APA
Kather J. N., Pearson A. T., Halama N., Jäger D., Krause J., Loosen S. H., Marx A., Boor P., Tacke F., Neumann U. P., Grabsch H. I., Yoshikawa T., Brenner H., Chang-Claude J., Hoffmeister M., Trautwein C. & Luedde T. (20191114). Deep learning can predict microsatellite instability directly from histology in gastrointestinal cancer. : Nature medicine.
Chicago
Kather Jakob Nikolas, Pearson Alexander T, Halama Niels, Jäger Dirk, Krause Jeremias, Loosen Sven H, Marx Alexander, Boor Peter, Tacke Frank, Neumann Ulf Peter, Grabsch Heike I, Yoshikawa Takaki, Brenner Hermann, Chang-Claude Jenny, Hoffmeister Michael, Trautwein Christian and Luedde Tom. 20191114. Deep learning can predict microsatellite instability directly from histology in gastrointestinal cancer. : Nature medicine.
Harvard
Kather J. N., Pearson A. T., Halama N., Jäger D., Krause J., Loosen S. H., Marx A., Boor P., Tacke F., Neumann U. P., Grabsch H. I., Yoshikawa T., Brenner H., Chang-Claude J., Hoffmeister M., Trautwein C. and Luedde T. (20191114). Deep learning can predict microsatellite instability directly from histology in gastrointestinal cancer. : Nature medicine.
MLA
Kather Jakob Nikolas, Pearson Alexander T, Halama Niels, Jäger Dirk, Krause Jeremias, Loosen Sven H, Marx Alexander, Boor Peter, Tacke Frank, Neumann Ulf Peter, Grabsch Heike I, Yoshikawa Takaki, Brenner Hermann, Chang-Claude Jenny, Hoffmeister Michael, Trautwein Christian and Luedde Tom. Deep learning can predict microsatellite instability directly from histology in gastrointestinal cancer. : Nature medicine. 20191114.