Semantic modelling of common data elements for rare disease registries, and a prototype workflow for their deployment over registry data

R. Kaliyaperumal; M.D. Wilkinson; P.A. Moreno; N. Benis; R. Cornet; B.D. Vieira; M. Dumontier; C.H. Bernabe; A. Jacobsen; C.M.A. Le Cornec; M.P. Godoy; N. Queralt-Rosinach; L.J.S. Kool; M.A. Swertz; P. van Damme; K.J. van der Velde; N. Lalout; S.X. Zhang; M. Roos

doi:10.1186/s13326-022-00264-6

Semantic modelling of common data elements for rare disease registries, and a prototype workflow for their deployment over registry data

R. Kaliyaperumal, M.D. Wilkinson^*, P.A. Moreno, N. Benis, R. Cornet, B.D. Vieira, M. Dumontier, C.H. Bernabe, A. Jacobsen, C.M.A. Le Cornec, M.P. Godoy, N. Queralt-Rosinach, L.J.S. Kool, M.A. Swertz, P. van Damme, K.J. van der Velde, N. Lalout, S.X. Zhang, M. Roos

^*Corresponding author for this work

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

Abstract

Background The European Platform on Rare Disease Registration (EU RD Platform) aims to address the fragmentation of European rare disease (RD) patient data, scattered among hundreds of independent and non-coordinating registries, by establishing standards for integration and interoperability. The first practical output of this effort was a set of 16 Common Data Elements (CDEs) that should be implemented by all RD registries. Interoperability, however, requires decisions beyond data elements - including data models, formats, and semantics. Within the European Joint Programme on Rare Diseases (EJP RD), we aim to further the goals of the EU RD Platform by generating reusable RD semantic model templates that follow the FAIR Data Principles. Results Through a team-based iterative approach, we created semantically grounded models to represent each of the CDEs, using the SemanticScience Integrated Ontology as the core framework for representing the entities and their relationships. Within that framework, we mapped the concepts represented in the CDEs, and their possible values, into domain ontologies such as the Orphanet Rare Disease Ontology, Human Phenotype Ontology and National Cancer Institute Thesaurus. Finally, we created an exemplar, reusable ETL pipeline that we will be deploying over these non-coordinating data repositories to assist them in creating model-compliant FAIR data without requiring site-specific coding nor expertise in Linked Data or FAIR. Conclusions Within the EJP RD project, we determined that creating reusable, expert-designed templates reduced or eliminated the requirement for our participating biomedical domain experts and rare disease data hosts to understand OWL semantics. This enabled them to publish highly expressive FAIR data using tools and approaches that were already familiar to them.

Original language	English
Article number	9
Number of pages	16
Journal	Journal of biomedical semantics
Volume	13
Issue number	1
DOIs	https://doi.org/10.1186/s13326-022-00264-6
Publication status	Published - 15 Mar 2022

Keywords

FAIR data
Rare disease
Interoperability
Linked data
Data transformation
Semantic web
Ontologies
Common data elements
Disease registries

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Cite this

Kaliyaperumal, R., Wilkinson, M. D., Moreno, P. A., Benis, N., Cornet, R., Vieira, B. D., Dumontier, M., Bernabe, C. H., Jacobsen, A., Le Cornec, C. M. A., Godoy, M. P., Queralt-Rosinach, N., Kool, L. J. S., Swertz, M. A., van Damme, P., van der Velde, K. J., Lalout, N., Zhang, S. X., & Roos, M. (2022). Semantic modelling of common data elements for rare disease registries, and a prototype workflow for their deployment over registry data. Journal of biomedical semantics, 13(1), Article 9. https://doi.org/10.1186/s13326-022-00264-6

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title = "Semantic modelling of common data elements for rare disease registries, and a prototype workflow for their deployment over registry data",

abstract = "Background The European Platform on Rare Disease Registration (EU RD Platform) aims to address the fragmentation of European rare disease (RD) patient data, scattered among hundreds of independent and non-coordinating registries, by establishing standards for integration and interoperability. The first practical output of this effort was a set of 16 Common Data Elements (CDEs) that should be implemented by all RD registries. Interoperability, however, requires decisions beyond data elements - including data models, formats, and semantics. Within the European Joint Programme on Rare Diseases (EJP RD), we aim to further the goals of the EU RD Platform by generating reusable RD semantic model templates that follow the FAIR Data Principles. Results Through a team-based iterative approach, we created semantically grounded models to represent each of the CDEs, using the SemanticScience Integrated Ontology as the core framework for representing the entities and their relationships. Within that framework, we mapped the concepts represented in the CDEs, and their possible values, into domain ontologies such as the Orphanet Rare Disease Ontology, Human Phenotype Ontology and National Cancer Institute Thesaurus. Finally, we created an exemplar, reusable ETL pipeline that we will be deploying over these non-coordinating data repositories to assist them in creating model-compliant FAIR data without requiring site-specific coding nor expertise in Linked Data or FAIR. Conclusions Within the EJP RD project, we determined that creating reusable, expert-designed templates reduced or eliminated the requirement for our participating biomedical domain experts and rare disease data hosts to understand OWL semantics. This enabled them to publish highly expressive FAIR data using tools and approaches that were already familiar to them.",

keywords = "FAIR data, Rare disease, Interoperability, Linked data, Data transformation, Semantic web, Ontologies, Common data elements, Disease registries",

author = "R. Kaliyaperumal and M.D. Wilkinson and P.A. Moreno and N. Benis and R. Cornet and B.D. Vieira and M. Dumontier and C.H. Bernabe and A. Jacobsen and {Le Cornec}, C.M.A. and M.P. Godoy and N. Queralt-Rosinach and L.J.S. Kool and M.A. Swertz and {van Damme}, P. and {van der Velde}, K.J. and N. Lalout and S.X. Zhang and M. Roos",

note = "Funding Information: All authors with the exception of MD are supported by the funding from the European Union{\textquoteright}s Horizon 2020 research and innovation programme under the EJP RD COFUND-EJP N° 825575. Funding for MD is provided by the European Union{\textquoteright}s Horizon 2020 research and innovation programme under grant agreement N° 824087. Funding Information: We would like to express our gratitude to the Duchenne Parent Project in the Netherlands for allowing the code for portions of their FAIR transformation solution to be open source and included in the CDE in a Box. This solution was specifically commissioned and developed for their patient-led registry - The Duchenne Data Platform - which had undergone a FAIRification process in 2021. Their generosity stems from their continuous belief in FAIR as a new paradigm for optimising data visiting and analysis and as a result, pledged to support others in their own FAIR data endeavours. We thank Foundation 29, the software developers of the Duchenne Data Platform, for their technical expertise and positive collaboration during the development of the Duchenne FAIR project. We furthermore wish to thank Leo Schultze Kool for helping us start the CDE modelling process for the FAIRification of the VASCA registry, his support for FAIR implementation of registries, and valuable feedback on the interpretation of CDEs from a clinical perspective, and Peter-Bram ?t Hoen for his continuous active support of our efforts. Finally, the authors acknowledge the support of Ana Rath and Franz Schaefer in the development of a conceptual framework for the EJP RD Virtual Platform. Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = mar,

day = "15",

doi = "10.1186/s13326-022-00264-6",

language = "English",

volume = "13",

journal = "Journal of biomedical semantics",

issn = "2041-1480",

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Kaliyaperumal, R, Wilkinson, MD, Moreno, PA, Benis, N, Cornet, R, Vieira, BD, Dumontier, M, Bernabe, CH, Jacobsen, A, Le Cornec, CMA, Godoy, MP, Queralt-Rosinach, N, Kool, LJS, Swertz, MA, van Damme, P, van der Velde, KJ, Lalout, N, Zhang, SX & Roos, M 2022, 'Semantic modelling of common data elements for rare disease registries, and a prototype workflow for their deployment over registry data', Journal of biomedical semantics, vol. 13, no. 1, 9. https://doi.org/10.1186/s13326-022-00264-6

TY - JOUR

T1 - Semantic modelling of common data elements for rare disease registries, and a prototype workflow for their deployment over registry data

AU - Kaliyaperumal, R.

AU - Wilkinson, M.D.

AU - Moreno, P.A.

AU - Benis, N.

AU - Cornet, R.

AU - Vieira, B.D.

AU - Dumontier, M.

AU - Bernabe, C.H.

AU - Jacobsen, A.

AU - Le Cornec, C.M.A.

AU - Godoy, M.P.

AU - Queralt-Rosinach, N.

AU - Kool, L.J.S.

AU - Swertz, M.A.

AU - van Damme, P.

AU - van der Velde, K.J.

AU - Lalout, N.

AU - Zhang, S.X.

AU - Roos, M.

N1 - Funding Information: All authors with the exception of MD are supported by the funding from the European Union’s Horizon 2020 research and innovation programme under the EJP RD COFUND-EJP N° 825575. Funding for MD is provided by the European Union’s Horizon 2020 research and innovation programme under grant agreement N° 824087. Funding Information: We would like to express our gratitude to the Duchenne Parent Project in the Netherlands for allowing the code for portions of their FAIR transformation solution to be open source and included in the CDE in a Box. This solution was specifically commissioned and developed for their patient-led registry - The Duchenne Data Platform - which had undergone a FAIRification process in 2021. Their generosity stems from their continuous belief in FAIR as a new paradigm for optimising data visiting and analysis and as a result, pledged to support others in their own FAIR data endeavours. We thank Foundation 29, the software developers of the Duchenne Data Platform, for their technical expertise and positive collaboration during the development of the Duchenne FAIR project. We furthermore wish to thank Leo Schultze Kool for helping us start the CDE modelling process for the FAIRification of the VASCA registry, his support for FAIR implementation of registries, and valuable feedback on the interpretation of CDEs from a clinical perspective, and Peter-Bram ?t Hoen for his continuous active support of our efforts. Finally, the authors acknowledge the support of Ana Rath and Franz Schaefer in the development of a conceptual framework for the EJP RD Virtual Platform. Publisher Copyright: © 2022, The Author(s).

PY - 2022/3/15

Y1 - 2022/3/15

N2 - Background The European Platform on Rare Disease Registration (EU RD Platform) aims to address the fragmentation of European rare disease (RD) patient data, scattered among hundreds of independent and non-coordinating registries, by establishing standards for integration and interoperability. The first practical output of this effort was a set of 16 Common Data Elements (CDEs) that should be implemented by all RD registries. Interoperability, however, requires decisions beyond data elements - including data models, formats, and semantics. Within the European Joint Programme on Rare Diseases (EJP RD), we aim to further the goals of the EU RD Platform by generating reusable RD semantic model templates that follow the FAIR Data Principles. Results Through a team-based iterative approach, we created semantically grounded models to represent each of the CDEs, using the SemanticScience Integrated Ontology as the core framework for representing the entities and their relationships. Within that framework, we mapped the concepts represented in the CDEs, and their possible values, into domain ontologies such as the Orphanet Rare Disease Ontology, Human Phenotype Ontology and National Cancer Institute Thesaurus. Finally, we created an exemplar, reusable ETL pipeline that we will be deploying over these non-coordinating data repositories to assist them in creating model-compliant FAIR data without requiring site-specific coding nor expertise in Linked Data or FAIR. Conclusions Within the EJP RD project, we determined that creating reusable, expert-designed templates reduced or eliminated the requirement for our participating biomedical domain experts and rare disease data hosts to understand OWL semantics. This enabled them to publish highly expressive FAIR data using tools and approaches that were already familiar to them.

AB - Background The European Platform on Rare Disease Registration (EU RD Platform) aims to address the fragmentation of European rare disease (RD) patient data, scattered among hundreds of independent and non-coordinating registries, by establishing standards for integration and interoperability. The first practical output of this effort was a set of 16 Common Data Elements (CDEs) that should be implemented by all RD registries. Interoperability, however, requires decisions beyond data elements - including data models, formats, and semantics. Within the European Joint Programme on Rare Diseases (EJP RD), we aim to further the goals of the EU RD Platform by generating reusable RD semantic model templates that follow the FAIR Data Principles. Results Through a team-based iterative approach, we created semantically grounded models to represent each of the CDEs, using the SemanticScience Integrated Ontology as the core framework for representing the entities and their relationships. Within that framework, we mapped the concepts represented in the CDEs, and their possible values, into domain ontologies such as the Orphanet Rare Disease Ontology, Human Phenotype Ontology and National Cancer Institute Thesaurus. Finally, we created an exemplar, reusable ETL pipeline that we will be deploying over these non-coordinating data repositories to assist them in creating model-compliant FAIR data without requiring site-specific coding nor expertise in Linked Data or FAIR. Conclusions Within the EJP RD project, we determined that creating reusable, expert-designed templates reduced or eliminated the requirement for our participating biomedical domain experts and rare disease data hosts to understand OWL semantics. This enabled them to publish highly expressive FAIR data using tools and approaches that were already familiar to them.

KW - FAIR data

KW - Rare disease

KW - Interoperability

KW - Linked data

KW - Data transformation

KW - Semantic web

KW - Ontologies

KW - Common data elements

KW - Disease registries

U2 - 10.1186/s13326-022-00264-6

DO - 10.1186/s13326-022-00264-6

M3 - Article

C2 - 35292119

SN - 2041-1480

VL - 13

JO - Journal of biomedical semantics

JF - Journal of biomedical semantics

IS - 1

M1 - 9

ER -