Bioprinting of Multimaterials with Computer-aided Design/Computer-aided Manufacturing [0.03%]
基于计算机辅助设计/制造的多材料生物打印技术
J M Lee,S L Sing,W Y Yeong
J M Lee
Multimaterials deposition, a distinct advantage in bioprinting, overcomes material's limitation in hydrogel-based bioprinting. Multimaterials are deposited in a build/support configuration to improve the structural integrity of three-dimens...
Solvent-based Extrusion 3D Printing for the Fabrication of Tissue Engineering Scaffolds [0.03%]
基于溶剂的挤出式3D打印技术在组织工程支架制备中的应用研究
Bin Zhang,Rodica Cristescu,Douglas B Chrisey et al.
Bin Zhang et al.
Three-dimensional (3D) printing has been emerging as a new technology for scaffold fabrication to overcome the problems associated with the undesirable microstructure associated with the use of traditional methods. Solvent-based extrusion (...
Analysis of the knowledge landscape of three-dimensional bioprinting in Latin America [0.03%]
拉丁美洲三维生物打印知识图谱分析
Marisela Rodríguez-Salvador,Diego Villarreal-Garza,Mario Moisés Álvarez et al.
Marisela Rodríguez-Salvador et al.
Bioprinting, the printing of living cells using polymeric matrixes (mainly hydrogels), has attracted great attention among science and technology circles. North America has been one of the sources of bioprinting-related technology in recent...
Bioprinting with human stem cell-laden alginate-gelatin bioink and bioactive glass for tissue engineering [0.03%]
一种用于组织工程的人干细胞藻酸盐-胶原生物墨水及其生物活性玻璃的3D生物打印技术
Krishna C R Kolan,Julie A Semon,Bradley Bromet et al.
Krishna C R Kolan et al.
Three-dimensional (3D) bioprinting technologies have shown great potential in the fabrication of 3D models for different human tissues. Stem cells are an attractive cell source in tissue engineering as they can be directed by material and e...
The future of skin toxicology testing - Three-dimensional bioprinting meets microfluidics [0.03%]
皮肤毒理学测试的未来——三维生物打印与微流体技术相结合
Wei Long Ng,Wai Yee Yeong
Wei Long Ng
Over the years, the field of toxicology testing has evolved tremendously from the use of animal models to the adaptation of in vitro testing models. In this perspective article, we aim to bridge the gap between the regulatory authorities wh...
Conductive collagen/polypyrrole-b-polycaprolactone hydrogel for bioprinting of neural tissue constructs [0.03%]
用于神经组织构建的生物打印导电胶原/聚吡咯-b-聚己内酯水凝胶
Sanjairaj Vijayavenkataraman,Novelia Vialli,Jerry Y H Fuh et al.
Sanjairaj Vijayavenkataraman et al.
Bioprinting is increasingly being used for fabrication of engineered tissues for regenerative medicine, drug testing, and other biomedical applications. The success of this technology lies with the development of suitable bioinks and hydrog...
Application of piezoelectric cells printing on three-dimensional porous bioceramic scaffold for bone regeneration [0.03%]
基于压电陶瓷活性骨材的3D多孔生物陶瓷支架修复骨折研究
Ming-You Shie,Hsin-Yuan Fang,Yen-Hong Lin et al.
Ming-You Shie et al.
In recent years, the additive manufacture was popularly used in tissue engineering, as the various technologies for this field of research can be used. The most common method is extrusion, which is commonly used in many bioprinting applicat...
Yi-Hsuan Ou,Yi-Hui Ou,Jing Gu et al.
Yi-Hsuan Ou et al.
Topical anesthetics are widely used in dental procedures. However, most commercially available medications are in the form of liquid or semisolid, which cannot provide prolonged effect intraorally. To address this issue, we proposed the use...
Rapid and efficient in vivo angiogenesis directed by electro-assisted bioprinting of alginate/collagen microspheres with human umbilical vein endothelial cell coating layer [0.03%]
基于电辅助生物打印的藻酸盐/胶原微球体内快速血管化效应研究
Rui Yao,Ahmed Yousef F Alkhawtani,Ruoyu Chen et al.
Rui Yao et al.
Rapid reconstruction of functional microvasculature is the urgent challenge of regenerative medicine and ischemia therapy development. The purpose of this study was to provide an alternative solution for obtaining functional blood vessel ne...
Preparation and printability of ultrashort self-assembling peptide nanoparticles [0.03%]
超短肽自组装纳米粒子的制备及可印刷性研究
Sarah Ghalayini,Hepi Hari Susapto,Sophie Hall et al.
Sarah Ghalayini et al.
Nanoparticles (NPs) have left their mark on the field of bioengineering. Fabricated from metallic, magnetic, and metal oxide materials, their applications include drug delivery, bioimaging, and cell labeling. However, as they enter the body...