Risk Management Framework for Nano-Biomaterials Used in Medical Devices and Advanced Therapy Medicinal Products

Risk Management Framework for Nano-Biomaterials Used in Medical Devices and Advanced Therapy Medicinal Products

The convergence of nanotechnology and biotechnology has led to substantial advancements in nano-biomaterials (NBMs) used in medical devices (MD) and advanced therapy medicinal products (ATMP). However, there are concerns that applications of NBMs for medical diagnostics, therapeutics and regenerativ...

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Main Authors: Elisa Giubilato, Virginia Cazzagon, Mónica J. B. Amorim, Magda Blosi, Jacques Bouillard, Hans Bouwmeester, Anna Luisa Costa, Bengt Fadeel, Teresa F. Fernandes, Carlos Fito, Marina Hauser, Antonio Marcomini, Bernd Nowack, Lisa Pizzol, Leagh Powell, Adriele Prina-Mello, Haralambos Sarimveis, Janeck James Scott-Fordsmand, Elena Semenzin, Burkhard Stahlmecke, Vicki Stone, Alexis Vignes, Terry Wilkins, Alex Zabeo, Lang Tran, Danail Hristozov
Format: Article
Language:English
Published: MDPI AG 2020-10-01
Series:Materials
Subjects:
risk management
nano-biomaterials
nanomedicine
medical device
life cycle
safe-by-design
Online Access:https://www.mdpi.com/1996-1944/13/20/4532
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author Elisa Giubilato
Virginia Cazzagon
Mónica J. B. Amorim
Magda Blosi
Jacques Bouillard
Hans Bouwmeester
Anna Luisa Costa
Bengt Fadeel
Teresa F. Fernandes
Carlos Fito
Marina Hauser
Antonio Marcomini
Bernd Nowack
Lisa Pizzol
Leagh Powell
Adriele Prina-Mello
Haralambos Sarimveis
Janeck James Scott-Fordsmand
Elena Semenzin
Burkhard Stahlmecke
Vicki Stone
Alexis Vignes
Terry Wilkins
Alex Zabeo
Lang Tran
Danail Hristozov
spellingShingle Elisa Giubilato
Virginia Cazzagon
Mónica J. B. Amorim
Magda Blosi
Jacques Bouillard
Hans Bouwmeester
Anna Luisa Costa
Bengt Fadeel
Teresa F. Fernandes
Carlos Fito
Marina Hauser
Antonio Marcomini
Bernd Nowack
Lisa Pizzol
Leagh Powell
Adriele Prina-Mello
Haralambos Sarimveis
Janeck James Scott-Fordsmand
Elena Semenzin
Burkhard Stahlmecke
Vicki Stone
Alexis Vignes
Terry Wilkins
Alex Zabeo
Lang Tran
Danail Hristozov
Risk Management Framework for Nano-Biomaterials Used in Medical Devices and Advanced Therapy Medicinal Products
Materials
risk management
nano-biomaterials
nanomedicine
medical device
life cycle
safe-by-design
author_facet Elisa Giubilato
Virginia Cazzagon
Mónica J. B. Amorim
Magda Blosi
Jacques Bouillard
Hans Bouwmeester
Anna Luisa Costa
Bengt Fadeel
Teresa F. Fernandes
Carlos Fito
Marina Hauser
Antonio Marcomini
Bernd Nowack
Lisa Pizzol
Leagh Powell
Adriele Prina-Mello
Haralambos Sarimveis
Janeck James Scott-Fordsmand
Elena Semenzin
Burkhard Stahlmecke
Vicki Stone
Alexis Vignes
Terry Wilkins
Alex Zabeo
Lang Tran
Danail Hristozov
author_sort Elisa Giubilato
title Risk Management Framework for Nano-Biomaterials Used in Medical Devices and Advanced Therapy Medicinal Products
title_short Risk Management Framework for Nano-Biomaterials Used in Medical Devices and Advanced Therapy Medicinal Products
title_full Risk Management Framework for Nano-Biomaterials Used in Medical Devices and Advanced Therapy Medicinal Products
title_fullStr Risk Management Framework for Nano-Biomaterials Used in Medical Devices and Advanced Therapy Medicinal Products
title_full_unstemmed Risk Management Framework for Nano-Biomaterials Used in Medical Devices and Advanced Therapy Medicinal Products
title_sort risk management framework for nano-biomaterials used in medical devices and advanced therapy medicinal products
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2020-10-01
description The convergence of nanotechnology and biotechnology has led to substantial advancements in nano-biomaterials (NBMs) used in medical devices (MD) and advanced therapy medicinal products (ATMP). However, there are concerns that applications of NBMs for medical diagnostics, therapeutics and regenerative medicine could also pose health and/or environmental risks since the current understanding of their safety is incomplete. A scientific strategy is therefore needed to assess all risks emerging along the life cycles of these products. To address this need, an overarching risk management framework (RMF) for NBMs used in MD and ATMP is presented in this paper, as a result of a collaborative effort of a team of experts within the EU Project BIORIMA and with relevant inputs from external stakeholders. The framework, in line with current regulatory requirements, is designed according to state-of-the-art approaches to risk assessment and management of both nanomaterials and biomaterials. The collection/generation of data for NBMs safety assessment is based on innovative integrated approaches to testing and assessment (IATA). The framework can support stakeholders (e.g., manufacturers, regulators, consultants) in systematically assessing not only patient safety but also occupational (including healthcare workers) and environmental risks along the life cycle of MD and ATMP. The outputs of the framework enable the user to identify suitable safe(r)-by-design alternatives and/or risk management measures and to compare the risks of NBMs to their (clinical) benefits, based on efficacy, quality and cost criteria, in order to inform robust risk management decision-making.
topic risk management
nano-biomaterials
nanomedicine
medical device
life cycle
safe-by-design
url https://www.mdpi.com/1996-1944/13/20/4532
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spelling doaj-c078cecad2bd4429a750a518c00dfabb2020-11-25T03:38:32ZengMDPI AGMaterials1996-19442020-10-01134532453210.3390/ma13204532Risk Management Framework for Nano-Biomaterials Used in Medical Devices and Advanced Therapy Medicinal ProductsElisa Giubilato0Virginia Cazzagon1Mónica J. B. Amorim2Magda Blosi3Jacques Bouillard4Hans Bouwmeester5Anna Luisa Costa6Bengt Fadeel7Teresa F. Fernandes8Carlos Fito9Marina Hauser10Antonio Marcomini11Bernd Nowack12Lisa Pizzol13Leagh Powell14Adriele Prina-Mello15Haralambos Sarimveis16Janeck James Scott-Fordsmand17Elena Semenzin18Burkhard Stahlmecke19Vicki Stone20Alexis Vignes21Terry Wilkins22Alex Zabeo23Lang Tran24Danail Hristozov25Department of Environmental Sciences, Informatics and Statistics, University Ca’ Foscari of Venice, Via Torino 155, 30172 Venice, ItalyDepartment of Environmental Sciences, Informatics and Statistics, University Ca’ Foscari of Venice, Via Torino 155, 30172 Venice, ItalyDepartment of Biology and CESAM, University of Aveiro, 3810-193 Aveiro, PortugalInstitute of Science and Technology for Ceramics, National Research Council of Italy (CNR-ISTEC), Via Granarolo 64, 48018 Faenza, ItalyInstitut National de l’Environnement industriel et des Risques, Parc Technologique ALATA, 60550 Verneuil-en-Halatte, FranceDivision of Toxicology, Wageningen University, 6708 WE Wageningen, The NetherlandsInstitute of Science and Technology for Ceramics, National Research Council of Italy (CNR-ISTEC), Via Granarolo 64, 48018 Faenza, ItalyDivision of Molecular Toxicology, Institute of Environmental Medicine, Karolinska Institutet, 171 77 Stockholm, SwedenInstitute of Life and Earth Sciences, School of Energy, Geoscience, Infrastructure and Society, Heriot-Watt University, Edinburgh EH14 4AS, UKInstituto Tecnologico del Embalaje, Transporte y Logistica, 46980 Paterna-Valencia, SpainEmpa, Swiss Federal Laboratories for Materials Science and Technology, Lerchenfeldstrasse 5, 9014 St. Gallen, SwitzerlandDepartment of Environmental Sciences, Informatics and Statistics, University Ca’ Foscari of Venice, Via Torino 155, 30172 Venice, ItalyEmpa, Swiss Federal Laboratories for Materials Science and Technology, Lerchenfeldstrasse 5, 9014 St. Gallen, SwitzerlandGreenDecision Srl, Via delle Industrie, 21/8, 30175 Venice, ItalyInstitute of Biological Chemistry, Biophysics and Bioengineering, School of Engineering and Physical Sciences, Heriot-Watt University, Edinburgh EH14 4AS, UKTrinity Translational Medicine Institute, Trinity College, The University of Dublin, Dublin 8, IrelandSchool of Chemical Engineering, National Technical University of Athens, 15780 Athens, GreeceDepartment of Bioscience, Aarhus University, 8600 Silkeborg, DenmarkDepartment of Environmental Sciences, Informatics and Statistics, University Ca’ Foscari of Venice, Via Torino 155, 30172 Venice, ItalyInstitut für Energie und Umwelttechnik e.V., 47229 Duisburg, GermanyInstitute of Biological Chemistry, Biophysics and Bioengineering, School of Engineering and Physical Sciences, Heriot-Watt University, Edinburgh EH14 4AS, UKInstitut National de l’Environnement industriel et des Risques, Parc Technologique ALATA, 60550 Verneuil-en-Halatte, FranceNanomanufacturing Institute, School of Chemical and Process Engineering, University of Leeds, Leeds LS2 9JT, UKGreenDecision Srl, Via delle Industrie, 21/8, 30175 Venice, ItalyInstitute of Occupational Medicine, Research Avenue North, Riccarton, Edinburgh EH14 4AP, UKDepartment of Environmental Sciences, Informatics and Statistics, University Ca’ Foscari of Venice, Via Torino 155, 30172 Venice, ItalyThe convergence of nanotechnology and biotechnology has led to substantial advancements in nano-biomaterials (NBMs) used in medical devices (MD) and advanced therapy medicinal products (ATMP). However, there are concerns that applications of NBMs for medical diagnostics, therapeutics and regenerative medicine could also pose health and/or environmental risks since the current understanding of their safety is incomplete. A scientific strategy is therefore needed to assess all risks emerging along the life cycles of these products. To address this need, an overarching risk management framework (RMF) for NBMs used in MD and ATMP is presented in this paper, as a result of a collaborative effort of a team of experts within the EU Project BIORIMA and with relevant inputs from external stakeholders. The framework, in line with current regulatory requirements, is designed according to state-of-the-art approaches to risk assessment and management of both nanomaterials and biomaterials. The collection/generation of data for NBMs safety assessment is based on innovative integrated approaches to testing and assessment (IATA). The framework can support stakeholders (e.g., manufacturers, regulators, consultants) in systematically assessing not only patient safety but also occupational (including healthcare workers) and environmental risks along the life cycle of MD and ATMP. The outputs of the framework enable the user to identify suitable safe(r)-by-design alternatives and/or risk management measures and to compare the risks of NBMs to their (clinical) benefits, based on efficacy, quality and cost criteria, in order to inform robust risk management decision-making.https://www.mdpi.com/1996-1944/13/20/4532risk managementnano-biomaterialsnanomedicinemedical devicelife cyclesafe-by-design

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