丝基三维打印/生物打印在软骨组织工程和再生方面的趋势和进展

Yogendra Pratap Singh, Ashutosh Bandyopadhyay, Souradeep Dey, Nandana Bhardwaj, Biman B Mandal
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引用次数: 0

摘要

由于软骨的自我再生潜力有限,软骨修复仍是骨科领域的一项重大临床挑战,而且往往会发展为骨关节炎,降低生活质量。三维打印/生物打印技术在功能性组织替代物的生物制造方面受到了广泛关注,因为它能够根据患者的具体要求,通过精确的生物仿真控制,制造出复杂的结构,如分区结构软骨和骨软骨组织。为了开发适合三维打印/生物打印的生物墨水,蚕丝纤维素因其剪切稀化行为、细胞相容性、良好的可打印性、结构保真度、经济实惠、易于获得和加工等优势特性而备受关注。本综述试图概述利用丝基生物墨水/生物材料墨水进行软骨生物打印的当前趋势/策略和最新进展。本文阐述并综述了丝基生物墨水/生物材料墨水的发展、其成分和相关挑战,以及不同的生物打印技术。此外,还讨论了丝基生物墨水/生物材料墨水在软骨修复中的应用,以及在临床应用和生产下一代生物植入物方面所面临的挑战和未来发展方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Trends and advances in silk based 3D printing/bioprinting towards cartilage tissue engineering and regeneration
Cartilage repair remains a significant clinical challenge in orthopedics due to its limited self- regeneration potential and often progresses to osteoarthritis which reduces the quality of life. 3D printing/bioprinting has received vast attention in biofabrication of functional tissue substitutes due to its ability to develop complex structures such as zonally structured cartilage and osteochondral tissue as per patient specifications with precise biomimetic control. Towards a suitable bioink development for 3D printing/bioprinting, silk fibroin has garnered much attention due to its advantageous characteristics such as shear thinning behavior, cytocompatibility, good printability, structural fidelity, affordability, and ease of availability and processing. This review attempts to provide an overview of current trends/strategies and recent advancements in utilizing silk-based bioinks/biomaterial-inks for cartilage bioprinting. Herein, the development of silk-based bioinks/biomaterial-inks, its components and the associated challenges, along with different bioprinting techniques have been elaborated and reviewed. Furthermore, the applications of silk-based bioinks/biomaterial-inks in cartilage repair followed by challenges and future directions are discussed towards its clinical translations and production of next-generation biological implants.
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