著者
Koh Ono Satoshi Shizuta Erika Yamamoto Naritatsu Saito Neiko Ozasa Takao Kato Eri Kato Takahiro Horie Junichi Tazaki Hiroki Shiomi Shin Watanabe Hirotoshi Watanabe Yugo Yamashita Yusuke Yoshikawa Hideyuki Kinoshita Takeru Makiyama Yoshinori Yoshida Noboru Ashida Yasuaki Nakagawa Yasuhiro Nakashima Osamu Baba Hirohiko Kohjitani Masahiro Kimura Hideaki Inazumi Takashi Yoshizawa Akihiro Komasa Takeshi Kimura
出版者
The Japanese Circulation Society
雑誌
Circulation Journal (ISSN:13469843)
巻号頁・発行日
pp.CJ-21-0041, (Released:2021-01-30)
参考文献数
10

Due to the COVID-19 pandemic, the 84thAnnual Meeting of the Japanese Circulation Society (JCS) was held in a web-based format for the first time in its history as “The Week for JCS 2020” from Monday, July 27 to Sunday, August 2, 2020. All sessions, including general abstracts, were streamed live or on-demand. The main theme of the meeting was “Change Practice!” and the aim was to organize the latest findings in the field of cardiovascular medicine and discuss how to change practice. The total number of registered attendees was over 16,800, far exceeding our expectations, and many of the sessions were viewed by far more people than at conventional face-to-face scientific meetings. At this conference, the power of online information dissemination was fully demonstrated, and the evolution of online academic meetings will be a direction that cannot be reversed in the future. The meeting was completed with great success, and we express our heartfelt gratitude to all affiliates for their enormous amount of work, cooperation, and support.
著者
Shinichi Goto Noriko Tamura Kengo Ayabe Eri Kato Terumitsu Hasebe Shu Takagi Yota Kawamura Shinya Goto
出版者
JAPANESE SOCIETY OF BIORHEOLOGY
雑誌
Journal of Biorheology (ISSN:18670466)
巻号頁・発行日
vol.31, no.2, pp.30-34, 2017 (Released:2018-02-23)
参考文献数
19
被引用文献数
4 4

Formation of thrombi is a complex biological event involving platelets and coagulation cascades. The both have been well investigated individually. However, the inter-relationship between them is still to be elucidated. The recent progresses in computer technology may allow us to simulate complex biological phenomena in silico. Here we report a novel method to reproduce the complex system of the inter-relationship between platelet and coagulation by combining the previous simulation model of platelet adhesion with the model of coagulation cascade. We have reproduced the biological process of thrombus growth occurring in the mice cremasteric artery induced by endothelial injury by FeCl3 with our newly developed computer simulator.