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Main Authors: Zhou, Tianhong, Xu, Yin, Zhu, Yingtao, Xiao, Chuxi, Bian, Haiyang, Wei, Lei, Zhang, Xuegong
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.24173
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author Zhou, Tianhong
Xu, Yin
Zhu, Yingtao
Xiao, Chuxi
Bian, Haiyang
Wei, Lei
Zhang, Xuegong
author_facet Zhou, Tianhong
Xu, Yin
Zhu, Yingtao
Xiao, Chuxi
Bian, Haiyang
Wei, Lei
Zhang, Xuegong
contents Vision-language models (VLMs) exhibit strong zero-shot generalization on natural images and show early promise in interpretable medical image analysis. However, existing benchmarks do not systematically evaluate whether these models truly reason like human clinicians or merely imitate superficial patterns. To address this gap, we propose DrVD-Bench, the first multimodal benchmark for clinical visual reasoning. DrVD-Bench consists of three modules: Visual Evidence Comprehension, Reasoning Trajectory Assessment, and Report Generation Evaluation, comprising a total of 7,789 image-question pairs. Our benchmark covers 20 task types, 17 diagnostic categories, and five imaging modalities-CT, MRI, ultrasound, radiography, and pathology. DrVD-Bench is explicitly structured to reflect the clinical reasoning workflow from modality recognition to lesion identification and diagnosis. We benchmark 19 VLMs, including general-purpose and medical-specific, open-source and proprietary models, and observe that performance drops sharply as reasoning complexity increases. While some models begin to exhibit traces of human-like reasoning, they often still rely on shortcut correlations rather than grounded visual understanding. DrVD-Bench offers a rigorous and structured evaluation framework to guide the development of clinically trustworthy VLMs.
format Preprint
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institution arXiv
publishDate 2025
record_format arxiv
spellingShingle DrVD-Bench: Do Vision-Language Models Reason Like Human Doctors in Medical Image Diagnosis?
Zhou, Tianhong
Xu, Yin
Zhu, Yingtao
Xiao, Chuxi
Bian, Haiyang
Wei, Lei
Zhang, Xuegong
Computer Vision and Pattern Recognition
Vision-language models (VLMs) exhibit strong zero-shot generalization on natural images and show early promise in interpretable medical image analysis. However, existing benchmarks do not systematically evaluate whether these models truly reason like human clinicians or merely imitate superficial patterns. To address this gap, we propose DrVD-Bench, the first multimodal benchmark for clinical visual reasoning. DrVD-Bench consists of three modules: Visual Evidence Comprehension, Reasoning Trajectory Assessment, and Report Generation Evaluation, comprising a total of 7,789 image-question pairs. Our benchmark covers 20 task types, 17 diagnostic categories, and five imaging modalities-CT, MRI, ultrasound, radiography, and pathology. DrVD-Bench is explicitly structured to reflect the clinical reasoning workflow from modality recognition to lesion identification and diagnosis. We benchmark 19 VLMs, including general-purpose and medical-specific, open-source and proprietary models, and observe that performance drops sharply as reasoning complexity increases. While some models begin to exhibit traces of human-like reasoning, they often still rely on shortcut correlations rather than grounded visual understanding. DrVD-Bench offers a rigorous and structured evaluation framework to guide the development of clinically trustworthy VLMs.
title DrVD-Bench: Do Vision-Language Models Reason Like Human Doctors in Medical Image Diagnosis?
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2505.24173