Requirement Analysis for Data-Driven Electroencephalography Seizure Monitoring Software to Enhance Quality and Decision Making in Digital Care Pathways for Epilepsy: A Feasibility Study from the Perspectives of Health Care Professionals
BackgroundAbnormal brain activity is the source of epileptic seizures, which can present a variety of symptoms and influence patients’ quality of life. Therefore, it is critical to track epileptic seizures, diagnose them, and provide potential therapies to manage people with...
Saved in:
| Main Authors: | , , , , , , , |
|---|---|
| Format: | Article |
| Language: | English |
| Published: |
JMIR Publications
2025-05-01
|
| Series: | JMIR Human Factors |
| Online Access: | https://humanfactors.jmir.org/2025/1/e59558 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| _version_ | 1849762872104583168 |
|---|---|
| author | Pantea Keikhosrokiani Johanna Annunen Jonna Komulainen-Ebrahim Jukka Kortelainen Mika Kallio Päivi Vieira Minna Isomursu Johanna Uusimaa |
| author_facet | Pantea Keikhosrokiani Johanna Annunen Jonna Komulainen-Ebrahim Jukka Kortelainen Mika Kallio Päivi Vieira Minna Isomursu Johanna Uusimaa |
| author_sort | Pantea Keikhosrokiani |
| collection | DOAJ |
| description |
BackgroundAbnormal brain activity is the source of epileptic seizures, which can present a variety of symptoms and influence patients’ quality of life. Therefore, it is critical to track epileptic seizures, diagnose them, and provide potential therapies to manage people with epilepsy. Electroencephalography (EEG) is helpful in the diagnosis and classification of the seizure type, epilepsy, or epilepsy syndrome. Ictal EEG is rarely recorded, whereas interictal EEG is more often recorded, and the results can be abnormal or normal even in the case of epilepsy. The current digital care pathway for epilepsy (DCPE) lacks the integration of data-driven seizure detection, which could potentially enhance epilepsy treatment and management.
ObjectiveThis study aimed to determine the requirements for integrating data-driven medical software into the DCPE to meet the project’s goals and demonstrate practical feasibility regarding resource availability, time constraints, and technological capabilities. This adjustment emphasized ensuring that the proposed system is realistic and achievable. Perspectives on the feasibility of data-driven medical software that meets the project’s goals and demonstrates practical feasibility regarding resource availability, time constraints, and technological capabilities are presented.
MethodsA 4-round Delphi study using focus group discussions was conducted with 7 diverse panels of experts from Oulu University Hospital to address the research questions and evaluate the feasibility of data-driven medical software for monitoring individuals with epilepsy. This collaborative approach fostered a thorough understanding of the topic and considered the perspectives of various stakeholders. In addition, a qualitative study was carried out using semistructured interviews.
ResultsDrawing from the findings of the thematic analytics, a detailed set of guidelines was created to facilitate the seamless integration of the proposed data-driven medical software for EEG seizure monitoring into the DCPE. These guidelines encompass system requirements, data collection and analysis, and user training, offering a comprehensive road map for the effective implementation of the software.
ConclusionsThe study outcome presents a comprehensive strategy for improving the quality of care, providing personalized solutions, managing health care resources, and using artificial intelligence and sensor technology in clinical settings. The potential of artificial intelligence and sensor technology to revolutionize health care is exciting. The study identified practical strategies, such as real-time EEG seizure monitoring, predictive modeling for seizure occurrence, and data-driven analytics integration to enhance decision-making. These strategies were aimed at reducing diagnostic delays and providing personalized care. We are actively working on integrating these features into clinical workflows. However, further case studies and pilot implementations are planned for future studies. The results of this study will guide system developers in the meticulous design and development of systems that meet user needs in the DCPE. |
| format | Article |
| id | doaj-art-3a3e9b87ae0140c8ba2fff303c5b2fc6 |
| institution | DOAJ |
| issn | 2292-9495 |
| language | English |
| publishDate | 2025-05-01 |
| publisher | JMIR Publications |
| record_format | Article |
| series | JMIR Human Factors |
| spelling | doaj-art-3a3e9b87ae0140c8ba2fff303c5b2fc62025-08-20T03:05:38ZengJMIR PublicationsJMIR Human Factors2292-94952025-05-0112e5955810.2196/59558Requirement Analysis for Data-Driven Electroencephalography Seizure Monitoring Software to Enhance Quality and Decision Making in Digital Care Pathways for Epilepsy: A Feasibility Study from the Perspectives of Health Care ProfessionalsPantea Keikhosrokianihttps://orcid.org/0000-0003-4705-2732Johanna Annunenhttps://orcid.org/0000-0001-6513-7081Jonna Komulainen-Ebrahimhttps://orcid.org/0000-0002-3876-9830Jukka Kortelainenhttps://orcid.org/0000-0003-2585-2376Mika Kalliohttps://orcid.org/0000-0002-7908-9823Päivi Vieirahttps://orcid.org/0000-0002-0796-8706Minna Isomursuhttps://orcid.org/0000-0002-0161-1837Johanna Uusimaahttps://orcid.org/0000-0002-6794-209X BackgroundAbnormal brain activity is the source of epileptic seizures, which can present a variety of symptoms and influence patients’ quality of life. Therefore, it is critical to track epileptic seizures, diagnose them, and provide potential therapies to manage people with epilepsy. Electroencephalography (EEG) is helpful in the diagnosis and classification of the seizure type, epilepsy, or epilepsy syndrome. Ictal EEG is rarely recorded, whereas interictal EEG is more often recorded, and the results can be abnormal or normal even in the case of epilepsy. The current digital care pathway for epilepsy (DCPE) lacks the integration of data-driven seizure detection, which could potentially enhance epilepsy treatment and management. ObjectiveThis study aimed to determine the requirements for integrating data-driven medical software into the DCPE to meet the project’s goals and demonstrate practical feasibility regarding resource availability, time constraints, and technological capabilities. This adjustment emphasized ensuring that the proposed system is realistic and achievable. Perspectives on the feasibility of data-driven medical software that meets the project’s goals and demonstrates practical feasibility regarding resource availability, time constraints, and technological capabilities are presented. MethodsA 4-round Delphi study using focus group discussions was conducted with 7 diverse panels of experts from Oulu University Hospital to address the research questions and evaluate the feasibility of data-driven medical software for monitoring individuals with epilepsy. This collaborative approach fostered a thorough understanding of the topic and considered the perspectives of various stakeholders. In addition, a qualitative study was carried out using semistructured interviews. ResultsDrawing from the findings of the thematic analytics, a detailed set of guidelines was created to facilitate the seamless integration of the proposed data-driven medical software for EEG seizure monitoring into the DCPE. These guidelines encompass system requirements, data collection and analysis, and user training, offering a comprehensive road map for the effective implementation of the software. ConclusionsThe study outcome presents a comprehensive strategy for improving the quality of care, providing personalized solutions, managing health care resources, and using artificial intelligence and sensor technology in clinical settings. The potential of artificial intelligence and sensor technology to revolutionize health care is exciting. The study identified practical strategies, such as real-time EEG seizure monitoring, predictive modeling for seizure occurrence, and data-driven analytics integration to enhance decision-making. These strategies were aimed at reducing diagnostic delays and providing personalized care. We are actively working on integrating these features into clinical workflows. However, further case studies and pilot implementations are planned for future studies. The results of this study will guide system developers in the meticulous design and development of systems that meet user needs in the DCPE.https://humanfactors.jmir.org/2025/1/e59558 |
| spellingShingle | Pantea Keikhosrokiani Johanna Annunen Jonna Komulainen-Ebrahim Jukka Kortelainen Mika Kallio Päivi Vieira Minna Isomursu Johanna Uusimaa Requirement Analysis for Data-Driven Electroencephalography Seizure Monitoring Software to Enhance Quality and Decision Making in Digital Care Pathways for Epilepsy: A Feasibility Study from the Perspectives of Health Care Professionals JMIR Human Factors |
| title | Requirement Analysis for Data-Driven Electroencephalography Seizure Monitoring Software to Enhance Quality and Decision Making in Digital Care Pathways for Epilepsy: A Feasibility Study from the Perspectives of Health Care Professionals |
| title_full | Requirement Analysis for Data-Driven Electroencephalography Seizure Monitoring Software to Enhance Quality and Decision Making in Digital Care Pathways for Epilepsy: A Feasibility Study from the Perspectives of Health Care Professionals |
| title_fullStr | Requirement Analysis for Data-Driven Electroencephalography Seizure Monitoring Software to Enhance Quality and Decision Making in Digital Care Pathways for Epilepsy: A Feasibility Study from the Perspectives of Health Care Professionals |
| title_full_unstemmed | Requirement Analysis for Data-Driven Electroencephalography Seizure Monitoring Software to Enhance Quality and Decision Making in Digital Care Pathways for Epilepsy: A Feasibility Study from the Perspectives of Health Care Professionals |
| title_short | Requirement Analysis for Data-Driven Electroencephalography Seizure Monitoring Software to Enhance Quality and Decision Making in Digital Care Pathways for Epilepsy: A Feasibility Study from the Perspectives of Health Care Professionals |
| title_sort | requirement analysis for data driven electroencephalography seizure monitoring software to enhance quality and decision making in digital care pathways for epilepsy a feasibility study from the perspectives of health care professionals |
| url | https://humanfactors.jmir.org/2025/1/e59558 |
| work_keys_str_mv | AT panteakeikhosrokiani requirementanalysisfordatadrivenelectroencephalographyseizuremonitoringsoftwaretoenhancequalityanddecisionmakingindigitalcarepathwaysforepilepsyafeasibilitystudyfromtheperspectivesofhealthcareprofessionals AT johannaannunen requirementanalysisfordatadrivenelectroencephalographyseizuremonitoringsoftwaretoenhancequalityanddecisionmakingindigitalcarepathwaysforepilepsyafeasibilitystudyfromtheperspectivesofhealthcareprofessionals AT jonnakomulainenebrahim requirementanalysisfordatadrivenelectroencephalographyseizuremonitoringsoftwaretoenhancequalityanddecisionmakingindigitalcarepathwaysforepilepsyafeasibilitystudyfromtheperspectivesofhealthcareprofessionals AT jukkakortelainen requirementanalysisfordatadrivenelectroencephalographyseizuremonitoringsoftwaretoenhancequalityanddecisionmakingindigitalcarepathwaysforepilepsyafeasibilitystudyfromtheperspectivesofhealthcareprofessionals AT mikakallio requirementanalysisfordatadrivenelectroencephalographyseizuremonitoringsoftwaretoenhancequalityanddecisionmakingindigitalcarepathwaysforepilepsyafeasibilitystudyfromtheperspectivesofhealthcareprofessionals AT paivivieira requirementanalysisfordatadrivenelectroencephalographyseizuremonitoringsoftwaretoenhancequalityanddecisionmakingindigitalcarepathwaysforepilepsyafeasibilitystudyfromtheperspectivesofhealthcareprofessionals AT minnaisomursu requirementanalysisfordatadrivenelectroencephalographyseizuremonitoringsoftwaretoenhancequalityanddecisionmakingindigitalcarepathwaysforepilepsyafeasibilitystudyfromtheperspectivesofhealthcareprofessionals AT johannauusimaa requirementanalysisfordatadrivenelectroencephalographyseizuremonitoringsoftwaretoenhancequalityanddecisionmakingindigitalcarepathwaysforepilepsyafeasibilitystudyfromtheperspectivesofhealthcareprofessionals |