Design de uma Plataforma Inteligente Orientada à Jornada para Modelagem Clínica baseada em HL7 FHIR
Resumo
Este artigo apresenta a concepção do design de uma plataforma inteligente orientada à jornada para apoio à modelagem clínica interoperável baseada no HL7 FHIR. A pesquisa aplicada utilizou engenharia de requisitos, cocriação, modelagem conceitual, prototipação com inteligência artificial generativa e documentação versionada. Como contribuição, propõe uma jornada em sete etapas que organiza, de forma guiada e rastreável, o ciclo de modelagem clínica, integrando automação e governança. A plataforma tem potencial para reduzir a dependência de especialistas, prevenir erros de modelagem e sustentar a evolução de artefatos interoperáveis em saúde.Referências
Baslyman, M. (2022) “Requirements Engineering in Healthcare: Lessons Learned from Practice”, In: Proceedings of the International Conference on Advances in Software and Systems Engineering (SOFTENG 2022), IARIA, pp. 1–6.
Benson, T. and Grieve, G. (2021). Principles of Health Interoperability: FHIR, HL7 and SNOMED CT. 4th ed. Cham: Springer.
Heshajin, S. G., Sheikh, A., Moghaddasi, H. and Akhondzadeh, S. (2024) “A Framework for Health Information Governance: A Scoping Review”, Health Research Policy and Systems, 22:109, BioMed Central.
Bhuyan, S. S., Islam, R., Ehsan, M. M. and Sarker, I. H. (2025) “Generative Artificial Intelligence Use in Healthcare: Opportunities for Clinical Excellence and Administrative Efficiency”, Journal of Medical Systems, vol. 49, no. 1, p. 10.
Gani, A., et al. (2022). Error-proofing (Poka-Yoke) in Software Development: A Systematic Mapping Study. Journal of Software: Evolution and Process, v. 34, n. 4. DOI: 10.1002/smr.2435.
Knapp, J., Zeratsky, J., & Kowitz, B. (2016). Sprint: How to Solve Big Problems and Test New Ideas in Just Five Days. New York: Simon & Schuster.
Nopour, R. (2026) “Using FHIR for Data Sharing: A Scoping Review of Challenges and Facilitators in Healthcare Settings”, International Journal of Medical Informatics, 205:106128, Elsevier.
Olakotan, O., Mogaji, E., Adebayo, O. and Olayemi, A. (2025) “Usability Challenges in Electronic Health Records: Impact on Documentation Burden and Clinical Workflow – A Scoping Review”, Journal of Evaluation in Clinical Practice, 31(4): e70189, Wiley.
Paili, V. (2025) “Enhancing Healthcare Data Interoperability with AI-Driven Synthetic Datasets Using FHIR Standards”, International Journal of Computer Applications, 56(1), pp. 1–9.
World Health Organization (2021). Global strategy on digital health 2020-2025. Geneva: WHO. Disponível em: [link]. Acesso em: 11 fev. 2026.
Benson, T. and Grieve, G. (2021). Principles of Health Interoperability: FHIR, HL7 and SNOMED CT. 4th ed. Cham: Springer.
Heshajin, S. G., Sheikh, A., Moghaddasi, H. and Akhondzadeh, S. (2024) “A Framework for Health Information Governance: A Scoping Review”, Health Research Policy and Systems, 22:109, BioMed Central.
Bhuyan, S. S., Islam, R., Ehsan, M. M. and Sarker, I. H. (2025) “Generative Artificial Intelligence Use in Healthcare: Opportunities for Clinical Excellence and Administrative Efficiency”, Journal of Medical Systems, vol. 49, no. 1, p. 10.
Gani, A., et al. (2022). Error-proofing (Poka-Yoke) in Software Development: A Systematic Mapping Study. Journal of Software: Evolution and Process, v. 34, n. 4. DOI: 10.1002/smr.2435.
Knapp, J., Zeratsky, J., & Kowitz, B. (2016). Sprint: How to Solve Big Problems and Test New Ideas in Just Five Days. New York: Simon & Schuster.
Nopour, R. (2026) “Using FHIR for Data Sharing: A Scoping Review of Challenges and Facilitators in Healthcare Settings”, International Journal of Medical Informatics, 205:106128, Elsevier.
Olakotan, O., Mogaji, E., Adebayo, O. and Olayemi, A. (2025) “Usability Challenges in Electronic Health Records: Impact on Documentation Burden and Clinical Workflow – A Scoping Review”, Journal of Evaluation in Clinical Practice, 31(4): e70189, Wiley.
Paili, V. (2025) “Enhancing Healthcare Data Interoperability with AI-Driven Synthetic Datasets Using FHIR Standards”, International Journal of Computer Applications, 56(1), pp. 1–9.
World Health Organization (2021). Global strategy on digital health 2020-2025. Geneva: WHO. Disponível em: [link]. Acesso em: 11 fev. 2026.
Publicado
01/06/2026
Como Citar
BRAGA, Renata D. et al.
Design de uma Plataforma Inteligente Orientada à Jornada para Modelagem Clínica baseada em HL7 FHIR. In: SIMPÓSIO BRASILEIRO DE COMPUTAÇÃO APLICADA À SAÚDE (SBCAS), 26. , 2026, Ouro Preto/MG.
Anais [...].
Porto Alegre: Sociedade Brasileira de Computação,
2026
.
p. 61-72.
ISSN 2763-8952.
DOI: https://doi.org/10.5753/sbcas.2026.20321.
