Quality evaluation of human and environmental toxicity studies performed with nanomaterials-the GUIDEnano approach
The European Union FP-7 project GUIDEnano developed a web-based guidance tool, which guides users to assess human and environmental risks of nanomaterial-enabled products throughout their life cycle. One of the aims in the GUIDEnano hazard assessment strategy is to derive safety limit values based on existing human toxicity and ecotoxicological studies. Clear criteria needed to be established to select studies that could be used for such purpose. In the present paper, we present an approach for a systematical and quantitative evaluation of the quality of environmental and human toxicity studies performed with nanomaterials. The approach builds upon previous initiatives and includes refinements to facilitate its application by users with limited toxicological expertise. It covers in vivo and in vitro human toxicity studies as well as ecotoxicological studies addressing the toxicity to all environmental compartments. A scoring system related to test design and reporting considerations was developed following the principles of the Klimisch score (K score). In addition, the approach includes a scoring system based on the physicochemical properties that have been characterized and reported for the nanomaterial, including properties characterized in the exposure medium (S score). These two scores (K and S) are combined to obtain an overall quality score (Q score) that can be used to select studies, to weight different studies, and/or to introduce uncertainty factors in the risk assessment process. During its development, the approach has been tested and refined with 137 peer-reviewed articles. The final quality assessment approach and the results of its evaluation are presented here.
Saved in:
| Main Authors: | , , , , , , , , , , , , , |
|---|---|
| Format: | artículo biblioteca |
| Language: | English |
| Published: |
Royal Society of Chemistry (UK)
2018
|
| Online Access: | http://hdl.handle.net/10261/291455 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| id |
dig-inia-es-10261-291455 |
|---|---|
| record_format |
koha |
| spelling |
dig-inia-es-10261-2914552023-10-02T12:07:20Z Quality evaluation of human and environmental toxicity studies performed with nanomaterials-the GUIDEnano approach Fernández-Cruz, M. L. Hernández Moreno, David Catalán, Jaime Cross, R. K. Stockmann-Juvala, H. Cabellos, J. Lopes, V. R. Matzke, M. Ferraz, N. Izquierdo, J. J. Navas Antón, José María Park, M. Svendsen, C. Janer, G. The European Union FP-7 project GUIDEnano developed a web-based guidance tool, which guides users to assess human and environmental risks of nanomaterial-enabled products throughout their life cycle. One of the aims in the GUIDEnano hazard assessment strategy is to derive safety limit values based on existing human toxicity and ecotoxicological studies. Clear criteria needed to be established to select studies that could be used for such purpose. In the present paper, we present an approach for a systematical and quantitative evaluation of the quality of environmental and human toxicity studies performed with nanomaterials. The approach builds upon previous initiatives and includes refinements to facilitate its application by users with limited toxicological expertise. It covers in vivo and in vitro human toxicity studies as well as ecotoxicological studies addressing the toxicity to all environmental compartments. A scoring system related to test design and reporting considerations was developed following the principles of the Klimisch score (K score). In addition, the approach includes a scoring system based on the physicochemical properties that have been characterized and reported for the nanomaterial, including properties characterized in the exposure medium (S score). These two scores (K and S) are combined to obtain an overall quality score (Q score) that can be used to select studies, to weight different studies, and/or to introduce uncertainty factors in the risk assessment process. During its development, the approach has been tested and refined with 137 peer-reviewed articles. The final quality assessment approach and the results of its evaluation are presented here. 2023-02-20T07:18:21Z 2023-02-20T07:18:21Z 2018 artículo http://purl.org/coar/resource_type/c_6501 Environmental Science: Nano 5: 381-397 (2018) 2051-8153 http://hdl.handle.net/10261/291455 10.1039/c7en00716g 2051-8161 en Departamento de Medio Ambiente y Agronomía Sí none Royal Society of Chemistry (UK) |
| institution |
INIA ES |
| collection |
DSpace |
| country |
España |
| countrycode |
ES |
| component |
Bibliográfico |
| access |
En linea |
| databasecode |
dig-inia-es |
| tag |
biblioteca |
| region |
Europa del Sur |
| libraryname |
Biblioteca del INIA España |
| language |
English |
| description |
The European Union FP-7 project GUIDEnano developed a web-based guidance tool, which guides users to assess human and environmental risks of nanomaterial-enabled products throughout their life cycle. One of the aims in the GUIDEnano hazard assessment strategy is to derive safety limit values based on existing human toxicity and ecotoxicological studies. Clear criteria needed to be established to select studies that could be used for such purpose. In the present paper, we present an approach for a systematical and quantitative evaluation of the quality of environmental and human toxicity studies performed with nanomaterials. The approach builds upon previous initiatives and includes refinements to facilitate its application by users with limited toxicological expertise. It covers in vivo and in vitro human toxicity studies as well as ecotoxicological studies addressing the toxicity to all environmental compartments. A scoring system related to test design and reporting considerations was developed following the principles of the Klimisch score (K score). In addition, the approach includes a scoring system based on the physicochemical properties that have been characterized and reported for the nanomaterial, including properties characterized in the exposure medium (S score). These two scores (K and S) are combined to obtain an overall quality score (Q score) that can be used to select studies, to weight different studies, and/or to introduce uncertainty factors in the risk assessment process. During its development, the approach has been tested and refined with 137 peer-reviewed articles. The final quality assessment approach and the results of its evaluation are presented here. |
| format |
artículo |
| author |
Fernández-Cruz, M. L. Hernández Moreno, David Catalán, Jaime Cross, R. K. Stockmann-Juvala, H. Cabellos, J. Lopes, V. R. Matzke, M. Ferraz, N. Izquierdo, J. J. Navas Antón, José María Park, M. Svendsen, C. Janer, G. |
| spellingShingle |
Fernández-Cruz, M. L. Hernández Moreno, David Catalán, Jaime Cross, R. K. Stockmann-Juvala, H. Cabellos, J. Lopes, V. R. Matzke, M. Ferraz, N. Izquierdo, J. J. Navas Antón, José María Park, M. Svendsen, C. Janer, G. Quality evaluation of human and environmental toxicity studies performed with nanomaterials-the GUIDEnano approach |
| author_facet |
Fernández-Cruz, M. L. Hernández Moreno, David Catalán, Jaime Cross, R. K. Stockmann-Juvala, H. Cabellos, J. Lopes, V. R. Matzke, M. Ferraz, N. Izquierdo, J. J. Navas Antón, José María Park, M. Svendsen, C. Janer, G. |
| author_sort |
Fernández-Cruz, M. L. |
| title |
Quality evaluation of human and environmental toxicity studies performed with nanomaterials-the GUIDEnano approach |
| title_short |
Quality evaluation of human and environmental toxicity studies performed with nanomaterials-the GUIDEnano approach |
| title_full |
Quality evaluation of human and environmental toxicity studies performed with nanomaterials-the GUIDEnano approach |
| title_fullStr |
Quality evaluation of human and environmental toxicity studies performed with nanomaterials-the GUIDEnano approach |
| title_full_unstemmed |
Quality evaluation of human and environmental toxicity studies performed with nanomaterials-the GUIDEnano approach |
| title_sort |
quality evaluation of human and environmental toxicity studies performed with nanomaterials-the guidenano approach |
| publisher |
Royal Society of Chemistry (UK) |
| publishDate |
2018 |
| url |
http://hdl.handle.net/10261/291455 |
| work_keys_str_mv |
AT fernandezcruzml qualityevaluationofhumanandenvironmentaltoxicitystudiesperformedwithnanomaterialstheguidenanoapproach AT hernandezmorenodavid qualityevaluationofhumanandenvironmentaltoxicitystudiesperformedwithnanomaterialstheguidenanoapproach AT catalanjaime qualityevaluationofhumanandenvironmentaltoxicitystudiesperformedwithnanomaterialstheguidenanoapproach AT crossrk qualityevaluationofhumanandenvironmentaltoxicitystudiesperformedwithnanomaterialstheguidenanoapproach AT stockmannjuvalah qualityevaluationofhumanandenvironmentaltoxicitystudiesperformedwithnanomaterialstheguidenanoapproach AT cabellosj qualityevaluationofhumanandenvironmentaltoxicitystudiesperformedwithnanomaterialstheguidenanoapproach AT lopesvr qualityevaluationofhumanandenvironmentaltoxicitystudiesperformedwithnanomaterialstheguidenanoapproach AT matzkem qualityevaluationofhumanandenvironmentaltoxicitystudiesperformedwithnanomaterialstheguidenanoapproach AT ferrazn qualityevaluationofhumanandenvironmentaltoxicitystudiesperformedwithnanomaterialstheguidenanoapproach AT izquierdojj qualityevaluationofhumanandenvironmentaltoxicitystudiesperformedwithnanomaterialstheguidenanoapproach AT navasantonjosemaria qualityevaluationofhumanandenvironmentaltoxicitystudiesperformedwithnanomaterialstheguidenanoapproach AT parkm qualityevaluationofhumanandenvironmentaltoxicitystudiesperformedwithnanomaterialstheguidenanoapproach AT svendsenc qualityevaluationofhumanandenvironmentaltoxicitystudiesperformedwithnanomaterialstheguidenanoapproach AT janerg qualityevaluationofhumanandenvironmentaltoxicitystudiesperformedwithnanomaterialstheguidenanoapproach |
| _version_ |
1781881149621010432 |