Litcius/Paper detail

Affective-ROPTester: Capability and Bias Analysis of LLMs in Predicting Retinopathy of Prematurity

Shuai Zhao, Yulin Zhang, Luwei Xiao, Xinyi Wu, Yanhao Jia, Zhongliang Guo, Xiaobao Wu, Cong-Duy Nguyen, Guoming Zhang, Anh Tuan Luu

2025IEEE Transactions on Affective Computing5 citationsDOI

Abstract

Despite the remarkable progress of large language models (LLMs) across various domains, their capacity to predict retinopathy of prematurity (ROP) risk remains largely unexplored. To address this gap, we introduce a novel Chinese benchmark dataset, termed CROP, comprising 993 admission records annotated with low, medium, and high-risk labels. To systematically examine the predictive capabilities and affective biases of LLMs in ROP risk stratification, we propose Affective-ROPTester, an automated evaluation framework incorporating three prompting strategies: Instruction-based, Chain-of-Thought (CoT), and In-Context Learning (ICL). The Instruction scheme assesses LLMs' intrinsic knowledge and associated biases, whereas the CoT and ICL schemes leverage external medical knowledge to enhance predictive accuracy. Crucially, we integrate emotional elements at the prompt level to investigate how different affective framings influence the model's ability to predict ROP and its bias patterns. Empirical results derived from the CROP dataset yield three principal observations. First, LLMs demonstrate limited efficacy in ROP risk prediction when operating solely on intrinsic knowledge, yet exhibit marked performance gains when augmented with structured external inputs. Second, affective biases are evident in the model outputs, with a consistent inclination toward overestimating medium- and high-risk cases. Third, compared to negative emotions, positive emotional framing contributes to mitigating predictive bias in model outputs. These findings highlight the critical role of affect-sensitive prompt engineering in enhancing diagnostic reliability and emphasize the utility of Affective-ROPTester as a framework for evaluating and mitigating affective bias in clinical language modeling systems. We aspire for our proposal to deeply explore the capabilities of LLMs for ROP prediction and contribute to the advancement of the healthcare community.

Topics & Concepts

Leverage (statistics)Retinopathy of prematurityFraming (construction)PsychologyRisk assessmentEmpirical evidenceEmpirical researchRisk perceptionPredictive modellingReliability (semiconductor)Cognitive psychologyFraming effectDevelopmental psychologyComputer sciencePredictive powerBehavioral economicsBenchmark (surveying)Spoken languageRandom forestActuarial sciencePredictive codingRetinopathy of Prematurity StudiesNeonatal and fetal brain pathologyInfant Development and Preterm Care
Affective-ROPTester: Capability and Bias Analysis of LLMs in Predicting Retinopathy of Prematurity | Litcius