利用源自植物的生物材料进行生物打印的生物墨水。

IF 8.2 2区 医学 Q1 ENGINEERING, BIOMEDICAL Biofabrication Pub Date : 2024-08-22 DOI:10.1088/1758-5090/ad6932
Md Mehedee Hasan, Ashfaq Ahmad, Mst Zobaida Akter, Yeong-Jin Choi, Hee-Gyeong Yi
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引用次数: 0

摘要

三维生物打印技术通过制造复杂的功能性人体组织和器官,彻底改变了组织工程学。成功进行三维生物打印的一个基本要素是选择一种能够支持细胞增殖和存活的适当生物墨水。植物来源的生物材料因其丰富性、生物相容性和可调特性,有望成为生物墨水来源,从而比动物来源的生物材料更具优势,因为动物来源的生物材料存在免疫原性问题。本综述探讨并分析了植物源生物材料作为生物墨水用于人体组织三维生物打印的潜力。文章讨论了如何对这些材料进行改性和优化,以提高打印性能和生物功能。此外,还介绍了在生物打印各种人体组织(如骨、软骨、皮肤和血管组织)中使用植物基生物材料的癌症研究和药物测试应用。本综述还讨论了各种挑战和局限性,包括机械完整性、细胞活力、分辨率和监管问题,以及克服这些问题的潜在策略。此外,本综述还深入探讨了植物基 dECM 作为生物墨水的潜在用途、未来前景以及在三维生物打印应用中使用植物源生物材料的新兴趋势。本文强调了植物源生物材料作为生物墨水用于人体组织三维生物打印的潜力。不过,还需要进一步研究,以优化其加工过程、标准化其特性并评估其长期体内性能。植物衍生生物材料的不断进步有可能彻底改变组织工程学,并促进功能性再生疗法的开发,从而满足不同的临床应用需求。
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Bioinks for bioprinting using plant-derived biomaterials.

Three-dimensional (3D) bioprinting has revolutionized tissue engineering by enabling the fabrication of complex and functional human tissues and organs. An essential component of successful 3D bioprinting is the selection of an appropriate bioink capable of supporting cell proliferation and viability. Plant-derived biomaterials, because of their abundance, biocompatibility, and tunable properties, hold promise as bioink sources, thus offering advantages over animal-derived biomaterials, which carry immunogenic concerns. This comprehensive review explores and analyzes the potential of plant-derived biomaterials as bioinks for 3D bioprinting of human tissues. Modification and optimization of these materials to enhance printability and biological functionality are discussed. Furthermore, cancer research and drug testing applications of the use of plant-based biomaterials in bioprinting various human tissues such as bone, cartilage, skin, and vascular tissues are described. Challenges and limitations, including mechanical integrity, cell viability, resolution, and regulatory concerns, along with potential strategies to overcome them, are discussed. Additionally, this review provides insights into the potential use of plant-based decellularized ECM (dECM) as bioinks, future prospects, and emerging trends in the use of plant-derived biomaterials for 3D bioprinting applications. The potential of plant-derived biomaterials as bioinks for 3D bioprinting of human tissues is highlighted herein. However, further research is necessary to optimize their processing, standardize their properties, and evaluate their long-termin vivoperformance. Continued advancements in plant-derived biomaterials have the potential to revolutionize tissue engineering and facilitate the development of functional and regenerative therapies for diverse clinical applications.

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来源期刊
Biofabrication
Biofabrication ENGINEERING, BIOMEDICAL-MATERIALS SCIENCE, BIOMATERIALS
CiteScore
17.40
自引率
3.30%
发文量
118
审稿时长
2 months
期刊介绍: Biofabrication is dedicated to advancing cutting-edge research on the utilization of cells, proteins, biological materials, and biomaterials as fundamental components for the construction of biological systems and/or therapeutic products. Additionally, it proudly serves as the official journal of the International Society for Biofabrication (ISBF).
期刊最新文献
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