SUNDAY: 8th Nov., 2020
07:00 PM (Beijing) | 07:00 AM (New York) | 11:00 AM (London)
Tencent Meeting ID: 512 640 603 Passcode: 678908
Sponsors:
Chinese Society for Biomaterials Biomechanics Branch
The Chinese Society of Theoretical and Applied Mechanics / Chinese Society of Biomedical Engineering Biomechanics Branch
Chinese Society of Biomedical Engineering Rehabilitation Engineering Branch
Organizers:
Beijing Advanced Innovation Center for Biomedical Engineering
Journal Editorial Office of Medicine in Novel Technology and Devices
Key Laboratory for Biomechanics and Mechanobiology of Ministry of Education
Support Units:
Beijing Natural Science Foundation
ABOUT THE WEBINAR:
Cardiovascular hemodynamics is highly complex, spanning a wide range of fluid dynamics phenomena from system-level hemodynamic regulation and interaction to flow patterns in local regions. Given the limitations of in vivo measurements, computational modeling methods have been widely applied as an adjunct tool to deepen the understanding of hemodynamic behaviors and their relations to cardiovascular properties, explore hemodynamic mechanisms behind the initiation and progression of vascular disease, and interpret the outcome of clinical treatment from the biomechanical point of view. In this talk, we will introduce some modeling methods for addressing various hemodynamic problems involved in the exploration of basic cardiovascular physiology, assessment of vascular disease, or innovation of medical devices. The content of the talk is divided into three parts according to the methodology of modeling, namely, part 1: reduced-order multi-scale modeling, which focuses on system or organ-level hemodynamic phenomena, part 2: three-dimensional modeling, which is devoted to investigating the influences of vascular morphology and boundary conditions on local flow patterns and vascular diseases, and part 3: coupled modeling of the cardiovascular system and medical device, which is aimed to provide biomechanical insights for understanding the work principles of existing devices, or exploring novel measurement methods.
ABOUT THE SPEAKER:
Professor Fuyou Liang
Department of Engineering Mechanics, School of Naval Architecture, Ocean and Civil Engineering, Shanghai Jiao Tong University
Fuyou Liang is a professor at the Department of Engineering Mechanics, Shanghai Jiao Tong University (China), the responsible professor of the SJTU Innovation Studio of Biomechanics and Medical Instruments, and the director of the AO-SJTU Joint Laboratory of Biomechanics at SJTU. He received his Ph.D in Artificial Systems Science at Chiba University (Japan) in 2007. Since then, he has been working at RIKEN (Japan) as a research scientist until moving to Shanghai Jiao Tong University in 2012. He has been a visiting scholar, adjunct faculty member, or guest researcher at RIKEN (Japan) (2012-2016), The University of Tokyo (Japan) (2013), Wright State University (USA) (2015-2019), and Sechenov University (Russia) (2018-present). His main research fields include cardiovascular hemodynamics, computational biomechanics and non-invasive medical device. He is an author of over 50 peer-reviewed journal papers, with a total citation number of over 1400 (data from Google Scholar), and an inventor of 4 authorized patents. From 2015 to 2018, he was awarded in four successive years one of the “Most Cited Chinese Scholars of the Year” in the field of Biomedical Engineering. He won the First Prize of the “Outstanding Young Scholars in Mechanics” (Shanghai Society of Theoretical and Applied Mechanics) in 2017 and the Second Prize of Mimics Innovation Awards (Asia-pacific) in 2019. He has been a session chair or scientific committee member of many international conferences, and currently serves as an editorial board member of three journals, a regular reviewer for over ten international journals, and a committee member of the Biomechanics Branch of the Shanghai Society of Theoretical and Applied Mechanics and the Biomechanics Branch of the Chinese Society for Biomaterials.