刺激反应性水凝胶在骨再生中的应用进展

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Hamza Abu Owida, Feras Alnaimat
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引用次数: 0

摘要

近年来,骨缺损已成为骨科临床讨论的一个重要话题,引起了生物医学界和公众的广泛关注。由于水凝胶具有高含水量、柔软性、柔韧性和生物相容性等独特特性,在医疗行业的组织再生研究领域越来越受到关注。智能生物材料,如水凝胶,比它们的前辈要好得多,因为它们可以在物理、化学和生物等多个层面上对新的刺激做出反应。因为它们对不同的外部信号很敏感,比如三维形状和固液相之间的条件,它们表现出某些特征。这表明它们有能力在未来发展成为一种更有效的材料,这将使它们更适合于促进骨损伤的局部修复。本文将介绍水凝胶如何根据所处的环境改变其形状。本文涵盖的一些主题包括这些材料的分类、构成其合成基础的概念,以及在这个可能富有成果的领域的研究现状。这项研究的目的是寻找治疗严重骨缺损的新方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Recent Progress in Stimuli-Responsive Hydrogels Application for Bone Regeneration
Bone defects have recently surfaced as an important topic to discuss in orthopedic clinics, and as a result, they have captured the attention of the biomedical community as well as the general public. Because of their unique characteristics, such as high water content, softness, flexibility, and biocompatibility, hydrogels are gaining more and more traction in the field of tissue regeneration research within the medical industry. Intelligent biomaterials, like hydrogels, are much better than their predecessors because they can respond to new stimuli on multiple levels, such as the physical, chemical, and biological. Because they are sensitive to different outside cues, like shape in three dimensions and conditions between solid and liquid phases, they show certain traits. This indicates that they have the capability of developing into a more efficient material in the future, which would make them better suited to facilitate the localized repair of bone lesions. This article takes a look at hydrogels that alter their shape in response to the environment they are in. Some of the topics covered in this article include the classification of these materials, the concepts that underlie their synthesis, and the current state of research in this potentially fruitful field. This research was conducted with the intention of finding novel ways to treat severe bone defects.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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