A human biomonitoring (HBM) Global Registry Framework: Further advancement of HBM research following the FAIR principles

Maryam Zare Jeddi; Ana Virgolino; Peter Fantke; Nancy B. Hopf; Karen S. Galea; Sylvie Remy; Susana Viegas; Vicente Mustieles; Mariana F. Fernandez; Natalie von Goetz; Joana Lobo Vicente; Jaroslav Slobodnik; Loïc Rambaud; Sébastien Denys; Annie St-Amand; Shoji F. Nakayama; Tiina Santonen; Robert Barouki; Robert Pasanen-Kase; Hans G.J. Mol; Theo Vermeire; Kate Jones; Maria João Silva; Henriqueta Louro; Hilko van der Voet; Radu Corneliu Duca; Hans Verhagen; Cristina Canova; Jacob van Klaveren; Marike Kolossa-Gehring; Jos Bessems

doi:10.1016/j.ijheh.2021.113826

A human biomonitoring (HBM) Global Registry Framework: Further advancement of HBM research following the FAIR principles

Maryam Zare Jeddi^*, Ana Virgolino, Peter Fantke, Nancy B. Hopf, Karen S. Galea, Sylvie Remy, Susana Viegas, Vicente Mustieles, Mariana F. Fernandez, Natalie von Goetz, Joana Lobo Vicente, Jaroslav Slobodnik, Loïc Rambaud, Sébastien Denys, Annie St-Amand, Shoji F. Nakayama, Tiina Santonen, Robert Barouki, Robert Pasanen-Kase, Hans G.J. MolTheo Vermeire, Kate Jones, Maria João Silva, Henriqueta Louro, Hilko van der Voet, Radu Corneliu Duca, Hans Verhagen, Cristina Canova, Jacob van Klaveren, Marike Kolossa-Gehring, Jos Bessems

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

9 Citations (Scopus)

Abstract

Data generated by the rapidly evolving human biomonitoring (HBM) programmes are providing invaluable opportunities to support and advance regulatory risk assessment and management of chemicals in occupational and environmental health domains. However, heterogeneity across studies, in terms of design, terminology, biomarker nomenclature, and data formats, limits our capacity to compare and integrate data sets retrospectively (reuse). Registration of HBM studies is common for clinical trials; however, the study designs and resulting data collections cannot be traced easily. We argue that an HBM Global Registry Framework (HBM GRF) could be the solution to several of challenges hampering the (re)use of HBM (meta)data. The aim is to develop a global, host-independent HBM registry framework based on the use of harmonised open-access protocol templates from designing, undertaking of an HBM study to the use and possible reuse of the resulting HBM (meta)data. This framework should apply FAIR (Findable, Accessible, Interoperable and Reusable) principles as a core data management strategy to enable the (re)use of HBM (meta)data to its full potential through the data value chain. Moreover, we believe that implementation of FAIR principles is a fundamental enabler for digital transformation within environmental health. The HBM GRF would encompass internationally harmonised and agreed open access templates for HBM study protocols, structured web-based functionalities to deposit, find, and access harmonised protocols of HBM studies. Registration of HBM studies using the HBM GRF is anticipated to increase FAIRness of the resulting (meta)data. It is also considered that harmonisation of existing data sets could be performed retrospectively. As a consequence, data wrangling activities to make data ready for analysis will be minimised. In addition, this framework would enable the HBM (inter)national community to trace new HBM studies already in the planning phase and their results once finalised. The HBM GRF could also serve as a platform enhancing communication between scientists, risk assessors, and risk managers/policy makers. The planned European Partnership for the Assessment of Risk from Chemicals (PARC) work along these lines, based on the experience obtained in previous joint European initiatives. Therefore, PARC could very well bring a first demonstration of first essential functionalities within the development of the HBM GRF.

Original language	English
Article number	113826
Journal	International Journal of Hygiene and Environmental Health
Volume	238
DOIs	https://doi.org/10.1016/j.ijheh.2021.113826
Publication status	Published - Sep 2021

Keywords

Data governance
Data value chain
Harmonisation
Human biomonitoring
Registry
Regulatory risk assessment

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1016/j.ijheh.2021.113826Licence: CC BY

https://edepot.wur.nl/555086Licence: CC BY

HBM4EU: European Human Biomonitoring Initiative
1/01/17 → 30/06/22
Project: EU research project

Cite this

Zare Jeddi, M., Virgolino, A., Fantke, P., Hopf, N. B., Galea, K. S., Remy, S., Viegas, S., Mustieles, V., Fernandez, M. F., von Goetz, N., Vicente, J. L., Slobodnik, J., Rambaud, L., Denys, S., St-Amand, A., Nakayama, S. F., Santonen, T., Barouki, R., Pasanen-Kase, R., ... Bessems, J. (2021). A human biomonitoring (HBM) Global Registry Framework: Further advancement of HBM research following the FAIR principles. International Journal of Hygiene and Environmental Health, 238, [113826]. https://doi.org/10.1016/j.ijheh.2021.113826

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title = "A human biomonitoring (HBM) Global Registry Framework: Further advancement of HBM research following the FAIR principles",

abstract = "Data generated by the rapidly evolving human biomonitoring (HBM) programmes are providing invaluable opportunities to support and advance regulatory risk assessment and management of chemicals in occupational and environmental health domains. However, heterogeneity across studies, in terms of design, terminology, biomarker nomenclature, and data formats, limits our capacity to compare and integrate data sets retrospectively (reuse). Registration of HBM studies is common for clinical trials; however, the study designs and resulting data collections cannot be traced easily. We argue that an HBM Global Registry Framework (HBM GRF) could be the solution to several of challenges hampering the (re)use of HBM (meta)data. The aim is to develop a global, host-independent HBM registry framework based on the use of harmonised open-access protocol templates from designing, undertaking of an HBM study to the use and possible reuse of the resulting HBM (meta)data. This framework should apply FAIR (Findable, Accessible, Interoperable and Reusable) principles as a core data management strategy to enable the (re)use of HBM (meta)data to its full potential through the data value chain. Moreover, we believe that implementation of FAIR principles is a fundamental enabler for digital transformation within environmental health. The HBM GRF would encompass internationally harmonised and agreed open access templates for HBM study protocols, structured web-based functionalities to deposit, find, and access harmonised protocols of HBM studies. Registration of HBM studies using the HBM GRF is anticipated to increase FAIRness of the resulting (meta)data. It is also considered that harmonisation of existing data sets could be performed retrospectively. As a consequence, data wrangling activities to make data ready for analysis will be minimised. In addition, this framework would enable the HBM (inter)national community to trace new HBM studies already in the planning phase and their results once finalised. The HBM GRF could also serve as a platform enhancing communication between scientists, risk assessors, and risk managers/policy makers. The planned European Partnership for the Assessment of Risk from Chemicals (PARC) work along these lines, based on the experience obtained in previous joint European initiatives. Therefore, PARC could very well bring a first demonstration of first essential functionalities within the development of the HBM GRF.",

keywords = "Data governance, Data value chain, Harmonisation, Human biomonitoring, Registry, Regulatory risk assessment",

author = "{Zare Jeddi}, Maryam and Ana Virgolino and Peter Fantke and Hopf, {Nancy B.} and Galea, {Karen S.} and Sylvie Remy and Susana Viegas and Vicente Mustieles and Fernandez, {Mariana F.} and {von Goetz}, Natalie and Vicente, {Joana Lobo} and Jaroslav Slobodnik and Lo{\"i}c Rambaud and S{\'e}bastien Denys and Annie St-Amand and Nakayama, {Shoji F.} and Tiina Santonen and Robert Barouki and Robert Pasanen-Kase and Mol, {Hans G.J.} and Theo Vermeire and Kate Jones and Silva, {Maria Jo{\~a}o} and Henriqueta Louro and {van der Voet}, Hilko and Duca, {Radu Corneliu} and Hans Verhagen and Cristina Canova and {van Klaveren}, Jacob and Marike Kolossa-Gehring and Jos Bessems",

note = "Publisher Copyright: {\textcopyright} 2021",

year = "2021",

month = sep,

doi = "10.1016/j.ijheh.2021.113826",

language = "English",

volume = "238",

journal = "International Journal of Hygiene and Environmental Health",

issn = "1438-4639",

publisher = "Elsevier",

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Zare Jeddi, M, Virgolino, A, Fantke, P, Hopf, NB, Galea, KS, Remy, S, Viegas, S, Mustieles, V, Fernandez, MF, von Goetz, N, Vicente, JL, Slobodnik, J, Rambaud, L, Denys, S, St-Amand, A, Nakayama, SF, Santonen, T, Barouki, R, Pasanen-Kase, R, Mol, HGJ, Vermeire, T, Jones, K, Silva, MJ, Louro, H, van der Voet, H, Duca, RC, Verhagen, H, Canova, C, van Klaveren, J, Kolossa-Gehring, M & Bessems, J 2021, 'A human biomonitoring (HBM) Global Registry Framework: Further advancement of HBM research following the FAIR principles', International Journal of Hygiene and Environmental Health, vol. 238, 113826. https://doi.org/10.1016/j.ijheh.2021.113826

TY - JOUR

T1 - A human biomonitoring (HBM) Global Registry Framework

T2 - Further advancement of HBM research following the FAIR principles

AU - Zare Jeddi, Maryam

AU - Virgolino, Ana

AU - Fantke, Peter

AU - Hopf, Nancy B.

AU - Galea, Karen S.

AU - Remy, Sylvie

AU - Viegas, Susana

AU - Mustieles, Vicente

AU - Fernandez, Mariana F.

AU - von Goetz, Natalie

AU - Vicente, Joana Lobo

AU - Slobodnik, Jaroslav

AU - Rambaud, Loïc

AU - Denys, Sébastien

AU - St-Amand, Annie

AU - Nakayama, Shoji F.

AU - Santonen, Tiina

AU - Barouki, Robert

AU - Pasanen-Kase, Robert

AU - Mol, Hans G.J.

AU - Vermeire, Theo

AU - Jones, Kate

AU - Silva, Maria João

AU - Louro, Henriqueta

AU - van der Voet, Hilko

AU - Duca, Radu Corneliu

AU - Verhagen, Hans

AU - Canova, Cristina

AU - van Klaveren, Jacob

AU - Kolossa-Gehring, Marike

AU - Bessems, Jos

PY - 2021/9

Y1 - 2021/9

N2 - Data generated by the rapidly evolving human biomonitoring (HBM) programmes are providing invaluable opportunities to support and advance regulatory risk assessment and management of chemicals in occupational and environmental health domains. However, heterogeneity across studies, in terms of design, terminology, biomarker nomenclature, and data formats, limits our capacity to compare and integrate data sets retrospectively (reuse). Registration of HBM studies is common for clinical trials; however, the study designs and resulting data collections cannot be traced easily. We argue that an HBM Global Registry Framework (HBM GRF) could be the solution to several of challenges hampering the (re)use of HBM (meta)data. The aim is to develop a global, host-independent HBM registry framework based on the use of harmonised open-access protocol templates from designing, undertaking of an HBM study to the use and possible reuse of the resulting HBM (meta)data. This framework should apply FAIR (Findable, Accessible, Interoperable and Reusable) principles as a core data management strategy to enable the (re)use of HBM (meta)data to its full potential through the data value chain. Moreover, we believe that implementation of FAIR principles is a fundamental enabler for digital transformation within environmental health. The HBM GRF would encompass internationally harmonised and agreed open access templates for HBM study protocols, structured web-based functionalities to deposit, find, and access harmonised protocols of HBM studies. Registration of HBM studies using the HBM GRF is anticipated to increase FAIRness of the resulting (meta)data. It is also considered that harmonisation of existing data sets could be performed retrospectively. As a consequence, data wrangling activities to make data ready for analysis will be minimised. In addition, this framework would enable the HBM (inter)national community to trace new HBM studies already in the planning phase and their results once finalised. The HBM GRF could also serve as a platform enhancing communication between scientists, risk assessors, and risk managers/policy makers. The planned European Partnership for the Assessment of Risk from Chemicals (PARC) work along these lines, based on the experience obtained in previous joint European initiatives. Therefore, PARC could very well bring a first demonstration of first essential functionalities within the development of the HBM GRF.

AB - Data generated by the rapidly evolving human biomonitoring (HBM) programmes are providing invaluable opportunities to support and advance regulatory risk assessment and management of chemicals in occupational and environmental health domains. However, heterogeneity across studies, in terms of design, terminology, biomarker nomenclature, and data formats, limits our capacity to compare and integrate data sets retrospectively (reuse). Registration of HBM studies is common for clinical trials; however, the study designs and resulting data collections cannot be traced easily. We argue that an HBM Global Registry Framework (HBM GRF) could be the solution to several of challenges hampering the (re)use of HBM (meta)data. The aim is to develop a global, host-independent HBM registry framework based on the use of harmonised open-access protocol templates from designing, undertaking of an HBM study to the use and possible reuse of the resulting HBM (meta)data. This framework should apply FAIR (Findable, Accessible, Interoperable and Reusable) principles as a core data management strategy to enable the (re)use of HBM (meta)data to its full potential through the data value chain. Moreover, we believe that implementation of FAIR principles is a fundamental enabler for digital transformation within environmental health. The HBM GRF would encompass internationally harmonised and agreed open access templates for HBM study protocols, structured web-based functionalities to deposit, find, and access harmonised protocols of HBM studies. Registration of HBM studies using the HBM GRF is anticipated to increase FAIRness of the resulting (meta)data. It is also considered that harmonisation of existing data sets could be performed retrospectively. As a consequence, data wrangling activities to make data ready for analysis will be minimised. In addition, this framework would enable the HBM (inter)national community to trace new HBM studies already in the planning phase and their results once finalised. The HBM GRF could also serve as a platform enhancing communication between scientists, risk assessors, and risk managers/policy makers. The planned European Partnership for the Assessment of Risk from Chemicals (PARC) work along these lines, based on the experience obtained in previous joint European initiatives. Therefore, PARC could very well bring a first demonstration of first essential functionalities within the development of the HBM GRF.

KW - Data governance

KW - Data value chain

KW - Harmonisation

KW - Human biomonitoring

KW - Registry

KW - Regulatory risk assessment

U2 - 10.1016/j.ijheh.2021.113826

DO - 10.1016/j.ijheh.2021.113826

M3 - Article

AN - SCOPUS:85115793604

VL - 238

JO - International Journal of Hygiene and Environmental Health

JF - International Journal of Hygiene and Environmental Health

SN - 1438-4639

M1 - 113826

ER -

A human biomonitoring (HBM) Global Registry Framework: Further advancement of HBM research following the FAIR principles

Abstract

Keywords

UN SDGs

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Projects

HBM4EU: European Human Biomonitoring Initiative

Cite this