ROAD2H: Development and evaluation of an open-source explainable artificial intelligence approach for managing co-morbidity and clinical guidelines

Jesús Domínguez; Denys Prociuk; Branko Marović; Kristijonas Čyras; Oana Cocarascu; Francis Ruiz; Ella Mi; Emma Mi; Christian Ramtale; Antonio Rago; Ara Darzi; Francesca Toni; Vasa Curcin; Brendan Delaney

doi:10.1002/lrh2.10391

ROAD2H: Development and evaluation of an open-source explainable artificial intelligence approach for managing co-morbidity and clinical guidelines

Learn Health Syst. 2023 Sep 12;8(2):e10391. doi: 10.1002/lrh2.10391. eCollection 2024 Apr.

Authors

Affiliations

¹ Department of Population Health Sciences King's College London London UK.
² Imperial College London London UK.
³ University of Belgrade Belgrade Serbia.
⁴ Department of Informatics King's College London London UK.
⁵ London School of Hygiene and Tropical Medicine London UK.
⁶ University of Oxford Oxford UK.

Abstract

Introduction: Clinical decision support (CDS) systems (CDSSs) that integrate clinical guidelines need to reflect real-world co-morbidity. In patient-specific clinical contexts, transparent recommendations that allow for contraindications and other conflicts arising from co-morbidity are a requirement. In this work, we develop and evaluate a non-proprietary, standards-based approach to the deployment of computable guidelines with explainable argumentation, integrated with a commercial electronic health record (EHR) system in Serbia, a middle-income country in West Balkans.

Methods: We used an ontological framework, the Transition-based Medical Recommendation (TMR) model, to represent, and reason about, guideline concepts, and chose the 2017 International global initiative for chronic obstructive lung disease (GOLD) guideline and a Serbian hospital as the deployment and evaluation site, respectively. To mitigate potential guideline conflicts, we used a TMR-based implementation of the Assumptions-Based Argumentation framework extended with preferences and Goals (ABA+G). Remote EHR integration of computable guidelines was via a microservice architecture based on HL7 FHIR and CDS Hooks. A prototype integration was developed to manage chronic obstructive pulmonary disease (COPD) with comorbid cardiovascular or chronic kidney diseases, and a mixed-methods evaluation was conducted with 20 simulated cases and five pulmonologists.

Results: Pulmonologists agreed 97% of the time with the GOLD-based COPD symptom severity assessment assigned to each patient by the CDSS, and 98% of the time with one of the proposed COPD care plans. Comments were favourable on the principles of explainable argumentation; inclusion of additional co-morbidities was suggested in the future along with customisation of the level of explanation with expertise.

Conclusion: An ontological model provided a flexible means of providing argumentation and explainable artificial intelligence for a long-term condition. Extension to other guidelines and multiple co-morbidities is needed to test the approach further.

Keywords: CDS hooks; FHIR; Transition‐based Medical Recommendation model; argumentation; clinical decision support systems; co‐morbidity.