基于透明质酸生物墨水的组织工程三维打印支架:综述。

IF 8.1 Q1 ENGINEERING, BIOMEDICAL
Han Chen, Huaqian Xue, Huanxuan Zeng, Minghai Dai, Chengxuan Tang, Liangle Liu
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引用次数: 0

摘要

透明质酸(HA)广泛分布于人体结缔组织中,其独特的生物和物理化学特性以及促进生物结构修复的能力使其成为组织再生和生物医学工程领域三维(3D)生物打印的理想候选材料。此外,HA 还具有组织相容性、非免疫原性、生物可降解性、抗炎性、抗血管生成性和可调控性,是组织工程中理想的生物墨水原料。组织工程是一个多学科领域,侧重于哺乳动物组织的体外重建,如软骨组织工程、神经组织工程、皮肤组织工程以及其他需要进一步临床应用的领域。在这篇综述中,我们首先介绍了作为生物材料的 HA 及其衍生物的改性方法、交联方法和生物打印策略,然后批判性地讨论了每种方法的优点、缺点和可行性。随后,我们回顾了 HA 生物墨水在三维生物打印中的实际临床应用和成果。最后,我们阐述了 HA 生物墨水开发过程中面临的挑战和机遇,为进一步的研究提供参考和启示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
3D printed scaffolds based on hyaluronic acid bioinks for tissue engineering: a review.

Hyaluronic acid (HA) is widely distributed in human connective tissue, and its unique biological and physicochemical properties and ability to facilitate biological structure repair make it a promising candidate for three-dimensional (3D) bioprinting in the field of tissue regeneration and biomedical engineering. Moreover, HA is an ideal raw material for bioinks in tissue engineering because of its histocompatibility, non-immunogenicity, biodegradability, anti-inflammatory properties, anti-angiogenic properties, and modifiability. Tissue engineering is a multidisciplinary field focusing on in vitro reconstructions of mammalian tissues, such as cartilage tissue engineering, neural tissue engineering, skin tissue engineering, and other areas that require further clinical applications. In this review, we first describe the modification methods, cross-linking methods, and bioprinting strategies for HA and its derivatives as bioinks and then critically discuss the strengths, shortcomings, and feasibility of each method. Subsequently, we reviewed the practical clinical applications and outcomes of HA bioink in 3D bioprinting. Finally, we describe the challenges and opportunities in the development of HA bioink to provide further research references and insights.

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