生物3D打印的进展

Yongcong Fang , Yuzhi Guo , Tiankun Liu , Runze Xu , Shuangshuang Mao , Xingwu Mo , Ting Zhang , Liliang Ouyang , Zhuo Xiong , Wei Sun
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引用次数: 21

摘要

通过对生物材料、活细胞和生化成分逐层精确定位,三维生物打印已经成为一种很有前途的工程功能组织和器官的方法。与非生物打印相比,3D生物打印涉及额外的复杂性和技术挑战,因为活细胞的处理,例如适当的生物材料,满足可打印性和功能的要求。在这篇综述中,我们首先介绍了3D生物打印的发展历程,重点介绍了生物构建模块的创新形式和3D生物打印技术的进展。然后,我们总结了生物医学应用中生物3D打印的最新进展,包括宏观组织或器官生物打印、疾病建模、微生理系统、生物机器人和空间生物打印。尽管在过去的几十年里,生物3D打印技术发展迅速,但大多数生物3D打印组织或器官结构仍远不适合临床翻译,生物打印领域有必要将其重点从形状模仿转向功能开发。因此,我们提供我们对这个新兴领域的观点,重点是功能成熟后打印和床边的翻译应用。
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Advances in 3D Bioprinting

Three-dimensional (3D) bioprinting has emerged as a promising approach for engineering functional tissues and organs by layer-by-layer precise positioning of biological materials, living cells, and biochemical components. Compared with nonbiological printing, 3D bioprinting involves additional complexities and technical challenges owing to the processing of living cells, such as the appropriate biomaterials that fulfill the requirements for both printability and functionality. In this review, we first introduce the development course of 3D bioprinting, highlighting innovative forms of living building blocks and advances in enabling techniques of 3D bioprinting. We then summarize the state-of-the-art advancements in 3D bioprinting for biomedical applications, including macroscale tissue or organ bioprinting, disease modeling, microphysiological systems, biobots, and bioprinting in space. Despite the rapid development of 3D bioprinting over the past decades, most 3D bioprinted tissue or organ constructs are still far from being suitable for clinical translation, and it is necessary for the field of bioprinting to shift its focus from shape mimicking towards functionality development. Therefore, we provide our perspectives on this burgeoning field with an emphasis on functional maturation post printing and translational applications at the bedside.

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