M., Dijkzeul, A., van Teunenbroek, T., and Wijnhoven, S.W.P.

Published
2016

12. Thermal diffusivity measurement system applied to polymers

Author

Abad Mayor, Begoña, Díaz Chao, Pablo, Almarza, Albert, Amantia, David, Vázquez-Campos, S., Isoda, Yukihiro, Shinohara, Yoshikazu, Briones Fernández-Pola, Fernando, Martín-González, Marisol, Abad Mayor, Begoña, Díaz Chao, Pablo, Almarza, Albert, Amantia, David, Vázquez-Campos, S., Isoda, Yukihiro, Shinohara, Yoshikazu, Briones Fernández-Pola, Fernando, and Martín-González, Marisol

Abstract

In the search for cleaner energy sources, the improvement of the efficiency of the actual ones appears as a primary objective. In this way, thermoelectric materials, which are able to convert wasted heat into electricity, are reveal as an interesting way to improve efficiency of car engines, for example. Cost-effective energy harvesting from thermoelectric devices requires materials with high electrical conductivities and Seebeck coefficient, but low thermal conductivity. Conductive polymers can fulfil these conditions if they are doped appropriately. One of the most promising polymers is Polyaniline. In this work, the thermal conductivity of the polyaniline and mixtures of polyaniline with nanoclays has been studied, using a new experimental set-up developed in the lab. The novel system is based on the steady-state method and it is used to obtain the thermal diffusivity of the polymers and the nanocomposites.

Published
2012

16. Thermal diffusivity measurement system applied to polymers.

Author

Abad, B., Díaz-Chao, P., Almarza, A., Amantia, D., Vázquez-Campos, S., Isoda, Y., Shinohara, Y., Briones, F., and Martín-González, M. S.

Subjects
THERMAL diffusivity measurement, CONDUCTING polymers, THERMOELECTRIC materials, COST effectiveness, HEATING, FORCE & energy, ENERGY harvesting, THERMAL conductivity
Abstract

In the search for cleaner energy sources, the improvement of the efficiency of the actual ones appears as a primary objective. In this way, thermoelectric materials, which are able to convert wasted heat into electricity, are reveal as an interesting way to improve efficiency of car engines, for example. Cost-effective energy harvesting from thermoelectric devices requires materials with high electrical conductivities and Seebeck coefficient, but low thermal conductivity. Conductive polymers can fulfil these conditions if they are doped appropriately. One of the most promising polymers is Polyaniline. In this work, the thermal conductivity of the polyaniline and mixtures of polyaniline with nanoclays has been studied, using a new experimental set-up developed in the lab. The novel system is based on the steady-state method and it is used to obtain the thermal diffusivity of the polymers and the nanocomposites. [ABSTRACT FROM AUTHOR]

Published
2012
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19. Safe(r)-by-design principles in the thermoplastics industry: guidance on release assessment during manufacture of nano-enabled products.

Author

McLean P, Hanlon J, Salmatonidis A, Galea KS, Brooker F, Citterio C, Magni D, Vázquez-Campos S, Lotti D, and Boyles MSP

Subjects
Humans, Environmental Monitoring, Nanotechnology, Polypropylenes, Europe, Polycarboxylate Cement chemistry, Plastics, Nanotubes, Carbon, Occupational Exposure prevention & control, Nanostructures
Abstract

Background: The application of nanomaterials (NMs) and nano-enabled products (NEPs) across many industries has been extensive and is still expanding decades after first being identified as an emerging technology. Additive manufacturing has been greatly impacted and has seen the benefits of integrating NMs within products. With the expansion of nanotechnology, there has been a need to develop more adaptive and responsive methods to ascertain risks and ensure technology is developed safely. The Safe(r)-by-Design (SbD) concept can be used to establish safe parameters and minimise risks during the materials' lifecycle, including the early stages of the supply chain. Exposure monitoring has advanced in recent years with the creation of standardised protocols for occupational exposure assessment of nano-objects and their aggregates and agglomerates (NOAA)., Methods: To aid in the development of an online SbD-supporting platform by the EU-funded project SAbyNA, we adopt a Europe Standard for monitoring release of NOAA to identify if a greater release of NOAA is associated with incorporation of NMs within NEPs compared to a polymer matrix alone. Case studies included filaments of polypropylene (PP) with nano-Ag or polycarbonate (PC) with single-walled carbon nanotubes (SWCNTs). NMs were received in masterbatch, and therefore previously modified to align with SbD interventions. Results were collected in line with European Standard recommendations: monitoring particle concentrations using direct reading instruments (DRI), sampling for offline chemical and morphological analysis, and collecting contextual information., Results and Discussion: Based on the criteria described in the European standard (BS EN 17058), data from both case studies identified that inhalation exposure relating to NM was "unlikely". Despite this, during the production of the SWCNT-PC filaments, some noteworthy observations were made, including several DRI activity measurements shown to be higher than background levels, and material morphologically similar to the reference SWCNT/polymeric masterbatch observed in offline analysis. The data collected during this campaign were used to discuss choices available for data interpretation and decision-making in the European Standard for monitoring release of NOAA and also to facilitate the development of SAbyNA's user-friendly industry platform for the SbD of NMs and NEPs., Competing Interests: CC, DM, and DL were employed by LATI Industria Termoplastici S.p.A., Italy, a company which develops and produces thermoplastic compounds for high performance applications. JH was employed by Ricardo. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 McLean, Hanlon, Salmatonidis, Galea, Brooker, Citterio, Magni, Vázquez-Campos, Lotti and Boyles.)

Published
2024
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20. A roadmap towards safe and sustainable by design nanotechnology: Implementation for nano-silver-based antimicrobial textile coatings production by ASINA project.

Author

Furxhi I, Perucca M, Koivisto AJ, Bengalli R, Mantecca P, Nicosia A, Burrueco-Subirà D, Vázquez-Campos S, Lahive E, Blosi M, de Ipiña JL, Oliveira J, Carriere M, Vineis C, and Costa A

Abstract

This report demonstrates a case study within the ASINA project, aimed at instantiating a roadmap with quantitative metrics for Safe(r) and (more) Sustainable by Design (SSbD) options. We begin with a description of ASINA's methodology across the product lifecycle, outlining the quantitative elements within: Physical-Chemical Features (PCFs), Key Decision Factors (KDFs), and Key Performance Indicators (KPIs). Subsequently, we delve in a proposed decision support tool for implementing the SSbD objectives across various dimensions-functionality, cost, environment, and human health safety-within a broader European context. We then provide an overview of the technical processes involved, including design rationales, experimental procedures, and tools/models developed within ASINA in delivering nano-silver-based antimicrobial textile coatings. The result is pragmatic, actionable metrics intended to be estimated and assessed in future SSbD applications and to be adopted in a common SSbD roadmap aligned with the EU's Green Deal objectives. The methodological approach is transparently and thoroughly described to inform similar projects through the integration of KPIs into SSbD and foster data-driven decision-making. Specific results and project data are beyond this work's scope, which is to demonstrate the ASINA roadmap and thus foster SSbD-oriented innovation in nanotechnology., Competing Interests: Massimo Perucca is the owner of the MultiOptimal360TM IT platform (https://www.projecthub360.com/) who developed the DST as an integral part of the project. No potential conflict of interest was reported by the authors., (© 2024 The Authors.)

Published
2024
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21. Predicting accidental release of engineered nanomaterials to the environment.

Author

Gottschalk F, Debray B, Klaessig F, Park B, Lacome JM, Vignes A, Portillo VP, Vázquez-Campos S, Hendren CO, Lofts S, Harrison S, Svendsen C, and Kaegi R

Subjects
Environmental Pollutants, Nanostructures toxicity
Abstract

Challenges in distinguishing between natural and engineered nanomaterials (ENMs) and the lack of historical records on ENM accidents have hampered attempts to estimate the accidental release and associated environmental impacts of ENMs. Building on knowledge from the nuclear power industry, we provide an assessment of the likelihood of accidental release rates of ENMs within the next 10 and 30 years. We evaluate risk predictive methodology and compare the results with empirical evidence, which enables us to propose modelling approaches to estimate accidental release risk probabilities. Results from two independent modelling approaches based on either assigning 0.5% of reported accidents to ENM-releasing accidents (M1) or based on an evaluation of expert opinions (M2) correlate well and predict severe accidental release of 7% (M1) in the next 10 years and of 10% and 20% for M2 and M1, respectively, in the next 30 years. We discuss the relevance of these results in a regulatory context., (© 2022. The Author(s), under exclusive licence to Springer Nature Limited.)

Published
2023
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22. The State of the Art and Challenges of In Vitro Methods for Human Hazard Assessment of Nanomaterials in the Context of Safe-by-Design.

Author

Ruijter N, Soeteman-Hernández LG, Carrière M, Boyles M, McLean P, Catalán J, Katsumiti A, Cabellos J, Delpivo C, Sánchez Jiménez A, Candalija A, Rodríguez-Llopis I, Vázquez-Campos S, Cassee FR, and Braakhuis H

Abstract

The Safe-by-Design (SbD) concept aims to facilitate the development of safer materials/products, safer production, and safer use and end-of-life by performing timely SbD interventions to reduce hazard, exposure, or both. Early hazard screening is a crucial first step in this process. In this review, for the first time, commonly used in vitro assays are evaluated for their suitability for SbD hazard testing of nanomaterials (NMs). The goal of SbD hazard testing is identifying hazard warnings in the early stages of innovation. For this purpose, assays should be simple, cost-effective, predictive, robust, and compatible. For several toxicological endpoints, there are indications that commonly used in vitro assays are able to predict hazard warnings. In addition to the evaluation of assays, this review provides insights into the effects of the choice of cell type, exposure and dispersion protocol, and the (in)accurate determination of dose delivered to cells on predictivity. Furthermore, compatibility of assays with challenging advanced materials and NMs released from nano-enabled products (NEPs) during the lifecycle is assessed, as these aspects are crucial for SbD hazard testing. To conclude, hazard screening of NMs is complex and joint efforts between innovators, scientists, and regulators are needed to further improve SbD hazard testing.

Published
2023
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23. Biomarkers of nanomaterials hazard from multi-layer data.

Author

Fortino V, Kinaret PAS, Fratello M, Serra A, Saarimäki LA, Gallud A, Gupta G, Vales G, Correia M, Rasool O, Ytterberg J, Monopoli M, Skoog T, Ritchie P, Moya S, Vázquez-Campos S, Handy R, Grafström R, Tran L, Zubarev R, Lahesmaa R, Dawson K, Loeschner K, Larsen EH, Krombach F, Norppa H, Kere J, Savolainen K, Alenius H, Fadeel B, and Greco D

Subjects
Biomarkers, RNA, Messenger genetics, Nanostructures toxicity
Abstract

There is an urgent need to apply effective, data-driven approaches to reliably predict engineered nanomaterial (ENM) toxicity. Here we introduce a predictive computational framework based on the molecular and phenotypic effects of a large panel of ENMs across multiple in vitro and in vivo models. Our methodology allows for the grouping of ENMs based on multi-omics approaches combined with robust toxicity tests. Importantly, we identify mRNA-based toxicity markers and extensively replicate them in multiple independent datasets. We find that models based on combinations of omics-derived features and material intrinsic properties display significantly improved predictive accuracy as compared to physicochemical properties alone., (© 2022. The Author(s).)

Published
2022
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25. Release and cytotoxicity screening of the printer emissions of a CdTe quantum dots-based fluorescent ink.

Author

Blázquez Sánchez M, Nelissen I, Pomar-Portillo V, Vílchez A, Van Laer J, Jacobs A, Frijns E, Vázquez-Campos S, and Fernandez-Rosas E

Subjects
Aerosols, Bronchi metabolism, Bronchi pathology, Cell Line, Cell Survival drug effects, Epithelial Cells metabolism, Epithelial Cells pathology, Fluorescence, Humans, Inflammation Mediators metabolism, Inhalation Exposure, Oxidative Stress drug effects, Risk Assessment, Bronchi drug effects, Cadmium Compounds toxicity, Epithelial Cells drug effects, Ink, Printing instrumentation, Quantum Dots toxicity, Tellurium toxicity
Abstract

The fluorescent properties of cadmium telluride (CdTe) containing quantum dots (QDs) have led to novel products and applications in the ink and pigment industry. The toxic effects of the emissions associated to the use of printing ink containing CdTe QDs might differ from those of conventional formulations which do not integrate nanoparticles, as CdTe QDs might be emitted. Within this work, the airborne emissions of a water-soluble fluorescent ink containing polyethylene glycol (PEG)-coated CdTe QDs of 3-5 nm diameter have been characterized and studied under controlled conditions during household inkjet printing in a scenario simulating the use phase. Subsequently, the cytotoxicological potential of atomized CdTe QDs ink in an acute exposure regimen simulating an accidental, worse-case scenario has been evaluated in vitro at the air-liquid interface (ALI) using the pulmonary cell line BEAS-2B. Endpoints screened included cell viability, oxidative stress and inflammatory effects. We have observed that CdTe QDs ink at 54.7 ng/mL decreased cell viability by 25.6 % when compared with clean air after 1h of exposure; a concentration about 65 times higher was needed to observe a similar effect in submerged conditions. However, we did not observe oxidative stress or inflammatory effects. The present study integrates the development of scenarios simulating the use phase of nano-additivated inks and the direct cell exposure for in vitro effects assessment, thus implementing a life-cycle oriented approach in the assessment of the toxicity of CdTe QDs., Competing Interests: Declaration of Competing Interest The authors report no declarations of interest., (Copyright © 2021. Published by Elsevier B.V.)

Published
2021
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26. Nanosafety research in Europe - Towards a focus on nano-enabled products.

Author

Pomar-Portillo V, Park B, Crossley A, and Vázquez-Campos S

Subjects
Europe, Humans, Soot, Sunscreening Agents, Nanostructures adverse effects
Abstract

In the nanosafety projects funded by the European Commission a large amount of data has been generated on hazard and exposure for a variety of engineered nanomaterials (ENMs) and nano-enabled products (NEPs). However, not all the data generated has been published, nor has all the data been stored in an organised manner (e. g. database) which makes it very difficult for researchers, industry and other stakeholders to use it. This paper provides an inventory of NEPs studied in each of these projects, including relevant information on the NEPs, the life-cycle stages evaluated for each of them and an overview of the projects, which can be used for identifying areas in which there might be data gaps. The purpose of analyzing the nanosafety research done on NEPs was to provide an overview of the products studied compare to what can realistically be found in the market (i.e. the exposure relevant materials that workers, consumers and the environment may be exposed to). The analysis done in all the projects included in the inventory allowed the identification of the need to increase the number of studies with well-established commercialized NEPs, such as ENMs used in tyres or sunscreens. In addition, it was found that, in general, there was a correlation of the different ENMs studied with their respective production relevance (i.e. production volumes), except for silver, which was vastly over-represented, and on the other hand carbon black, which was under-represented. Addittionally, there is a need to improve accessibility to relevant and high quality data produced in all these projects to provide transparency and support to different stakeholder needs., (Crown Copyright © 2021. Published by Elsevier B.V. All rights reserved.)

Published
2021
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27. Occupational Exposure and Environmental Release: The Case Study of Pouring TiO 2 and Filler Materials for Paint Production.

Author

Fonseca AS, Viitanen AK, Kanerva T, Säämänen A, Aguerre-Chariol O, Fable S, Dermigny A, Karoski N, Fraboulet I, Koponen IK, Delpivo C, Vilchez Villalba A, Vázquez-Campos S, Østerskov Jensen AC, Hjortkjær Nielsen S, Sahlgren N, Clausen PA, Xuan Nguyen Larsen B, Kofoed-Sørensen V, Alstrup Jensen K, and Koivisto J

Subjects
Environmental Monitoring, Inhalation Exposure analysis, Paint, Particle Size, Titanium, Air Pollutants, Occupational analysis, Occupational Exposure analysis
Abstract

Pulmonary exposure to micro- and nanoscaled particles has been widely linked to adverse health effects and high concentrations of respirable particles are expected to occur within and around many industrial settings. In this study, a field-measurement campaign was performed at an industrial manufacturer, during the production of paints. Spatial and personal measurements were conducted and results were used to estimate the mass flows in the facility and the airborne particle release to the outdoor environment. Airborne particle number concentration (1 × 10 3 -1.0 × 10 4 cm -3 ), respirable mass (0.06-0.6 mg m -3 ), and PM 10 (0.3-6.5 mg m -3 ) were measured during pouring activities. In overall; emissions from pouring activities were found to be dominated by coarser particles >300 nm. Even though the raw materials were not identified as nanomaterials by the manufacturers, handling of TiO 2 and clays resulted in release of nanometric particles to both workplace air and outdoor environment, which was confirmed by TEM analysis of indoor and stack emission samples. During the measurement period, none of the existing exposure limits in force were exceeded. Particle release to the outdoor environment varied from 6 to 20 g ton -1 at concentrations between 0.6 and 9.7 mg m -3 of total suspended dust depending on the powder. The estimated release of TiO 2 to outdoors was 0.9 kg per year. Particle release to the environment is not expected to cause any major impact due to atmospheric dilution.

Published
2021
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28. Short-term oral administration of non-porous and mesoporous silica did not induce local or systemic toxicity in mice.

Author

Cabellos J, Gimeno-Benito I, Catalán J, Lindberg HK, Vales G, Fernandez-Rosas E, Ghemis R, Jensen KA, Atluri R, Vázquez-Campos S, and Janer G

Subjects
Administration, Oral, Animals, Comet Assay, Dose-Response Relationship, Drug, Erythrocytes drug effects, Erythrocytes pathology, Female, Jejunum pathology, Kidney drug effects, Kidney pathology, Liver pathology, Mice, Micronucleus Tests, Nanoparticles administration & dosage, Nanoparticles chemistry, Organ Size, Particle Size, Porosity, Silicon Dioxide administration & dosage, Silicon Dioxide chemistry, Spleen drug effects, Spleen pathology, Surface Properties, Jejunum drug effects, Liver drug effects, Nanoparticles toxicity, Silicon Dioxide toxicity
Abstract

In this study, two sets of methyl-coated non-porous and mesoporous amorphous silica materials of two target sizes (100 and 300 nm; 10-844 m 2 /g) were used to investigate the potential role of specific surface area (SSA) and porosity on the oral toxicity in mice. Female Swiss mice were administered by oral gavage for 5 consecutive days. Two silica dose levels (100 and 1000 mg/kg b.w.) were tested for all four materials. All dispersions were characterized by transmission electron microscopy (TEM) and Nanoparticle tracking analysis (NTA). Batch dispersions of porous silica were rather unstable due to agglomeration. Animals were sacrificed one day after the last administration or after a three-week recovery period. No relevant toxicological effects were induced by any of the silica materials tested, as evaluated by body weight, gross pathology, relative organ weights (liver, spleen, kidneys), hematology, blood biochemistry, genotoxicity (Comet assay in jejunum cells and micronucleus test in peripheral blood erythrocytes), liver and small intestine histopathology, and intestinal inflammation. The presence of silica particles in the intestine was evaluated by a hyperspectral imaging microscopy system (CytoViva) using histological samples of jejunum tissue. Silica spectral signatures were found in jejunum samples with all the treatments, but only statistically significant in one of the treatment groups.

Published
2020
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29. Key principles and operational practices for improved nanotechnology environmental exposure assessment.

Author

Svendsen C, Walker LA, Matzke M, Lahive E, Harrison S, Crossley A, Park B, Lofts S, Lynch I, Vázquez-Campos S, Kaegi R, Gogos A, Asbach C, Cornelis G, von der Kammer F, van den Brink NW, Mays C, and Spurgeon DJ

Subjects
Biological Availability, Environmental Exposure prevention & control, Humans, Thermodynamics, Environmental Exposure adverse effects, Nanostructures chemistry, Nanostructures toxicity, Nanotechnology methods, Risk Assessment methods
Abstract

Nanotechnology is identified as a key enabling technology due to its potential to contribute to economic growth and societal well-being across industrial sectors. Sustainable nanotechnology requires a scientifically based and proportionate risk governance structure to support innovation, including a robust framework for environmental risk assessment (ERA) that ideally builds on methods established for conventional chemicals to ensure alignment and avoid duplication. Exposure assessment developed as a tiered approach is equally beneficial to nano-specific ERA as for other classes of chemicals. Here we present the developing knowledge, practical considerations and key principles need to support exposure assessment for engineered nanomaterials for regulatory and research applications.

Published
2020
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30. In vitro assessment of CeO 2 nanoparticles effects on intestinal microvilli morphology.

Author

Cabellos J, Delpivo C, Vázquez-Campos S, and Janer G

Subjects
Caco-2 Cells, Cerium chemistry, Citrates chemistry, Citrates toxicity, Humans, Nanoparticles chemistry, Cerium toxicity, Intestinal Mucosa drug effects, Microvilli drug effects, Nanoparticles toxicity
Abstract

Some nanoparticles (NPs) have been shown to disrupt intestinal microvilli morphology in vitro, an alteration that could potentially affect nutrient absorption and barrier properties. This study aimed at evaluating the potential effect of CeO 2 NPs (4-8 nm, citrate stabilized) on Caco-2 microvilli morphology. In addition to the standard Caco-2 cell clone, the C2BBe1 clone was used, as it is considered to develop a more homogeneous cellular morphology. Semiautomated microvilli density quantification and a new cell scoring approach were used to evaluate scanning electron microscopy (SEM) images. The quantification method made use of the whole micrograph surface, avoiding the need to choose subareas for analysis, and increasing the representativeness of the results when compared to previous studies. The main advantage of the scoring system is that it informs on the intercellular variability within a cell preparation. Benzalkonium was used as a positive control inducing toxicity and morphological alterations on microvilli. After three-week differentiation, Caco-2 cells were exposed to 100 μg/mL of CeO 2 NPs for 24 h. The integrity of the membrane was evaluated by transepithelial electrical resistance (TEER) and thereafter processed for its observation by SEM. Results showed that both the standard Caco-2 clone and the C2BBe1 clone present notable morphological heterogeneity. The two evaluation approaches were able to identify morphological effects caused by the positive control, but did not detect statistically significant morphological alterations after exposure to CeO 2 NPs., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published
2019
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31. Development of a systematic method to assess similarity between nanomaterials for human hazard evaluation purposes - lessons learnt.

Author

Park MV, Catalán J, Ferraz N, Cabellos J, Vanhauten R, Vázquez-Campos S, and Janer G

Subjects
Hazardous Substances chemistry, Hazardous Substances toxicity, Humans, Nanostructures chemistry, Nanostructures toxicity, Structure-Activity Relationship, Chemical Safety methods, Databases, Factual, Hazardous Substances classification, Nanostructures classification
Abstract

Within the EU FP-7 GUIDEnano project, a methodology was developed to systematically quantify the similarity between a nanomaterial (NM) that has been tested in toxicity studies and the NM for which risk needs to be evaluated, for the purpose of extrapolating toxicity data between the two materials. The methodology is a first attempt to use current knowledge on NM property-hazard relationships to develop a series of pragmatic and systematic rules for assessing NM similarity. Moreover, the methodology takes into account the practical feasibility, in that it is based on generally available NM characterization information. In addition to presenting this methodology, the lessons learnt and the challenges faced during its development are reported here. We conclude that there is a large gap between the information that is ideally needed and its application to real cases. The current database on property-hazard relationships is still very limited, which hinders the agreement on the key NM properties constituting the basis of the similarity assessment and the development of associated science-based and unequivocal rules. Currently, one of the most challenging NM properties to systematically assess in terms of similarity between two NMs is surface coating and functionalization, which lacks standardized parameters for description and characterization methodology. Standardization of characterization methods that lead to quantitative, unambiguous, and measurable parameters describing NM properties are necessary in order to build a sufficiently robust property-hazard database that allows for evidence-based refinement of our methodology, or any other attempt to systematically assess the similarity of NMs.

Published
2018
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32. Advanced tools for the safety assessment of nanomaterials.

Author

Fadeel B, Farcal L, Hardy B, Vázquez-Campos S, Hristozov D, Marcomini A, Lynch I, Valsami-Jones E, Alenius H, and Savolainen K

Subjects
Animals, Environment, Humans, Information Dissemination, Internet, Nanostructures toxicity, Risk Assessment, Software, High-Throughput Screening Assays methods, Nanostructures adverse effects, Systems Biology methods, Toxicity Tests methods
Abstract

Engineered nanomaterials (ENMs) have tremendous potential to produce beneficial technological impact in numerous sectors in society. Safety assessment is, of course, of paramount importance. However, the myriad variations of ENM properties makes the identification of specific features driving toxicity challenging. At the same time, reducing animal tests by introducing alternative and/or predictive in vitro and in silico methods has become a priority. It is important to embrace these new advances in the safety assessment of ENMs. Indeed, remarkable progress has been made in recent years with respect to mechanism-based hazard assessment of ENMs, including systems biology approaches as well as high-throughput screening platforms, and new tools are also emerging in risk assessment and risk management for humans and the environment across the whole life-cycle of nano-enabled products. Here, we highlight some of the key advances in the hazard and risk assessment of ENMs.

Published
2018
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33. NanoRelease: Pilot interlaboratory comparison of a weathering protocol applied to resilient and labile polymers with and without embedded carbon nanotubes.

Author

Wohlleben W, Kingston C, Carter J, Sahle-Demessie E, Vázquez-Campos S, Acrey B, Chen CY, Walton E, Egenolf H, Müller P, and Zepp R

Abstract

A major use of multi-walled carbon nanotubes (MWCNTs) is as functional fillers embedded in a solid matrix, such as plastics or coatings. Weathering and abrasion of the solid matrix during use can lead to environmental releases of the MWCNTs. Here we focus on a protocol to identify and quantify the primary release induced by weathering, and assess reproducibility, transferability, and sensitivity towards different materials and uses. We prepared 132 specimens of two polymer-MWCNT composites containing the same grade of MWCNTs used in earlier OECD hazard assessments but without UV stabilizer. We report on a pilot inter-laboratory comparison (ILC) with four labs (two US and two EU) aging by UV and rain, then shipping for analysis. Two labs (one US and one EU) conducted the release sampling and analysis by Transmission Electron Microscopy (TEM), Inductively Coupled Plasma- Mass Spectrometry (ICP-MS), UltravioleteVisible Spectroscopy (UVeVis), Analytical Ultracentrifugation (AUC), and Asymmetric Flow Field Flow Fractionation (AF4). We compare results between aging labs, between analysis labs and between materials. Surprisingly, we found quantitative agreement between analysis labs for TEM, ICP-MS, UVeVis; low variation between aging labs by all methods; and consistent rankings of release between TEM, ICP-MS, UVeVis, AUC. Significant disagreement was related primarily to differences in aging, but even these cases remained within a factor of two.

Published
2017
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34. The Life Cycle of Engineered Nanoparticles.

Author

González-Gálvez D, Janer G, Vilar G, Vílchez A, and Vázquez-Campos S

Subjects
Environmental Exposure adverse effects, Humans, Industry methods, Nanostructures adverse effects, Nanostructures chemistry, Nanotechnology methods, Risk Assessment, Safety, Nanoparticles adverse effects, Nanoparticles chemistry
Abstract

The first years in the twenty-first century have meant the inclusion of nanotechnology in most industrial sectors, from very specific sensors to construction materials. The increasing use of nanomaterials in consumer products has raised concerns about their potential risks for workers, consumers and the environment. In a comprehensive risk assessment or life cycle assessment, a life cycle schema is the starting point necessary to build up the exposure scenarios and study the processes and mechanisms driving to safety concerns. This book chapter describes the processes that usually occur at all the stages of the life cycle of the nano-enabled product, from the nanomaterial synthesis to the end-of-life of the products. Furthermore, release studies reported in literature related to these processes are briefly discussed.

Published
2017
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35. Towards a nanospecific approach for risk assessment.

Author

Dekkers S, Oomen AG, Bleeker EA, Vandebriel RJ, Micheletti C, Cabellos J, Janer G, Fuentes N, Vázquez-Campos S, Borges T, Silva MJ, Prina-Mello A, Movia D, Nesslany F, Ribeiro AR, Leite PE, Groenewold M, Cassee FR, Sips AJ, Dijkzeul A, van Teunenbroek T, and Wijnhoven SW

Subjects
Animals, Biotransformation, Body Burden, Consumer Product Safety, Humans, Immune System drug effects, Molecular Structure, Mutagenicity Tests, Nanoparticles chemistry, Nanoparticles metabolism, Patient Safety, Quantitative Structure-Activity Relationship, Risk Assessment, Solubility, Nanoparticles toxicity, Nanotechnology methods, Toxicity Tests methods
Abstract

In the current paper, a new strategy for risk assessment of nanomaterials is described, which builds upon previous project outcomes and is developed within the FP7 NANoREG project. NANoREG has the aim to develop, for the long term, new testing strategies adapted to a high number of nanomaterials where many factors can affect their environmental and health impact. In the proposed risk assessment strategy, approaches for (Quantitative) Structure Activity Relationships ((Q)SARs), grouping and read-across are integrated and expanded to guide the user how to prioritise those nanomaterial applications that may lead to high risks for human health. Furthermore, those aspects of exposure, kinetics and hazard assessment that are most likely to be influenced by the nanospecific properties of the material under assessment are identified. These aspects are summarised in six elements, which play a key role in the strategy: exposure potential, dissolution, nanomaterial transformation, accumulation, genotoxicity and immunotoxicity. With the current approach it is possible to identify those situations where the use of nanospecific grouping, read-across and (Q)SAR tools is likely to become feasible in the future, and to point towards the generation of the type of data that is needed for scientific justification, which may lead to regulatory acceptance of nanospecific applications of these tools., (Copyright © 2016 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2016
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36. Influence of Nanomaterial Compatibilization Strategies on Polyamide Nanocomposites Properties and Nanomaterial Release during the Use Phase.

Author

Fernández-Rosas E, Vilar G, Janer G, González-Gálvez D, Puntes V, Jamier V, Aubouy L, and Vázquez-Campos S

Subjects
Calorimetry, Differential Scanning, Caprolactam analogs & derivatives, Caprolactam chemistry, Crystallization, Microscopy, Electron, Transmission, Nanotubes, Carbon chemistry, Polymers chemistry, Silicon Dioxide chemistry, Spectroscopy, Fourier Transform Infrared, Temperature, Nanocomposites chemistry, Nylons chemistry
Abstract

The incorporation of small amounts of nanofillers in polymeric matrices has enabled new applications in several industrial sectors. The nanofiller dispersion can be improved by modifying the nanomaterial (NM) surface or predispersing the NMs to enhance compatibility. This study evaluates the effect of these compatibilization strategies on migration/release of the nanofiller and transformation of polyamide-6 (PA6), a thermoplastic polymer widely used in industry during simulated outdoors use. Two nanocomposites (NCs) containing SiO2 nanoparticles (NPs) with different surface properties and two multiwalled carbon nanotube (MWCNT) NCs obtained by different addition methods were produced and characterized, before and after accelerated wet aging conditions. Octyl-modified SiO2 NPs, though initially more aggregated than uncoated SiO2 NPs, reduced PA6 hydrolysis and, consequently, NM release. Although no clear differences in dispersion were observed between the two types of MWCNT NCs (masterbatch vs direct addition) after manufacture, the use of the MWCNT masterbatch reduced PA6 degradation during aging, preventing MWCNT accumulation on the surface and further release or potential exposure by direct contact. The amounts of NM released were lower for MWCNTs (36 and 108 mg/m(2)) than for SiO2 NPs (167 and 730 mg/m(2)), being lower in those samples where the NC was designed to improve the nanofiller-matrix interaction. Hence, this study shows that optimal compatibilization between NM and matrix can improve NC performance, reducing polymer degradation and exposure and/or release of the nanofiller.

Published
2016
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37. Engineered Nanoscale Food Ingredients: Evaluation of Current Knowledge on Material Characteristics Relevant to Uptake from the Gastrointestinal Tract.

Author

Yada RY, Buck N, Canady R, DeMerlis C, Duncan T, Janer G, Juneja L, Lin M, McClements DJ, Noonan G, Oxley J, Sabliov C, Tsytsikova L, Vázquez-Campos S, Yourick J, Zhong Q, and Thurmond S

Abstract

The NanoRelease Food Additive project developed a catalog to identify potential engineered nanomaterials (ENMs) used as ingredients, using various food-related databases. To avoid ongoing debate on defining the term nanomaterial, NanoRelease did not use any specific definition other than the ingredient is not naturally part of the food chain, and its dimensions are measured in the nanoscale. Potential nanomaterials were categorized based on physical similarity; analysis indicated that the range of ENMs declared as being in the food chain was limited. Much of the catalog's information was obtained from product labeling, likely resulting in both underreporting (inconsistent or absent requirements for labeling) and/or overreporting (inability to validate entries, or the term nano was used, although no ENM material was present). Three categories of ingredients were identified: emulsions, dispersions, and their water-soluble powdered preparations (including lipid-based structures); solid encapsulates (solid structures containing an active material); and metallic or other inorganic particles. Although much is known regarding the physical/chemical properties for these ingredient categories, it is critical to understand whether these properties undergo changes following their interaction with food matrices during preparation and storage. It is also important to determine whether free ENMs are likely to be present within the gastrointestinal tract and whether uptake of ENMs may occur in their nanoform physical state. A practical decision-making scheme was developed to help manage testing requirements., (© 2014 Institute of Food Technologists®.)

Published
2014
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38. In vitro toxicity of functionalised nanoclays is mainly driven by the presence of organic modifiers.

Author

Janer G, Fernández-Rosas E, Mas del Molino E, González-Gálvez D, Vilar G, López-Iglesias C, Ermini V, and Vázquez-Campos S

Subjects
Aluminum Silicates chemistry, Analysis of Variance, Apoptosis drug effects, Bentonite chemistry, Cell Line, Tumor, Clay, Culture Media, Humans, Nanostructures chemistry, Particle Size, Aluminum Silicates toxicity, Bentonite toxicity, Cell Survival drug effects, Nanostructures toxicity
Abstract

Little information exists on the toxicological hazards associated to organo-modified clays. We evaluated the cytotoxicity of a series of pristine and organo-modified nanoclays in different cell lines. The calculated IC50 values for cell viability ranged from 1.4 to 47 µg/mL for the six organoclays used and were above 100 µg/mL for the pristine nanoclays. The IC50 values of the organoclays were driven by the proportion and structure of the quaternary ammonium compound used as surface organic modifier. No differences in cell toxicity were observed between the large and small-sized (additional milling step) nanoclay batches, although their size differences related mostly to upper range of the size distribution. Despite their lower toxicity, pristine nanoclays induced apoptosis and were found in cytoplasmic vesicles of exposed cells. Organoclays were also found in cytoplasmic vesicles, although the size of the agglomerates was larger and the efficiency of uptake was considerably lower.

Published
2014
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39. Analysis of time-dependent conjugation of gold nanoparticles with an antiparkinsonian molecule by using curve resolution methods.

Author

Amigo JM, Bastús NG, Hoen R, Vázquez-Campos S, Varón M, Royo M, and Puntes V

Subjects
Kinetics, Least-Squares Analysis, Thermodynamics, Time Factors, Antiparkinson Agents chemistry, Gold chemistry, Metal Nanoparticles chemistry, Spectrophotometry, Ultraviolet methods
Abstract

In this work, the time-dependent conjugation process between a thiolated molecule (with anti-parkinsonian properties) and gold nanoparticles has been monitored and studied by the combined use of fast acquisition Ultra Violet-Visible (UV-Vis) spectra and the ability of Multivariate Curve Resolution-Alternating Least Squares (MCR-ALS) technique. From the highly informative kinetic profiles obtained it was possible to extract quantitative and qualitative information of the conjugation process which includes i) time-dependent concentration profiles and pure spectra of species involved on conjugation process, ii) estimation of molecule concentration necessary for the completeness of the conjugation reaction, iii) molecule footprint and iv) free energy of molecule adsorption., (Copyright © 2010 Elsevier B.V. All rights reserved.)

Published
2011
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41. Self-organization of gold-containing hydrogen-bonded rosette assemblies on graphite surface.

Author

Vázquez-Campos S, Péter M, Dong M, Xu S, Xu W, Gersen H, Linderoth TR, Schönherr H, Besenbacher F, Crego-Calama M, and Reinhoudt DN

Subjects
Microscopy, Atomic Force, Surface Properties, Gold chemistry, Graphite chemistry, Hydrogen Bonding
Abstract

The self-organization of supramolecular structures, in particular gold-containing hydrogen-bonded rosettes, on highly oriented pyrolytic graphite (HOPG) surfaces was investigated by tapping-mode atomic force microscopy (TM-AFM) and scanning tunneling microscopy (STM). TM-AFM and high-resolution STM results show that these hydrogen-bonded assemblies self-organize to form highly ordered domains on HOPG surfaces. We find that a subtle change in one of the building blocks induces two different orientations of the assembly with respect to the surface. These results provide information on the control over the construction of supramolecular nanoarchitectures in 2D with the potential for the manufacturing of functional materials based on structural manipulation of molecular components.

Published
2007
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43. Cyanuric acid and melamine on Au111: structure and energetics of hydrogen-bonded networks.

Author

Xu W, Dong M, Gersen H, Rauls E, Vázquez-Campos S, Crego-Calama M, Reinhoudt DN, Stensgaard I, Laegsgaard E, Linderoth TR, and Besenbacher F

Subjects
Computer Simulation, Crystallization methods, Hydrogen Bonding, Kinetics, Macromolecular Substances chemistry, Materials Testing, Molecular Conformation, Nanotechnology methods, Particle Size, Surface Properties, Gold chemistry, Models, Chemical, Models, Molecular, Nanostructures chemistry, Nanostructures ultrastructure, Triazines chemistry
Published
2007
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