Deep learning-driven pulmonary artery and vein segmentation reveals demography-associated vasculature anatomical differences
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Chu, Y; Luo, G; Zhou, L; Cao, S; Ma, G; Meng, X; Zhou, J; Yang, C; Xie, D; Mu, D; Henao, R; Setti, G; Xiao, X; Wu, L; Qiu, Z; Gao, X
April 11, 2024
Duke Scholars
Publication Date
April 11, 2024
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APA
Chicago
ICMJE
MLA
NLM
Chu, Y., Luo, G., Zhou, L., Cao, S., Ma, G., Meng, X., … Gao, X. (2024). Deep learning-driven pulmonary artery and vein segmentation reveals
demography-associated vasculature anatomical differences.
Chu, Yuetan, Gongning Luo, Longxi Zhou, Shaodong Cao, Guolin Ma, Xianglin Meng, Juexiao Zhou, et al. “Deep learning-driven pulmonary artery and vein segmentation reveals
demography-associated vasculature anatomical differences,” April 11, 2024.
Chu Y, Luo G, Zhou L, Cao S, Ma G, Meng X, et al. Deep learning-driven pulmonary artery and vein segmentation reveals
demography-associated vasculature anatomical differences. 2024.
Chu, Yuetan, et al. Deep learning-driven pulmonary artery and vein segmentation reveals
demography-associated vasculature anatomical differences. 11 Apr. 2024.
Chu Y, Luo G, Zhou L, Cao S, Ma G, Meng X, Zhou J, Yang C, Xie D, Mu D, Henao R, Setti G, Xiao X, Wu L, Qiu Z, Gao X. Deep learning-driven pulmonary artery and vein segmentation reveals
demography-associated vasculature anatomical differences. 2024.
Publication Date
April 11, 2024