Easing the cognitive load of general practitioners: AI design principles for future-ready healthcare
通过开发AI原型NAOMI,在80次模拟会诊中提炼出三项设计原则,帮助全科医生在非工作时间及自愿初级医疗中减轻认知负担、优化临床决策。
General practitioners (GPs) worldwide face increasing cognitive demands, especially in after-hours and voluntary primary care, where urgent decision-making and resource constraints exacerbate workload pressures. Studies across North America, Europe, and Asia indicate that GPs encounter similar challenges globally, with administrative burdens and patient complexity contributing to high cognitive loads. While prior research has examined technological interventions, workflow optimization, and cognitive assistance independently, an integrated, actionable framework tailored to GPs’ needs remains lacking. This study employs a design science approach to develop and evaluate a Neural Assistant for Optimized Medical Interactions (NAOMI), a prototype AI agent designed to support triage and clinical decision-making in after-hours and voluntary care settings. Through 80 simulated consultations and clinician feedback, we identify three key design principles: Comprehensive Data Collection and Analysis , Clinical Reasoning Transparency , and Adaptive Triage and Risk Assessment . These design principles provide a structured foundation for developing AI-driven solutions that reduce cognitive burden, enhance clinical workflows, and improve healthcare equity. By advancing AI integration in primary care, this study offers a scalable roadmap for AI-driven healthcare research and innovation, addressing systemic workforce challenges while optimizing patient outcomes. • Address cognitive overload among general practitioners (GPs), particularly in after-hours and resource-constrained settings. • Develop NAOMI, an AI-based clinical decision support agent leveraging GPT-4 to assist in triage, diagnosis, and decision-making. • Derive three key design principles for AI-driven clinical support: enabling comprehensive data collection and analysis to enhance diagnostic precision, promoting clinical reasoning transparency to build trust and facilitate workflow integration, and providing adaptive triage and risk assessment to dynamically prioritize patient care. • Evaluate NAOMI's effectiveness through 80 simulated patient consultations covering diverse real-world clinical cases. • Advance design science by bridging AI-driven innovation with practical healthcare applications, improving GP efficiency, decision-making, and healthcare equity.