Imaging
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Img2ST-Net: efficient high-resolution spatial omics prediction from whole-slide histology images via fully convolutional image-to-image learning
Zhu, Junchao; Deng, Ruining; Guo, Junlin; Yao, Tianyuan; Xiong, Juming; Qu, Chongyu; Yin, Mengmeng; Wang, Yu; Zhao, Shilin; Yang, Haichun; Xu, Daguang; Tang, Yucheng; & Huo, Yuankai. (2025). Img2ST-Net: Efficient high-resolution spatial omics prediction from whole-slide histology images via fully convolutional image-to-image learning. Journal of Medical Imaging, 12(6), 61410. https://doi.org/10.1117/1.JMI.12.6.061410… Read MoreJan. 28, 2026
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StImage: A versatile framework for optimizing spatial transcriptomic analysis through customizable deep histology and location informed integration
Wang, Yu, Yang, Haichun, Deng, Ruining, Huo, Yuankai, Liu, Qi, Shyr, Yu, & Zhao, Shilin. (2025). StImage: A versatile framework for optimizing spatial transcriptomic analysis through customizable deep histology and location informed integration. Briefings in Bioinformatics, 26(5), bbaf429. https://doi.org/10.1093/bib/bbaf429 Spatial transcriptomics (ST) is a… Read MoreSep. 26, 2025
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ZeroReg3D: A zero-shot registration pipeline for 3D consecutive histopathology image reconstruction
Xiong, Juming, Deng, Ruining, Yue, Jialin, Lu, Siqi, Guo, Junlin, Lionts, Marilyn, Yao, Tianyuan, Cui, Can, Zhu, Junchao, & Qu, Chongyu. (2025). ZeroReg3D: A zero-shot registration pipeline for 3D consecutive histopathology image reconstruction. Journal of Medical Imaging, 12(4), 44002. https://doi.org/10.1117/1.JMI.12.4.044002 Histological analysis, which examines… Read MoreSep. 26, 2025