3D Printed and Electrospun, Transparent, Hierarchical Polylactic Acid Mask Nanoporous Filter [0.03%]
三维打印及静电纺透明分层乳酸盐面具纳米多孔滤材
Haijun He,Min Gao,Balázs Illés et al.
Haijun He et al.
Face masks are becoming one of the most useful personal protective equipment with the outbreak of the coronavirus (CoV) pandemic. The entire world is experiencing shortage of disposable masks and melt-blown non-woven fabrics, which is the r...
Balasankar Meera Priyadarshini,Vishwesh Dikshit,Yi Zhang
Balasankar Meera Priyadarshini
In recent years, three-dimensional (3D) printing has markedly enhanced the functionality of bioreactors by offering the capability of manufacturing intricate architectures, which changes the way of conducting in vitro biomodeling and bioana...
Scaffold-free, Label-free, and Nozzle-free Magnetic Levitational Bioassembler for Rapid Formative Biofabrication of 3D Tissues and Organs [0.03%]
无支架、无标记和无喷嘴的磁悬浮生物组装器用于快速形成三维组织和器官的生物制造
Vladislav A Parfenov,Stanislav V Petrov,Frederico D A S Pereira et al.
Vladislav A Parfenov et al.
Scaffolding is the conceptual framework of conventional tissue engineering. Over the past decade, scaffold-free approaches as a potential alternative to classic scaffold-based methods have emerged, and scaffold-free magnetic levitational ti...
Peter Timashev,Vladimir Mironov
Peter Timashev
Bioprinting is a rapidly emerging biomedical research field. Three-dimensional bioprinting is defined as a robotic additive, layer-by-layer biofabrication of functional tissues and organs from living cells, and biomaterials according to a d...
Anton Elemoso,Grigoriy Shalunov,Yakov M Balakhovsky et al.
Anton Elemoso et al.
Three-dimensional (3D) bioprinting as a technology is being researched and applied since 2003. It is actually several technologies (inkjet, extrusion, laser, magnetic bioprinting, etc.) under an umbrella term "3D bioprinting." The versatili...
Software for Bioprinting [0.03%]
用于生物打印的软件
Catherine Pakhomova,Dmitry Popov,Eugenii Maltsev et al.
Catherine Pakhomova et al.
The bioprinting of heterogeneous organs is a crucial issue. To reach the complexity of such organs, there is a need for highly specialized software that will meet all requirements such as accuracy, complexity, and others. The primary object...
3D Printed Gene-activated Octacalcium Phosphate Implants for Large Bone Defects Engineering [0.03%]
用于大型骨缺损工程的3D打印基因激活八钙磷酸盐植入物
Ilya Y Bozo,Roman V Deev,Igor V Smirnov et al.
Ilya Y Bozo et al.
The aim of the study was the development of three-dimensional (3D) printed gene-activated implants based on octacalcium phosphate (OCP) and plasmid DNA encoding VEGFA. The first objective of the present work involved design and fabrication ...
Anastasia Kirillova,Stanislav Bushev,Aydar Abubakirov et al.
Anastasia Kirillova et al.
Bioethical and legal issues of three-dimensional (3D) bioprinting as the emerging field of biotechnology have not yet been widely discussed among bioethicists around the world, including Russia. The scope of 3D bioprinting includes not only...
Egor Olegovich Osidak,Vadim Igorevich Kozhukhov,Mariya Sergeevna Osidak et al.
Egor Olegovich Osidak et al.
Biomaterials made using collagen are successfully used as a three-dimensional (3D) substrate for cell culture and considered to be promising scaffolds for creating artificial tissues. An important task that arises for engineering such mater...
Anastasia Shpichka,Daria Osipova,Yuri Efremov et al.
Anastasia Shpichka et al.
For the past 10 years, the main efforts of most bioprinting research teams have focused on creating new bioink formulations, rather than inventing new printing set-up concepts. New tissue-specific bioinks with good printability, shape fidel...