Marine biomaterials for sustainable bone regeneration

IF 5.4 1区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY
GIANT Pub Date : 2024-06-03 DOI:10.1016/j.giant.2024.100298
Haowei Wang , Xinyu Li , Mingcheng Xuan , Ren Yang , Jianhui Zhang , Jinke Chang
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引用次数: 0

Abstract

The field of bone regeneration has witnessed significant advancements with the exploration and incorporation of marine biomaterials, offering promising avenues for orthopaedic and dental applications. Marine environments are a rich source of biological materials with unique properties conducive to bone healing and regeneration. Repurposing and reusing some waste by-products of marine products for bone regeneration not only contribute to environmental protection but also drives the development of the marine economy, thereby achieving sustainable development. Moreover, the lower production costs associated with the abundant availability and easy processing of marine biomaterials make bone regeneration therapies more accessible to a broader population, enhancing global health equity. By exploring the current research progressions on marine biomaterials and recounting their sources, properties, mechanisms of action, and applications in bone regeneration research, this review provides a comprehensive overview of the potential and challenges of marine biomaterials for future bone healing and regeneration applications.

Abstract Image

用于可持续骨再生的海洋生物材料
随着海洋生物材料的探索和应用,骨再生领域取得了重大进展,为整形外科和牙科应用提供了前景广阔的途径。海洋环境中蕴藏着丰富的生物材料,其独特的特性有利于骨骼的愈合和再生。将海洋产品的一些废弃副产品再利用和再循环用于骨再生,不仅有助于环境保护,还能推动海洋经济的发展,从而实现可持续发展。此外,由于海洋生物材料丰富且易于加工,生产成本较低,因此骨再生疗法更容易被更多人接受,从而提高了全球健康公平性。本综述通过探讨当前海洋生物材料的研究进展,阐述其来源、特性、作用机制以及在骨再生研究中的应用,全面概述了海洋生物材料在未来骨愈合和再生应用中的潜力和挑战。
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来源期刊
GIANT
GIANT Multiple-
CiteScore
8.50
自引率
8.60%
发文量
46
审稿时长
42 days
期刊介绍: Giant is an interdisciplinary title focusing on fundamental and applied macromolecular science spanning all chemistry, physics, biology, and materials aspects of the field in the broadest sense. Key areas covered include macromolecular chemistry, supramolecular assembly, multiscale and multifunctional materials, organic-inorganic hybrid materials, biophysics, biomimetics and surface science. Core topics range from developments in synthesis, characterisation and assembly towards creating uniformly sized precision macromolecules with tailored properties, to the design and assembly of nanostructured materials in multiple dimensions, and further to the study of smart or living designer materials with tuneable multiscale properties.
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