Mechanism for corrosion protection of β-TCP reinforced ZK60 via laser rapid solidification [0.03%]
激光快速凝固制备的β-TCP增强ZK60复合材料耐蚀机理研究
Youwen Deng,Youwen Yang,Chengde Gao et al.
Youwen Deng et al.
It remains the primary issue to enhance the corrosion resistance of Mg alloys for their clinical applications. In this study, β-tricalcium phosphate (β-TCP) was composited with Mg-6Zn-1Zr (ZK60) using laser rapid solidification to improve...
Pre-clinical evaluation of advanced nerve guide conduits using a novel 3D in vitro testing model [0.03%]
利用新型三维体外模型评估周围神经高级导管支架的疗效
Mehri Behbehani,Adam Glen,Caroline S Taylor et al.
Mehri Behbehani et al.
Autografts are the current gold standard for large peripheral nerve defects in clinics despite the frequently occurring side effects like donor site morbidity. Hollow nerve guidance conduits (NGC) are proposed alternatives to autografts, bu...
An nMgO containing scaffold: Antibacterial activity, degradation properties and cell responses [0.03%]
一种含n-MgO的支架:抗菌性、降解性和细胞反应
Cijun Shuai,Wang Guo,Chengde Gao et al.
Cijun Shuai et al.
Bone repair failure caused by implant-related infections is a common and troublesome problem. In this study, an antibacterial scaffold was developed via selective laser sintering with incorporating nano magnesium oxide (nMgO) to poly(3-hydr...
3D printing for drug manufacturing: A perspective on the future of pharmaceuticals [0.03%]
药物制造的3D打印技术——制药业未来的展望
Eric Lepowsky,Savas Tasoglu
Eric Lepowsky
Since a three-dimensional (3D) printed drug was first approved by the Food and Drug Administration in 2015, there has been a growing interest in 3D printing for drug manufacturing. There are multiple 3D printing methods - including selectiv...
Laser-induced Forward Transfer Hydrogel Printing: A Defined Route for Highly Controlled Process [0.03%]
激光诱导正向转移水凝胶印刷:一种高度控制过程的定义途径
Vladimir Yusupov,Semyon Churbanov,Ekaterina Churbanova et al.
Vladimir Yusupov et al.
Laser-induced forward transfer is a versatile, non-contact, and nozzle-free printing technique which has demonstrated high potential for different printing applications with high resolution. In this article, three most widely used hydrogels...
Hybrid three-dimensional (3D) bioprinting of retina equivalent for ocular research [0.03%]
用于眼部研究的混合三维(3D)生物打印视网膜等效物
Pujiang Shi,Tan Yong Sheng Edgar,Wai Yee Yeong et al.
Pujiang Shi et al.
In this article, a hybrid retina construct was created via three-dimensional (3D) bioprinting technology. The construct was composed of a PCL ultrathin membrane, ARPE-19 cell monolayer and Y79 cell-laden alginate/pluronic bioink. 3D bioprin...
Bioprinting of osteochondral tissues: A perspective on current gaps and future trends [0.03%]
骨软骨组织的生物打印技术:对当前差距和未来趋势的看法
Pallab Datta,Aman Dhawan,Yin Yu et al.
Pallab Datta et al.
Osteochondral tissue regeneration has remained a critical challenge in orthopaedic surgery, especially due to complications of arthritic degeneration arising out of mechanical dislocations of joints. The common gold standard of autografting...
Samuel C Sklare,Winona L Richey,Benjamin T Vinson et al.
Samuel C Sklare et al.
Laser direct-write (LDW) bioprinting methods offer a diverse set of tools to design experiments, fabricate tissue constructs and to cellular microenvironments all in a CAD/CAM manner. To date, we have just scratched the surface of the syste...
Chee Kai Chua
Chee Kai Chua
Printing amphotericin B on microneedles using matrix-assisted pulsed laser evaporation [0.03%]
使用矩阵辅助脉冲激光蒸发在微针上印刷两性霉素B
Roger Sachan,Panupong Jaipan,Jennifer Y Zhang et al.
Roger Sachan et al.
Transdermal delivery of amphotericin B, a pharmacological agent with activity against fungi and parasitic protozoa, is a challenge since amphotericin B exhibits poor solubility in aqueous solutions at physiologic pH values. In this study, w...