Litcius/Paper detail

Transforming clinical reasoning—the role of AI in supporting human cognitive limitations

Colin Greengrass

2026Frontiers in Digital Health8 citationsDOIOpen Access PDF

Abstract

Clinical reasoning is foundational to medical practice, requiring clinicians to synthesise complex information, recognise patterns, and apply causal reasoning to reach accurate diagnoses and guide patient management. However, human cognition is inherently limited by factors such as limitations in working memory capacity, constraints in cognitive load, a general reliance on heuristics; with an inherent vulnerability to biases including anchoring, availability bias, and premature closure. Cognitive fatigue and cognitive overload, particularly apparent in high-pressure environments, further compromise diagnostic accuracy and efficiency. Artificial intelligence (AI) presents a transformative opportunity to overcome these limitations by supplementing and supporting decision-making. With AI's advanced computational capabilities, these systems can analyse large datasets, detect subtle or atypical patterns, and provide accurate evidence-based diagnoses. Furthermore, by leveraging machine learning and probabilistic modelling, AI reduces dependence on incomplete heuristics and potentially mitigates cognitive biases. It also ensures consistent performance, unaffected by fatigue or information overload. These attributes likely make AI an invaluable tool for enhancing the accuracy and efficiency of diagnostic reasoning. Through a narrative review, this article examines the cognitive limitations inherent in diagnostic reasoning and considers how AI can be positioned as a collaborative partner in addressing them. Drawing on the concept of Mutual Theory of Mind , the author identifies a set of indicators that should inform the design of future frameworks for human–AI interaction in clinical decision-making. These highlight how AI could dynamically adapt to human reasoning states, reduce bias, and promote more transparent and adaptive diagnostic support in high-stakes clinical environments.

Topics & Concepts

CognitionHeuristicsSet (abstract data type)Computer scienceArtificial intelligenceTransformative learningMedical diagnosisCognitive biasProbabilistic logicHuman intelligenceCognitive sciencePsychologyDebiasingCognitive modelAdaptation (eye)Cognitive psychologyMachine learningVulnerability (computing)Risk analysis (engineering)Cognitive skillConfirmation biasCognitive ergonomicsNarrativeCompromiseData scienceCognitive loadCausal reasoningSituation awarenessConceptualizationHuman–computer interactionSocial cognitionClinical Reasoning and Diagnostic SkillsArtificial Intelligence in Healthcare and EducationMachine Learning in Healthcare