| Literature DB >> 31033203 |
Marcel Alexander Heinrich1,2, Wanjun Liu1,3, Andrea Jimenez1,4, Jingzhou Yang1,5, Ali Akpek1,6,7, Xiao Liu1,8, Qingmeng Pi1,9, Xuan Mu1, Ning Hu1,10, Raymond Michel Schiffelers11, Jai Prakash2, Jingwei Xie12, Yu Shrike Zhang1.
Abstract
Over the last decades, the fabrication of 3D tissues has become commonplace in tissue engineering and regenerative medicine. However, conventional 3D biofabrication techniques such as scaffolding, microengineering, and fiber and cell sheet engineering are limited in their capacity to fabricate complex tissue constructs with the required precision and controllability that is needed to replicate biologically relevant tissues. To this end, 3D bioprinting offers great versatility to fabricate biomimetic, volumetric tissues that are structurally and functionally relevant. It enables precise control of the composition, spatial distribution, and architecture of resulting constructs facilitating the recapitulation of the delicate shapes and structures of targeted organs and tissues. This Review systematically covers the history of bioprinting and the most recent advances in instrumentation and methods. It then focuses on the requirements for bioinks and cells to achieve optimal fabrication of biomimetic constructs. Next, emerging evolutions and future directions of bioprinting are discussed, such as freeform, high-resolution, multimaterial, and 4D bioprinting. Finally, the translational potential of bioprinting and bioprinted tissues of various categories are presented and the Review is concluded by exemplifying commercially available bioprinting platforms.Entities:
Keywords: 3D bioprinting; additive manufacturing; bioinks; regenerative medicine; tissue engineering
Year: 2019 PMID: 31033203 PMCID: PMC6752725 DOI: 10.1002/smll.201805510
Source DB: PubMed Journal: Small ISSN: 1613-6810 Impact factor: 13.281