Cargando…
A Standardized Clinical Data Harmonization Pipeline for Scalable AI Application Deployment (FHIR-DHP): Validation and Usability Study
BACKGROUND: Increasing digitalization in the medical domain gives rise to large amounts of health care data, which has the potential to expand clinical knowledge and transform patient care if leveraged through artificial intelligence (AI). Yet, big data and AI oftentimes cannot unlock their full pot...
| Autores principales: | , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
JMIR Publications
2023
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10131740/ https://www.ncbi.nlm.nih.gov/pubmed/36943344 http://dx.doi.org/10.2196/43847 |
| _version_ | 1785031242500014080 |
|---|---|
| author | Williams, Elena Kienast, Manuel Medawar, Evelyn Reinelt, Janis Merola, Alberto Klopfenstein, Sophie Anne Ines Flint, Anne Rike Heeren, Patrick Poncette, Akira-Sebastian Balzer, Felix Beimes, Julian von Bünau, Paul Chromik, Jonas Arnrich, Bert Scherf, Nico Niehaus, Sebastian |
| author_facet | Williams, Elena Kienast, Manuel Medawar, Evelyn Reinelt, Janis Merola, Alberto Klopfenstein, Sophie Anne Ines Flint, Anne Rike Heeren, Patrick Poncette, Akira-Sebastian Balzer, Felix Beimes, Julian von Bünau, Paul Chromik, Jonas Arnrich, Bert Scherf, Nico Niehaus, Sebastian |
| author_sort | Williams, Elena |
| collection | PubMed |
| description | BACKGROUND: Increasing digitalization in the medical domain gives rise to large amounts of health care data, which has the potential to expand clinical knowledge and transform patient care if leveraged through artificial intelligence (AI). Yet, big data and AI oftentimes cannot unlock their full potential at scale, owing to nonstandardized data formats, lack of technical and semantic data interoperability, and limited cooperation between stakeholders in the health care system. Despite the existence of standardized data formats for the medical domain, such as Fast Healthcare Interoperability Resources (FHIR), their prevalence and usability for AI remain limited. OBJECTIVE: In this paper, we developed a data harmonization pipeline (DHP) for clinical data sets relying on the common FHIR data standard. METHODS: We validated the performance and usability of our FHIR-DHP with data from the Medical Information Mart for Intensive Care IV database. RESULTS: We present the FHIR-DHP workflow in respect of the transformation of “raw” hospital records into a harmonized, AI-friendly data representation. The pipeline consists of the following 5 key preprocessing steps: querying of data from hospital database, FHIR mapping, syntactic validation, transfer of harmonized data into the patient-model database, and export of data in an AI-friendly format for further medical applications. A detailed example of FHIR-DHP execution was presented for clinical diagnoses records. CONCLUSIONS: Our approach enables the scalable and needs-driven data modeling of large and heterogenous clinical data sets. The FHIR-DHP is a pivotal step toward increasing cooperation, interoperability, and quality of patient care in the clinical routine and for medical research. |
| format | Online Article Text |
| id | pubmed-10131740 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2023 |
| publisher | JMIR Publications |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-101317402023-04-27 A Standardized Clinical Data Harmonization Pipeline for Scalable AI Application Deployment (FHIR-DHP): Validation and Usability Study Williams, Elena Kienast, Manuel Medawar, Evelyn Reinelt, Janis Merola, Alberto Klopfenstein, Sophie Anne Ines Flint, Anne Rike Heeren, Patrick Poncette, Akira-Sebastian Balzer, Felix Beimes, Julian von Bünau, Paul Chromik, Jonas Arnrich, Bert Scherf, Nico Niehaus, Sebastian JMIR Med Inform Original Paper BACKGROUND: Increasing digitalization in the medical domain gives rise to large amounts of health care data, which has the potential to expand clinical knowledge and transform patient care if leveraged through artificial intelligence (AI). Yet, big data and AI oftentimes cannot unlock their full potential at scale, owing to nonstandardized data formats, lack of technical and semantic data interoperability, and limited cooperation between stakeholders in the health care system. Despite the existence of standardized data formats for the medical domain, such as Fast Healthcare Interoperability Resources (FHIR), their prevalence and usability for AI remain limited. OBJECTIVE: In this paper, we developed a data harmonization pipeline (DHP) for clinical data sets relying on the common FHIR data standard. METHODS: We validated the performance and usability of our FHIR-DHP with data from the Medical Information Mart for Intensive Care IV database. RESULTS: We present the FHIR-DHP workflow in respect of the transformation of “raw” hospital records into a harmonized, AI-friendly data representation. The pipeline consists of the following 5 key preprocessing steps: querying of data from hospital database, FHIR mapping, syntactic validation, transfer of harmonized data into the patient-model database, and export of data in an AI-friendly format for further medical applications. A detailed example of FHIR-DHP execution was presented for clinical diagnoses records. CONCLUSIONS: Our approach enables the scalable and needs-driven data modeling of large and heterogenous clinical data sets. The FHIR-DHP is a pivotal step toward increasing cooperation, interoperability, and quality of patient care in the clinical routine and for medical research. JMIR Publications 2023-03-21 /pmc/articles/PMC10131740/ /pubmed/36943344 http://dx.doi.org/10.2196/43847 Text en ©Elena Williams, Manuel Kienast, Evelyn Medawar, Janis Reinelt, Alberto Merola, Sophie Anne Ines Klopfenstein, Anne Rike Flint, Patrick Heeren, Akira-Sebastian Poncette, Felix Balzer, Julian Beimes, Paul von Bünau, Jonas Chromik, Bert Arnrich, Nico Scherf, Sebastian Niehaus. Originally published in JMIR Medical Informatics (https://medinform.jmir.org), 21.03.2023. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work, first published in JMIR Medical Informatics, is properly cited. The complete bibliographic information, a link to the original publication on https://medinform.jmir.org/, as well as this copyright and license information must be included. |
| spellingShingle | Original Paper Williams, Elena Kienast, Manuel Medawar, Evelyn Reinelt, Janis Merola, Alberto Klopfenstein, Sophie Anne Ines Flint, Anne Rike Heeren, Patrick Poncette, Akira-Sebastian Balzer, Felix Beimes, Julian von Bünau, Paul Chromik, Jonas Arnrich, Bert Scherf, Nico Niehaus, Sebastian A Standardized Clinical Data Harmonization Pipeline for Scalable AI Application Deployment (FHIR-DHP): Validation and Usability Study |
| title | A Standardized Clinical Data Harmonization Pipeline for Scalable AI Application Deployment (FHIR-DHP): Validation and Usability Study |
| title_full | A Standardized Clinical Data Harmonization Pipeline for Scalable AI Application Deployment (FHIR-DHP): Validation and Usability Study |
| title_fullStr | A Standardized Clinical Data Harmonization Pipeline for Scalable AI Application Deployment (FHIR-DHP): Validation and Usability Study |
| title_full_unstemmed | A Standardized Clinical Data Harmonization Pipeline for Scalable AI Application Deployment (FHIR-DHP): Validation and Usability Study |
| title_short | A Standardized Clinical Data Harmonization Pipeline for Scalable AI Application Deployment (FHIR-DHP): Validation and Usability Study |
| title_sort | standardized clinical data harmonization pipeline for scalable ai application deployment (fhir-dhp): validation and usability study |
| topic | Original Paper |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10131740/ https://www.ncbi.nlm.nih.gov/pubmed/36943344 http://dx.doi.org/10.2196/43847 |
| work_keys_str_mv | AT williamselena astandardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT kienastmanuel astandardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT medawarevelyn astandardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT reineltjanis astandardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT merolaalberto astandardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT klopfensteinsophieanneines astandardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT flintannerike astandardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT heerenpatrick astandardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT poncetteakirasebastian astandardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT balzerfelix astandardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT beimesjulian astandardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT vonbunaupaul astandardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT chromikjonas astandardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT arnrichbert astandardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT scherfnico astandardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT niehaussebastian astandardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT williamselena standardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT kienastmanuel standardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT medawarevelyn standardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT reineltjanis standardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT merolaalberto standardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT klopfensteinsophieanneines standardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT flintannerike standardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT heerenpatrick standardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT poncetteakirasebastian standardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT balzerfelix standardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT beimesjulian standardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT vonbunaupaul standardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT chromikjonas standardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT arnrichbert standardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT scherfnico standardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy AT niehaussebastian standardizedclinicaldataharmonizationpipelineforscalableaiapplicationdeploymentfhirdhpvalidationandusabilitystudy |