Perceptions and Challenges of Artificial Intelligence Adoption in Healthcare Crisis Management: Insights from Hassan II regional hospital in Dakhla

DRISS HAISOUFI; Fahd  Elkhalloufi; Abdeljabbar  Rouani; El Arbi  Bouaiti; Ouassima  Erefai; Rachid  Fares

doi:10.48047/ba1xbq35

Authors

DRISS HAISOUFI 1Laboratory of Biostatistics, Clinical Research and Epidemiology, Faculty of Medicine and Pharmacy of Rabat, Mohammed V University in Rabat, Morocco. 2Highest Institute of Nursing and Health Techniques, Dakhla, Morocco 3Mohammed VI Faculty of Nursing and Allied Health Professions, Mohammed VI University of Sciences and Health, Morocco Author
Fahd Elkhalloufi 3Mohammed VI Faculty of Nursing and Allied Health Professions, Mohammed VI University of Sciences and Health, Morocco 4Higher Institute of Nursing Professions and Health Techniques of Ra3Mohammed VI Faculty of Nursing and Allied Health Professions, Mohammed VI University of Sciences and Health, Morocco 4Higher Institute of Nursing Professions and Health Techniques of Rabat, Moroccobat, Morocco Author
Abdeljabbar Rouani 3Mohammed VI Faculty of Nursing and Allied Health Professions, Mohammed VI University of Sciences and Health, Morocco 4Higher Institute of Nursing Professions and Health Techniques of Ra3Mohammed VI Faculty of Nursing and Allied Health Professions, Mohammed VI University of Sciences and Health, Morocco 4Higher Institute of Nursing Professions and Health Techniques of Rabat, Moroccobat, Morocco Author
El Arbi Bouaiti 1Laboratory of Biostatistics, Clinical Research and Epidemiology, Faculty of Medicine and Pharmacy of Rabat, Mohammed V University in Rabat, Morocco. 2Highest Institute of Nursing and Health Techniques, Dakhla, Morocco 3Mohammed VI Faculty of Nursing and Allied Health Professions, Mohammed VI University of Sciences and Health, Morocco,5Centre of Virology, Tropical and Infectious Diseases. Mohamed V Military Instruction Hospital, Rabat, Morocco Author
Ouassima Erefai 3Mohammed VI Faculty of Nursing and Allied Health Professions, Mohammed VI University of Sciences and Health, Morocco 4Higher Institute of Nursing Professions and Health Techniques of Rabat, Morocco Author
Rachid Fares 3Mohammed VI Faculty of Nursing and Allied Health Professions, Mohammed VI University of Sciences and Health, Morocco 4Higher Institute of Nursing Professions and Health Techniques of Rabat, Morocco Author

DOI:

https://doi.org/10.48047/ba1xbq35

Keywords:

Artificial Intelligence, Healthcare Crisis, Perception, Ethics, Emergency Medicine, Digital Health

Abstract

Introduction

Artificial intelligence (AI) accelerates data processing, supports clinical decision-making, and optimizes resource allocation—capabilities that are especially critical during health crises. However, in Morocco, particularly in underserved regions like Dakhla, limited data exist on how frontline healthcare professionals perceive AI’s role in crisis response. This study explores the views of healthcare workers at Hassan II Regional Hospital in Dakhla to identify opportunities and barriers to AI adoption in emergency care.

Methods and Materials

We conducted a cross-sectional quantitative survey involving 34 healthcare professionals—including physicians, nurses, and aides—from the hospital’s emergency department. The structured questionnaire, developed from recent literature, assessed participants’ awareness of AI, perceptions of its benefits, trust in autonomous decision-making, ethical concerns, and willingness to use AI-based tools. We collected data anonymously, with informed consent, and analyzed responses using descriptive statistics in SPSS Software.

Results

The sample had a balanced gender distribution and a young age profile (mean age: 28.2). Most respondents (72%) were aware of AI in healthcare, and 77.8% believed it could improve care quality. Key expected benefits included improved diagnostic accuracy, optimized patient record management, and personalized treatments. However, 52.8% rejected AI-generated diagnoses or treatments without physician validation, highlighting limited trust in autonomous tools. Respondents were more receptive to AI in monitoring applications (55.6%). Their main concerns centered on diagnostic errors (44.4%), lack of algorithmic transparency (25%), and privacy risks (19.4%). They strongly supported human oversight (38.9%) and strict regulation (33.3%).

Conclusion

Overall, healthcare professionals see AI as a valuable support for crisis response but insist on strong ethical frameworks, medical supervision, and increased trust-building measures for future integration.

Downloads

Download data is not yet available.

References

World Health Organization. Emergency Response Framework (ERF), Edition 2.1. Geneva: WHO Press; 2024.

Zhang, L., et al. "The role of artificial intelligence in pandemic responses." PMC. 2025; 11695538.

OECD. "Using artificial intelligence to help combat COVID-19." OECD Policy Responses. 2020.

Alrawashdeh, A., et al. "Applications and Performance of Machine Learning Algorithms in Emergency Medical Services: A Scoping Review." Prehospital and Disaster Medicine. 2024;164.

Kumar, S., et al. "Lessons from Global Health Crises: The Role of Machine Learning and AI in Advancing Public Health Preparedness and Management." Journal of Neonatal Surgery. 2025;14:3596.

MIT News. "AI Cures: data-driven clinical solutions for Covid-19." MIT News Office. 2020.

World Health Organization Regional Office for the Eastern Mediterranean. "WHO launches AI-powered all-hazards toolkit to accelerate health emergency response." WHO/EMRO. 2025.

Anonymous. "AI-based Emergency Response Systems: A Systematic Literature Review on Smart Infrastructure Safety." SSRN. 2025;5171521.

Lamichhane, B., Neupane, N. "Improved Healthcare Access in Low-Resource Regions: A Review of Technological Solutions." arXiv. 2022;2205.10913.

Poggi, A. "The Digital Divide: A Barrier to Social, Economic and Political Equity." ISPI Online. 2025.

Fortlane. "Digital divide: call for building digital bridges in Africa." Fortlane Insights. 2025.

El Otmani Dehbi, Z., et al. "Moroccan Digital Health Response to the COVID-19 Crisis." Frontiers in Public Health. 2021;9:690462.

Jallal, M., et al. "Current State and Prospects of Telemedicine in Morocco: Analysis of Challenges, Initiatives, and Regulatory Framework." Cureus. 2023;180710.

Weiner, E.B., et al. "Ethical challenges and evolving strategies in the integration of artificial intelligence into clinical practice." PLOS Digital Health. 2025;4(4):e0000810.

Rainer, K., et al. "Artificial Intelligence in crisis management: Potential solutions and challenges." DOI: 10.35011/IDIMT-2024-13.

Van der Veen, W., et al. "An integrative review on the acceptance of artificial intelligence among healthcare professionals in hospitals." npj Digital Medicine. 2023;6:111.

Ahuja, A.S., et al. "Barriers to and Facilitators of Artificial Intelligence Adoption in Health Care Organizations." Journal of Medical Internet Research. 2024;26:e61932.

Anonymous. "Trust and Acceptance Challenges in the Adoption of AI Applications in Healthcare." Journal of Medical Internet Research. 2025;27:e65567.

Park, S.H., et al. "Key Principles of Clinical Validation, Device Approval, and Insurance Coverage Decisions of Artificial Intelligence." Korean Journal of Radiology. 2021;22(3):442-453.

Jain, A., et al. "Factors influencing trust in medical artificial intelligence for healthcare professionals." Journal of Medical Artificial Intelligence. 2021.

Fan, X., et al. "Acceptance, initial trust formation, and human biases in artificial intelligence: Focus on clinicians." Frontiers in Digital Health. 2022;4:966174.

Tahraoui, A. "Morocco shares experience in the digitization of patient journeys." Biometric Update. 2025.

World Bank Group. "Digital Transformation Drives Development in Africa." World Bank Results. 2024.

Velazquez-Berumen, A., Manimaran, M. "Driving Innovation in Low Resource Settings." World Hospital Health Services. 2016;52(3):7-11.

World Health Organization. Emergency Response Framework (ERF), Edition 2.1. Geneva: WHO Press; 2024.

Miotto R, Wang F, Wang S, Jiang X, Dudley JT. Deep learning for healthcare: review, opportunities, and challenges. Brief Bioinform. 2018;19(6):1236-1246.

Aggarwal R, Sounderajah V, Martin G, et al. Diagnostic accuracy of deep learning in medical imaging: a systematic review and meta-analysis. NPJ Digit Med. 2021;4(1):65.

Gillies RJ, Kinahan PE, Hricak H. Radiomics: Images Are More than Pictures, They Are Data. Radiology. 2016;278(2):563-577.

Ghaffar Nia N, Kaplanoglu E, Nasab A. Evaluation of artificial intelligence techniques in disease diagnosis and prediction. Discov Artif Intell. 2023;3(1):5.

Peng L, et al. "Technical note: First implementation of a one-stop solution of radiotherapy with full-workflow automation based on CT-linac combination." Med Phys. 2023;50(5):2943-2954.

Winkel D, et al. "A fully automated machine-learning-based workflow for radiation treatment planning in prostate cancer." Radiother Oncol. 2025;192:110105.

Fan J, et al. "Machine learning automated treatment planning for online magnetic resonance-guided adaptive radiotherapy of prostate cancer: A multi-institutional validation study." Radiother Oncol. 2024;199:110426.

Elhaddad MA, et al. "AI-Driven Clinical Decision Support Systems: An Ongoing Pursuit of Precision Medicine and Enhanced Healthcare Delivery." Cureus. 2024;16(4):e58729.

KPMG International. "Intelligent healthcare: A blueprint for creating value through AI-driven transformation." 2025.

El Morr C, Ozdemir D, Asdaah Y, et al. AI-Based Epidemic and Pandemic Early Warning Systems: A Systematic Scoping Review. Health Informatics J. 2024;30(3):2005–2023.

Tamaki T, Sakamoto K, Hirose T, et al. IAEA Coordinated Research Project: AI Support for Contouring in Head and Neck Cancer Radiotherapy. Radiother Oncol. 2025;238:109–117.

Suzuki H, Tanaka Y, Nakamura S, et al. Integration of AI in Stereotactic Ablative Body Radiotherapy for Hepatocellular Carcinoma. Front Med. 2025;12:1576494.

Ginde AA, Patel S, Kumar R, et al. Machine Learning–Guided Allocation of COVID-19 Neutralizing Antibodies to Optimize Population Benefit. JAMA Health Forum. 2024;5(9):e224096.

Zhang X, Li P, Ren S, et al. Neural Network Framework for COVID-19 Dynamics Prediction and ICU Resource Optimization. Sci Rep. 2025;15:1132.

Semghouli S, El Fahssi M, Zerfaoui M, et al. Knowledge and perceptions of Moroccan medical physicists regarding the contribution of artificial intelligence in medical imaging and radiotherapy. Radiation Medicine and Protection. 2025;6(2):75–80.

Residents and Juniors Onco-radiotherapists’ Perceptions of Their Training Programs in Morocco: A Multi-institutional Study. Journal of Cancer Education. 2025; published online March 31.

Saeed AA, Benbrahim Z, El Helali N, et al. Patterns of practice survey for cervical cancer brachytherapy in Morocco. Radiotherapy and Oncology. 2024;172:38–45.

Conroy L, Winter J, Khalifa A, et al. Artificial Intelligence for Radiation Treatment Planning: Bridging Gaps From Retrospective Promise to Clinical Reality. Clinical Oncology (R Coll Radiol). 2025;37:103630.

Berrami H, Serhier Z, Jallal M, Bennani Othmani M. Understanding and use of artificial intelligence among doctors in a university hospital in Morocco. Stud Health Technol Inform. 2023;309:215–219.

Idaomar C, Idaomar D, Hannaoui M, Chafik K. Applications of Artificial Intelligence in Morocco’s Healthcare Sector: A Springboard to Medical Excellence. Journal of Computer and Communications. 2024;12:63–80.

Ginde AA, et al. Machine Learning–Guided Allocation of COVID-19 Neutralizing Antibodies to Optimize Population Benefit. JAMA Health Forum. 2024;5(9):e224096.

El Morr C, Ozdemir D, Asdaah Y, et al. AI-Based Epidemic and Pandemic Early Warning Systems: A Systematic Scoping Review. Health Informatics J. 2024;30(3):2005–2023.

Villanueva-Miranda I, et al. Artificial Intelligence in Early Warning Systems for Infectious Disease Surveillance: A Systematic Review. Front Public Health. 2025;13:1609615.

Fritsch SJ, et al. Attitudes and perception of artificial intelligence in healthcare: A cross-sectional survey among patients. Digit Health. 2022;8:20552076221116772.

Sisk BA, et al. Validating a novel measure for assessing patient openness and concerns about using artificial intelligence in healthcare. Learn Health Syst. 2025;9(1):e10429.

Vaira LA, Lech JR. Validation of the Quality Assessment of Medical Artificial Intelligence (QAMAI) tool. Air Unimi. 2024.

Lwanga SK, Lemeshow S. Sample size determination in health studies: A practical manual. Geneva: WHO; 1991.