Self-improving generative foundation model for synthetic medical image generation and clinical applications

IF 50 1区医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Nature Medicine Pub Date : 2024-12-11 DOI:10.1038/s41591-024-03359-y

Jinzhuo Wang, Kai Wang, Yunfang Yu, Yuxing Lu, Wenchao Xiao, Zhuo Sun, Fei Liu, Zixing Zou, Yuanxu Gao, Lei Yang, Hong-Yu Zhou, Hanpei Miao, Wenting Zhao, Lisha Huang, Lingchao Zeng, Rui Guo, Ieng Chong, Boyu Deng, Linling Cheng, Xiaoniao Chen, Jing Luo, Meng-Hua Zhu, Daniel Baptista-Hon, Olivia Monteiro, Ming Li, Yu Ke, Jiahui Li, Simiao Zeng, Taihua Guan, Jin Zeng, Kanmin Xue, Eric Oermann, Huiyan Luo, Yun Yin, Kang Zhang, Jia Qu

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Abstract

In many clinical and research settings, the scarcity of high-quality medical imaging datasets has hampered the potential of artificial intelligence (AI) clinical applications. This issue is particularly pronounced in less common conditions, underrepresented populations and emerging imaging modalities, where the availability of diverse and comprehensive datasets is often inadequate. To address this challenge, we introduce a unified medical image–text generative model called MINIM that is capable of synthesizing medical images of various organs across various imaging modalities based on textual instructions. Clinician evaluations and rigorous objective measurements validate the high quality of MINIM’s synthetic images. MINIM exhibits an enhanced generative capability when presented with previously unseen data domains, demonstrating its potential as a generalist medical AI (GMAI). Our findings show that MINIM’s synthetic images effectively augment existing datasets, boosting performance across multiple medical applications such as diagnostics, report generation and self-supervised learning. On average, MINIM enhances performance by 12% for ophthalmic, 15% for chest, 13% for brain and 17% for breast-related tasks. Furthermore, we demonstrate MINIM’s potential clinical utility in the accurate prediction of HER2-positive breast cancer from MRI images. Using a large retrospective simulation analysis, we demonstrate MINIM’s clinical potential by accurately identifying targeted therapy-sensitive EGFR mutations using lung cancer computed tomography images, which could potentially lead to improved 5-year survival rates. Although these results are promising, further validation and refinement in more diverse and prospective settings would greatly enhance the model’s generalizability and robustness. A new AI generative model leverages the use of synthetic images to effectively augment existing datasets, boosting performance across multiple medical applications

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基于自改进生成基础模型的综合医学图像生成及临床应用

在许多临床和研究环境中，缺乏高质量的医学成像数据集阻碍了人工智能（AI）临床应用的潜力。这一问题在不太常见的情况、代表性不足的人群和新兴的成像方式中尤为突出，在这些情况下，各种综合数据集的可用性往往不足。为了应对这一挑战，我们引入了一个统一的医学图像-文本生成模型，称为MINIM，该模型能够根据文本指令合成各种成像模式下的各种器官的医学图像。临床评估和严格的客观测量验证了MINIM合成图像的高质量。MINIM在处理以前未见过的数据域时表现出增强的生成能力，显示了其作为通才医学人工智能（GMAI）的潜力。我们的研究结果表明，MINIM的合成图像有效地增强了现有的数据集，提高了诊断、报告生成和自我监督学习等多种医疗应用的性能。平均而言，MINIM能提高12%的眼科、15%的胸部、13%的大脑和17%的乳房相关任务的表现。此外，我们证明了MINIM在从MRI图像准确预测her2阳性乳腺癌方面的潜在临床应用。通过大型回顾性模拟分析，我们通过使用肺癌计算机断层扫描图像准确识别靶向治疗敏感的EGFR突变，证明了MINIM的临床潜力，这可能会提高5年生存率。虽然这些结果是有希望的，但在更多样化和前瞻性的环境中进一步验证和改进将大大提高模型的通用性和稳健性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Nature Medicine 医学-生化与分子生物学

CiteScore

100.90

自引率

0.70%

发文量

525

审稿时长

1 months

期刊介绍： Nature Medicine is a monthly journal publishing original peer-reviewed research in all areas of medicine. The publication focuses on originality, timeliness, interdisciplinary interest, and the impact on improving human health. In addition to research articles, Nature Medicine also publishes commissioned content such as News, Reviews, and Perspectives. This content aims to provide context for the latest advances in translational and clinical research, reaching a wide audience of M.D. and Ph.D. readers. All editorial decisions for the journal are made by a team of full-time professional editors. Nature Medicine consider all types of clinical research, including: -Case-reports and small case series -Clinical trials, whether phase 1, 2, 3 or 4 -Observational studies -Meta-analyses -Biomarker studies -Public and global health studies Nature Medicine is also committed to facilitating communication between translational and clinical researchers. As such, we consider “hybrid” studies with preclinical and translational findings reported alongside data from clinical studies.