一、讲座题目

Future Materials for Health: Fostering Innovation through Surfaces and Interfaces

二、主讲人

Diego Mantovani教授（加拿大工程院院士，加拿大拉瓦尔大学教授）

三、 报告时间

2025年4月29日（星期二）16:00-17:00

四、主讲人简介

Diego Mantovani，加拿大拉瓦尔大学生物材料和生物工程实验室主任、Min-Met-Materials Eng. 系教授，国际公认的生物材料和生物工程专家。研究聚焦等离子体表面改性、功能性聚合物薄膜、细胞-材料相互作用、可降解金属材料，以及心血管组织再生的支架与生物反应器技术等。在Nature Cardiology， Nature Protocols, Langmuir，PNAS, Materials Today, Bioactive Materials, Acta biomateralia, Biomaterials等期刊发表论文500余篇，持有5项专利，并在全球进行300余次特邀演讲。2012年当选世界生物材料科学与工程会会士，2016年当选美国国际材料研究学会会士，2019年获评美国医学与生物工程院会士，2020年当选加拿大工程院院士，2024年5月入选世界生物材料科学与工程会（FBSE）指导委员会成员。受邀担任多所大学医学、工程和临床中心教授，是美洲、欧洲及亚洲三大医疗设备联盟顾问委员会成员。

五、报告摘要

Over the last 100 years, life expectancy has doubled in almost all regions of the Globe. Innovation in clinical therapies, biomaterials, prostheses and implants saved and prolonged the lives of millions every day. Today, advanced manufacturing techniques, nano-biotechnology, nanomaterials and surface modifications provide new insights and open undreamed doors to future challenges that may bring additional impact to Human quality of life worldwide.

In this talk, we will merge years of experience in materials science and engineering research applied to Health, and the outcomes of numerous successful and unsuccessful projects in research-development and innovation with companies worldwide to present a rather personal vision of the future of the field of biomedical engineered materials. Creative strategies for modifying and engineering the surface and the interface of biomaterials, including metals, polymers from natural and synthetic sources, will be discussed. The unique potential of low-pressure low-temperature plasma surface modification will be detailed. The overall aim of how far innovation can bring tomorrow solutions for Health, including therapeutics, reparative and regenerative medicine will be outlined. Costs for patients and burden for the Society will be critically discussed. Finally, applications for patients will be emphasized, including biologically active-based, biomimetic, low-fouling, bactericidal, and antiviral coatings.

六、参会方式

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