APA
Maeda-Otsuka S., Kajihara I., Tasaki Y., Yamada-Kanazawa S., Sakamoto R., Sawamura S., Masuzawa M., Masuzawa M., Amoh Y., Hoshina D., Abe R., Komohara Y. & Ihn H. (20190826). Hypoxia accelerates the progression of angiosarcoma through the regulation of angiosarcoma cells and tumor microenvironment. : Journal of dermatological science.
Chicago
Maeda-Otsuka Saki, Kajihara Ikko, Tasaki Yukino, Yamada-Kanazawa Saori, Sakamoto Ryoko, Sawamura Soichiro, Masuzawa Mamiko, Masuzawa Mikio, Amoh Yasuyuki, Hoshina Daichi, Abe Riichiro, Komohara Yoshihiro and Ihn Hironobu. 20190826. Hypoxia accelerates the progression of angiosarcoma through the regulation of angiosarcoma cells and tumor microenvironment. : Journal of dermatological science.
Harvard
Maeda-Otsuka S., Kajihara I., Tasaki Y., Yamada-Kanazawa S., Sakamoto R., Sawamura S., Masuzawa M., Masuzawa M., Amoh Y., Hoshina D., Abe R., Komohara Y. and Ihn H. (20190826). Hypoxia accelerates the progression of angiosarcoma through the regulation of angiosarcoma cells and tumor microenvironment. : Journal of dermatological science.
MLA
Maeda-Otsuka Saki, Kajihara Ikko, Tasaki Yukino, Yamada-Kanazawa Saori, Sakamoto Ryoko, Sawamura Soichiro, Masuzawa Mamiko, Masuzawa Mikio, Amoh Yasuyuki, Hoshina Daichi, Abe Riichiro, Komohara Yoshihiro and Ihn Hironobu. Hypoxia accelerates the progression of angiosarcoma through the regulation of angiosarcoma cells and tumor microenvironment. : Journal of dermatological science. 20190826.