APA
Sha L., Osinski B. L., Ho I. Y., Tan T. L., Willis C., Weiss H., Beaubier N., Mahon B. M., Taxter T. J. & Yip S. S. F. (2019). Multi-Field-of-View Deep Learning Model Predicts Nonsmall Cell Lung Cancer Programmed Death-Ligand 1 Status from Whole-Slide Hematoxylin and Eosin Images. : Journal of pathology informatics.
Chicago
Sha Lingdao, Osinski Boleslaw L, Ho Irvin Y, Tan Timothy L, Willis Caleb, Weiss Hannah, Beaubier Nike, Mahon Brett M, Taxter Tim J and Yip Stephen S F. 2019. Multi-Field-of-View Deep Learning Model Predicts Nonsmall Cell Lung Cancer Programmed Death-Ligand 1 Status from Whole-Slide Hematoxylin and Eosin Images. : Journal of pathology informatics.
Harvard
Sha L., Osinski B. L., Ho I. Y., Tan T. L., Willis C., Weiss H., Beaubier N., Mahon B. M., Taxter T. J. and Yip S. S. F. (2019). Multi-Field-of-View Deep Learning Model Predicts Nonsmall Cell Lung Cancer Programmed Death-Ligand 1 Status from Whole-Slide Hematoxylin and Eosin Images. : Journal of pathology informatics.
MLA
Sha Lingdao, Osinski Boleslaw L, Ho Irvin Y, Tan Timothy L, Willis Caleb, Weiss Hannah, Beaubier Nike, Mahon Brett M, Taxter Tim J and Yip Stephen S F. Multi-Field-of-View Deep Learning Model Predicts Nonsmall Cell Lung Cancer Programmed Death-Ligand 1 Status from Whole-Slide Hematoxylin and Eosin Images. : Journal of pathology informatics. 2019.