Impacts of the advancement in artificial intelligence on laboratory medicine in low‐ and middle‐income countries: Challenges and recommendations—A literature review

• Published in: Health science reports Vol. 7; no. 1; pp. e1794 - n/a
• Main Authors: Oduoye, Malik Olatunde, Fatima, Eeshal, Muzammil, Muhammad Ali, Dave, Tirth, Irfan, Hamza, Fariha, F. N. U., Marbell, Andrew, Ubechu, Samuel Chinonso, Scott, Godfred Yawson, Elebesunu, Emmanuel Ebuka
• Format: Journal Article
• Language: English
• Published: United States John Wiley & Sons, Inc 01.01.2024; Wiley
• Subjects: Accuracy; Algorithms; Artificial intelligence; Clinical decision making; Clinical outcomes; Collaboration; Cooperation; Cost control; Disease; Efficiency; Health care policy; Illnesses; Infrastructure; International organizations; Laboratories; laboratory medicine; Low income groups; low‐ and middle‐income countries; Machine learning; Medical personnel; Medicine; R&D; Research & development; Technology; low‐ and middle‐income countries; laboratory medicine; artificial intelligence
• ISSN: 2398-8835; 2398-8835
• DOI: 10.1002/hsr2.1794

Background and Aims Artificial intelligence (AI) has emerged as a transformative force in laboratory medicine, promising significant advancements in healthcare delivery. This study explores the potential impact of AI on diagnostics and patient management within the context of laboratory medicine, with a particular focus on low‐ and middle‐income countries (LMICs). Methods In writing this article, we conducted a thorough search of databases such as PubMed, ResearchGate, Web of Science, Scopus, and Google Scholar within 20 years. The study examines AI's capabilities, including learning, reasoning, and decision‐making, mirroring human cognitive processes. It highlights AI's adeptness at processing vast data sets, identifying patterns, and expediting the extraction of actionable insights, particularly in medical imaging interpretation and laboratory test data analysis. The research emphasizes the potential benefits of AI in early disease detection, therapeutic interventions, and personalized treatment strategies. Results In the realm of laboratory medicine, AI demonstrates remarkable precision in interpreting medical images such as radiography, computed tomography, and magnetic resonance imaging. Its predictive analytical capabilities extend to forecasting patient trajectories and informing personalized treatment strategies using comprehensive data sets comprising clinical outcomes, patient records, and laboratory results. The study underscores the significance of AI in addressing healthcare challenges, especially in resource‐constrained LMICs. Conclusion While acknowledging the profound impact of AI on laboratory medicine in LMICs, the study recognizes challenges such as inadequate data availability, digital infrastructure deficiencies, and ethical considerations. Successful implementation necessitates substantial investments in digital infrastructure, the establishment of data‐sharing networks, and the formulation of regulatory frameworks. The study concludes that collaborative efforts among stakeholders, including international organizations, governments, and nongovernmental entities, are crucial for overcoming obstacles and responsibly integrating AI into laboratory medicine in LMICs. A comprehensive, coordinated approach is essential for realizing AI's transformative potential and advancing health care in LMICs.