Advances and perspective on the translational medicine of biodegradable metals.

Biomaterials Translational Pub Date : 2021-09-28 eCollection Date: 2021-01-01 DOI:10.12336/biomatertransl.2021.03.002
Hongtao Yang, Wenjiao Lin, Yufeng Zheng
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引用次数: 0

Abstract

Biodegradable metals, designed to be safely degraded and absorbed by the body after fulfil the intended functions, are of particular interest in the 21st century. The marriage of advanced biodegradable metals with clinical needs have yield unprecedented possibility. Magnesium, iron, and zinc-based materials constitute the main components of temporary, implantable metallic medical devices. A burgeoning number of studies on biodegradable metals have driven the clinical translation of biodegradable metallic devices in the fields of cardiology and orthopaedics over the last decade. Their ability to degrade as well as their beneficial biological functions elicited during degradation endow this type of material with the potential to shift the paradigm in the treatment of musculoskeletal and cardiovascular diseases. This review provides an insight into the degradation mechanism of these metallic devices in specific application sites and introduces state-of-the-art translational research in the field of biodegradable metals, as well as highlighting some challenges for materials design strategies in the context of mechanical and biological compatibility.

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生物可降解金属转化医学的进展和前景。
可生物降解金属在实现预期功能后会被人体安全降解和吸收,这在 21 世纪尤其引人关注。先进的生物可降解金属与临床需求的结合产生了前所未有的可能性。镁、铁和锌基材料是临时植入式金属医疗器械的主要成分。在过去的十年中,有关可生物降解金属的大量研究推动了可生物降解金属设备在心脏病学和骨科领域的临床应用。可降解金属的降解能力以及降解过程中产生的有益生物功能赋予了这类材料改变肌肉骨骼和心血管疾病治疗模式的潜力。本综述深入探讨了这些金属器件在特定应用场所的降解机制,介绍了生物可降解金属领域最先进的转化研究,并着重指出了材料设计策略在机械和生物兼容性方面面临的一些挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
6.70
自引率
0.00%
发文量
9
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