学院动态

【成大讲坛】Donghui Zhu:Toward Better Bone Regeneration: Innovation in Metallic and Ceramic Scaffolds

发布时间: 2023年07月18日 作者: 来源: 点击:
主办 药学院、川抗所 协办
时间 7月21日9:30 地点 川抗医药科创园区A319


主讲人简介

Donghui Zhu is a distinguished scholar and SUNY Empire Innovation Professor in the Department of Biomedical Engineering, Institute for Engineering-Driven Medicine, Center of Healthy Aging, and Neuroscience Program at SUNY-Stony Brook University. He completed his Ph.D. in Bioengineering from the University of Missouri-Columbia in 2006 and then pursued postdoctoral training at the University of Rochester. Since joining academia in 2010 as a tenure-track faculty member, Dr. Zhu has been committed to the field of biomaterials and tissue engineering. Dr. Zhu’s research endeavors span a wide range of medical applications, including medical implants and devices, regenerative medicine, and therapies for cardiovascular diseases, musculoskeletal disorders, aging, and dementia. His groundbreaking research has garnered over $10 million in total extramural research funding and produced more than 100 peer-reviewed publications, establishing him as a leading figure in his field. He is an elected Fellow of the American Heart Association (AHA) and the American Institute for Medical and Biological Engineering (AIMBE). Moreover, Dr. Zhu serves as an editor-in-chief for two prestigious scientific journals, “Smart Material in Medicine” and “Engineered Regeneration,” in addition to his position on the editorial board of numerous scientific journals. He is a member of several federal grant review panels, including NIH, NSF, FDA, and NASA. Through his exceptional research and leadership, Dr. Zhu has made seminal contributions to the field of biomedical engineering and continues to advance the frontier of regenerative medicine.

主要内容:

Critical-sized bone defects remain a significant challenge in clinical settings for the purpose of regeneration. Although bone grafts are a viable treatment option,their clinical application is hindered by surgical risks and the morbidity associated with autologous grafts,as well as limitations in sourcing and the risks of alloimmunity with allogeneic grafts. Various types of scaffolding materials, including ceramics, polymers, metals, and composite materials, have been extensively investigated. While ceramic or polymer scaffolds may be suitable for low-stress loading bone defect sites, metal scaffolds provide the necessary mechanical support and stability for high load-bearing scenarios, such as long bone defects.

This seminar will focus on recent advancements in the utilization of biodegradable metals and bioactive bone cements as bioresorbable scaffolds to enhance bone regeneration. Taking advantages of additive manufacturing techniques, these scaffolds offer significant potential in the treatment of bone defects, thanks to their porous, customizable architecture, and functionalization capabilities. Moreover, these materials gradually corrode while maintaining their mechanical integrity during the critical tissue healing phase, ultimately dissolving completely once they have fulfilled their purpose.

报告时间2023721日上午9:30

报告地点:成都大学川抗医药科创园区A319会议室

主办单位:药学院、川抗所