The Key Laboratory of Biomedical Information Engineering of Ministry of Education, School of Life Science and Technology, Xi'an Jiaotong University, Xi'an, 710049, P. R. China.
Bioinspired Engineering and Biomechanics Center (BEBC), Xi'an Jiaotong University, Xi'an, 710049, P. R. China.
Biotechnol J. 2020 Jan;15(1):e1900086. doi: 10.1002/biot.201900086. Epub 2019 Sep 20.
4D bioprinting has emerged as a powerful technique where the fourth dimension "time" is incorporated with 3D bioprinting. In this technique, the printed bioconstructs are able to change their shapes or functionalities when triggered by either internal or external stimuli. In 4D bioprinting, the materials with/without cells enable the spatial-temporal control of the shape and/or functionality of the constructs. Using this method, researchers have printed bioconstructs that can transform into rather complex structures which are difficult to obtain directly by 3D bioprinting or other methods. Although the history of 4D bioprinting is short, rapid progress in this field is witnessed recently, with focus mainly on developing novel 4D printable materials, exploring novel methods to precisely control the process, and pursuing biomedical applications. To better understand this technique, the recent advances of 4D bioprinting, including the mechanism, structure design principles, applications in biomedical engineering, and also the facing challenges are reviewed.
4D 生物打印技术是一种强大的技术,其中第四维“时间”与 3D 生物打印相结合。在这项技术中,打印的生物结构体能够在受到内部或外部刺激时改变形状或功能。在 4D 生物打印中,具有/不具有细胞的材料能够实现对结构体的形状和/或功能的时空控制。使用这种方法,研究人员已经打印出了能够转变成相当复杂结构的生物结构体,这些结构很难通过 3D 生物打印或其他方法直接获得。尽管 4D 生物打印的历史很短,但最近在该领域取得了快速进展,主要集中在开发新型 4D 可打印材料、探索精确控制该过程的新方法以及追求生物医学应用上。为了更好地理解这项技术,本文综述了 4D 生物打印的最新进展,包括其机制、结构设计原则、在生物医学工程中的应用以及面临的挑战。
