A methodology on how to create a real-life relevant risk profile for a given nanomaterial

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dc.contributor.authorSchimpel, Christa
dc.contributor.authorResch, Susanne
dc.contributor.authorFlament, Guillaume
dc.contributor.authorCarlander, David
dc.contributor.authorVaquero-Moralejo, Celina
dc.contributor.authorBustero, Izaskun
dc.contributor.authorFalk, Andreas
dc.contributor.institutionTecnalia Research & Innovation
dc.contributor.institutionPRINTEX
dc.date.issued2018-01-01
dc.descriptionPublisher Copyright: © 2017 The Authors
dc.description.abstractWith large amounts of nanotoxicology studies delivering contradicting results and a complex, moving regulatory framework, potential risks surrounding nanotechnology appear complex and confusing. Many researchers and workers in different sectors are dealing with nanomaterials on a day-to-day basis, and have a requirement to define their assessment/management needs. This paper describes an industry-tailored strategy for risk assessment of nanomaterials and nano-enabled products, which builds on recent research outcomes. The approach focuses on the creation of a risk profile for a given nanomaterial (e.g., determine which materials and/or process operation pose greater risk, where these risks occur in the lifecycle, and the impact of these risks on society), using state-of-the-art safety assessment approaches/tools (ECETOC TRA, Stoffenmanager Nano and ISO/TS 12901-2:2014). The developed nanosafety strategy takes into account cross-sectoral industrial needs and includes (i) Information Gathering: Identification of nanomaterials and hazards by a demand-driven questionnaire and on-site company visits in the context of human and ecosystem exposures, considering all companies/parties/downstream users involved along the value chain; (ii) Hazard Assessment: Collection of all relevant and available information on the intrinsic properties of the substance (e.g., peerreviewed (eco)toxicological data, material safety data sheets), as well as identification of actual recommendations and benchmark limits for the different nano-objects in the scope of this projects; (iii) Exposure Assessment: Definition of industry-specific and application-specific exposure scenarios taking into account operational conditions and risk management measures; (iv) Risk Characterisation: Classification of the risk potential by making use of exposure estimation models (i.e., comparing estimated exposure levels with threshold levels); (v) Refined Risk Characterisation and Exposure Monitoring: Selection of individual exposure scenarios for exposure monitoring following the OECD Harmonized Tiered Approach to refine risk assessment; (vi) Risk Mitigation Strategies: Development of risk mitigation actions focusing on risk prevention.en
dc.description.statusPeer reviewed
dc.format.extent12
dc.format.extent1222182
dc.identifier.citationSchimpel , C , Resch , S , Flament , G , Carlander , D , Vaquero-Moralejo , C , Bustero , I & Falk , A 2018 , ' A methodology on how to create a real-life relevant risk profile for a given nanomaterial ' , Journal of Chemical Health and Safety , vol. 25 , no. 1 , pp. 12-23 . https://doi.org/10.1016/j.jchas.2017.06.002
dc.identifier.doi10.1016/j.jchas.2017.06.002
dc.identifier.issn1871-5532
dc.identifier.otherresearchoutputwizard: 11556/425
dc.identifier.urlhttp://www.scopus.com/inward/record.url?scp=85021744877&partnerID=8YFLogxK
dc.language.isoeng
dc.relation.ispartofJournal of Chemical Health and Safety
dc.rightsinfo:eu-repo/semantics/openAccess
dc.subject.keywordsNanomaterials
dc.subject.keywordsNanotoxicology
dc.subject.keywordsNano-enabled products
dc.subject.keywordsAssessment
dc.subject.keywordsManagement
dc.subject.keywordsRisk profile
dc.subject.keywordsExposure assessment
dc.subject.keywordsExposure Monitoring
dc.subject.keywordsNanomaterials
dc.subject.keywordsNanotoxicology
dc.subject.keywordsNano-enabled products
dc.subject.keywordsAssessment
dc.subject.keywordsManagement
dc.subject.keywordsRisk profile
dc.subject.keywordsExposure assessment
dc.subject.keywordsExposure Monitoring
dc.subject.keywordsGeneral Chemistry
dc.subject.keywordsChemical Health and Safety
dc.subject.keywordsProject ID
dc.subject.keywordsinfo:eu-repo/grantAgreement/EC/H2020/646296/EU/Innovative High Resolution Electro-Static printing of Multifunctional Materials/HI-RESPONSE
dc.subject.keywordsinfo:eu-repo/grantAgreement/EC/H2020/691095/EU/Developing and implementation of a new generation of nanosafety assessment tools/NANOGENTOOLS
dc.subject.keywordsinfo:eu-repo/grantAgreement/EC/H2020/646296/EU/Innovative High Resolution Electro-Static printing of Multifunctional Materials/HI-RESPONSE
dc.subject.keywordsinfo:eu-repo/grantAgreement/EC/H2020/691095/EU/Developing and implementation of a new generation of nanosafety assessment tools/NANOGENTOOLS
dc.subject.keywordsFunding Info
dc.subject.keywordsThis work was supported by ongoing_x000D_ projects that received funding_x000D_ from the European Union’s Horizon_x000D_ 2020 research and innovation programme_x000D_ under grant agreement no_x000D_ 646155 (INSPIRED), grant agreement_x000D_ no 646296 (Hi-Response)_x000D_ and grant agreement no 691095_x000D_ (NANOGENTOOLS).
dc.subject.keywordsThis work was supported by ongoing_x000D_ projects that received funding_x000D_ from the European Union’s Horizon_x000D_ 2020 research and innovation programme_x000D_ under grant agreement no_x000D_ 646155 (INSPIRED), grant agreement_x000D_ no 646296 (Hi-Response)_x000D_ and grant agreement no 691095_x000D_ (NANOGENTOOLS).
dc.titleA methodology on how to create a real-life relevant risk profile for a given nanomaterialen
dc.typejournal article
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