3D 生物打印 | LUMEN X | 12/04/2020 Patient-Specific 3D Bioprinted Models of Developing Human Heart The heart is the first organ to develop in the human embryo through a series of complex chronological processes, many of which critically rely on the interplay between cells and the dynamic microenvironment. Tight spatiotemporal [...]
3D 生物打印 | CELLINK START | 11/18/2020 Extrusion bioprinting: Recent progress, challenges, and future opportunities Extrusion-based bioprinting involves extrusion of bioinks through nozzles to create three-dimensional structures. The bioink contains living organisms with biological relevance for emerging applications such as tissue scaffolds, [...]
3D 生物打印 | INKREDIBLE+ | 11/16/2020 使用亲水性 (AB)n 嵌段共聚物进行熔融挤出增材制造 Several manufacturing technologies beneficially involve processing from the melt, including extrusion‐based printing, electrospinning, and electrohydrodynamic jetting. In this study, (AB)n segmented copolymers are tailored for [...]
3D 生物打印 | INKREDIBLE+ | 11/14/2020 使用 3D 生物打印的 HepaRG 培养物作为长期黄曲霉毒素 B1 毒性体外检测模型 In recent years 3D-bioprinting technology has been developed as an alternative to animal testing. It possesses a great potential for in vitro testing as it aims to mimic human organs and physiology. In the present study, an [...]
3D 生物打印 | CELLINK Bioink | 11/12/2020 Image analysis as PAT-Tool for use in extrusion-based bioprinting The technology of bioprinting is arousing a growing interest in biopharmaceutical research and industry. In order to accelerate process development in the field of bioprinting, image-based analysis methods are non-invasive, time- and [...]
3D 生物打印 | CELLINK Bioink | 11/10/2020 Alginate-Based Bioinks for 3D Bioprinting and Fabrication of Anatomically Accurate Bone Grafts To realize the promise of 3D bioprinting, it is imperative to develop bioinks that possess the necessary biological and rheological characteristics for printing cell-laden tissue grafts. Alginate is widely used as a bioink because its [...]
3D 生物打印 | BIO X™ | 11/08/2020 通过铁离子螯合实现传感和抗菌活性的纳米胶体水凝胶 Advanced wound dressings improve wound healing by releasing antibacterial agents, accelerating wound closure, and reporting (sensing) changes in the wound’s state. The challenge with the release of antibacterial agents such as [...]