3D Printing Technologies in Metallic Implants: A Thematic Review on the Techniques and Procedures [0.03%]
金属植入物的3D打印技术:关于技术和流程的主题性综述
Shokouh Attarilar,Mahmoud Ebrahimi,Faramarz Djavanroodi et al.
Shokouh Attarilar et al.
Additive manufacturing (AM) is among the most attractive methods to produce implants, the processes are very swift and it can be precisely controlled to meet patient's requirement since they can be produced in exact shape, dimension, and ev...
Biodegradation, Antibacterial Performance, and Cytocompatibility of a Novel ZK30-Cu-Mn Biomedical Alloy Produced by Selective Laser Melting [0.03%]
选择性激光熔化制备ZK30-Cu-Mn生物医用合金的可降解性、抗菌性和细胞相容性研究
Bin Xie,Ming-Chun Zhao,Rong Xu et al.
Bin Xie et al.
In the present study, an antibacterial biomedical magnesium (Mg) alloy with a low biodegradation rate was designed, and ZK30-0.2Cu-xMn (x = 0, 0.4, 0.8, 1.2, and 1.6 wt%) was produced by selective laser melting, which is a widely applied la...
3D Composite Bioprinting for Fabrication of Artificial Biological Tissues [0.03%]
用于制造人造生物组织的三维复合生物打印技术
Yi Zhang,Bin Wang,Junchao Hu et al.
Yi Zhang et al.
Three-dimensional (3D) bioprinting is an important technology for fabricating artificial tissue. To effectively reconstruct the multiscale structure and multi-material gradient of natural tissues and organs, 3D bioprinting has been increasi...
Using Plant Proteins to Develop Composite Scaffolds for Cell Culture Applications [0.03%]
利用植物蛋白开发用于细胞培养的复合支架
Linzhi Jing,Jie Sun,Hang Liu et al.
Linzhi Jing et al.
Electrohydrodynamic printing (EHDP) is capable of fabricating scaffolds that consist of micro/nano scale orientated fibers for three-dimensional (3D) cell culture models and drug screening applications. One of the major hurdles that limit t...
[This corrects the article on p. 153 in vol. 5, PMID: 32596529.][This corrects the article on p. 165 in vol. 5, PMID: 32596530.][This corrects the article on p. 172 in vol. 5, PMID: 32782979.][This corrects the article on p. 170 in vol. 5, ...
Published Erratum
International journal of bioprinting. 2020 Sep 17;6(4):309. DOI:10.18063/ijb.v6i4.309 2020
Jia Min Lee,Swee Leong Sing,Miaomiao Zhou et al.
Jia Min Lee et al.
This article aims to provide further classification of cell-compatible bioprinting processes and examine the concept of 3D bioprinting within the general technology field of 3D printing. These technologies are categorized into four distinct...
Bioprinting science [0.03%]
生物打印科学
Chee Kai Chua
Chee Kai Chua
Uncovering 3D bioprinting research trends: A keyword network mapping analysis [0.03%]
基于关键词网络映射的3D生物打印研究趋势分析
Leonardo Azael Garcia-Garcia,Marisela Rodriguez-Salvador
Leonardo Azael Garcia-Garcia
A scientometric analysis as part of a Competitive Technology Intelligence methodology was used to determine the main research efforts in 3D bioprinting. Papers from Scopus and Web of Science (WoS) published between 2000 and 2017 were analys...
Fabrication of biomimetic placental barrier structures within a microfluidic device utilizing two-photon polymerization [0.03%]
基于两光子聚合的微流控芯片仿生胎盘屏障结构构建技术
Denise Mandt,Peter Gruber,Marica Markovic et al.
Denise Mandt et al.
The placenta is a transient organ, essential for development and survival of the unborn fetus. It interfaces the body of the pregnant woman with the unborn child and secures transport of endogenous and exogenous substances. Maternal and fet...
Cavin Tan,Wei Yan Toh,Gladys Wong et al.
Cavin Tan et al.
To help people with dysphagia increase their food intake, 3D printing can be used to improve the visual appeal of pureed diets. In this review, we have looked at the works done to date on extrusion-based 3D food printing with an emphasis on...