Toward better drug development: Three-dimensional bioprinting in toxicological research [0.03%]
迈向更好的药物开发:三维生物打印在毒理学研究中的应用
Diána Szűcs,Zsolt Fekete,Melinda Guba et al.
Diána Szűcs et al.
The importance of three-dimensional (3D) models in pharmacological tests and personalized therapies is significant. These models allow us to gain insight into the cell response during drug absorption, distribution, metabolism, and eliminati...
Zn-doped chitosan/alginate multilayer coatings on porous hydroxyapatite scaffold with osteogenic and antibacterial properties [0.03%]
具有成骨和抗菌性能的Zn掺杂几丁质/海藻酸盐多层涂层在多孔羟基磷灰石支架上的形成
Zhijing He,Chen Jiao,Junnan Wu et al.
Zhijing He et al.
Porous hydroxyapatite (HA) scaffolds prepared by three-dimensional (3D) printing have wide application prospects owing to personalized structural design and excellent biocompatibility. However, the lack of antimicrobial properties limits it...
432A perspective on light-based bioprinting of DNA hydrogels for advanced bone regeneration: Implication for bone organoids [0.03%]
一种基于光的DNA水凝胶生物打印技术在先进骨再生中的视角:对骨器官体的应用意义
Bai Long,Li Mengmeng,Su Jiacan
Bai Long
Light-based three-dimensional (3D) printing of hydrogels has been widely adopted for accelerating bone regeneration. However, the design principles of traditional hydrogels do not take into consideration the biomimetic regulation of multipl...
3D printing of drug-eluting bioactive multifunctional coatings for orthopedic applications [0.03%]
用于骨科应用的负载药物的生物活性多功能涂层的三维打印技术
Eben Adarkwa,Abhijit Roy,John Ohodnicki et al.
Eben Adarkwa et al.
Three-dimensional (3D) printing is implemented for surface modification of titanium alloy substrates with multilayered biofunctional polymeric coatings. Poly(lactic-co-glycolic) acid (PLGA) and polycaprolactone (PCL) polymers were embedded ...
The first 3D-bioprinted personalized active bone to repair bone defects: A case report [0.03%]
首例个性化活性骨缺损修复的3D生物打印人工骨:病例报告
Yongqiang Hao,Bojun Cao,Liang Deng et al.
Yongqiang Hao et al.
The repair and reconstruction of bone defects are still major problems to be solved in the field of orthopedics. Meanwhile, 3D-bioprinted active bone implants may provide a new and effective solution. In this case, we used bioink prepared f...
Relationship between shear-thinning rheological properties of bioinks and bioprinting parameters [0.03%]
生物墨水剪切稀化流变性能与生物打印参数之间的关系
Raúl Sánchez-Sánchez,Jesús M Rodríguez-Rego,Antonio Macías-García et al.
Raúl Sánchez-Sánchez et al.
Three-dimensional bioprinting is a technology in constant development, mainly due to its extraordinary potential to revolutionize regenerative medicine. It allows fabrication through the additive deposition of biochemical products, biologic...
Application of 3D-printed tissue-engineered skin substitute using innovative biomaterial loaded with human adipose-derived stem cells in wound healing [0.03%]
负载人脂肪来源干细胞的新型生物材料的3D打印组织工程皮肤在伤口愈合中的应用研究
Huijuan Fu,Dequan Zhang,Jinshi Zeng et al.
Huijuan Fu et al.
Large-scale skin injuries are usually accompanied by impaired wound healing, resulting in scar formation, or significant morbidity and mortality. The aim of this study is to explore the in vivo application of 3D-printed tissue-engineered sk...
Development of polycaprolactone grafts with improved physical properties and body stability using a screw extrusion-type 3D bioprinter [0.03%]
利用螺杆挤出型3D生物打印机改善聚己内酯移植物的物理性能和体内稳定性的发展
Su Hee Kim,Se Jun Park,Bin Xu et al.
Su Hee Kim et al.
Three-dimensional (3D) bioprinter including screw extruder was developed, and the polycaprolactone (PCL) grafts fabricated by screw-type and pneumatic pressure-type bioprinters were comparatively evaluated. The density and tensile strength ...
Fabrication of large-scale scaffolds with microscale features using light sheet stereolithography [0.03%]
利用光片立体光刻技术制造具有微米特征的大规模支架
Alejandro Madrid-Sánchez,Fabian Duerr,Yunfeng Nie et al.
Alejandro Madrid-Sánchez et al.
The common characteristics that make scaffolds suitable for human tissue substitutes include high porosity, microscale features, and pores interconnectivity. Too often, however, these characteristics are limiting factors for the scalability...
219Three-dimensional printing as a cutting-edge, versatile and personalizable vascular stent manufacturing procedure: Toward tailor-made medical devices [0.03%]
作为制造前沿、通用和个性化的血管内支架的生产程序,3D打印将朝向量体制订医疗设备方向发展:3D打印血管内支架的研究性概述及未来展望
Fatima Garcia-Villen,Fernando López-Zárraga,Cesar Viseras et al.
Fatima Garcia-Villen et al.
Vascular stents (VS) have revolutionized the treatment of cardiovascular diseases, as evidenced by the fact that the implantation of VS in coronary artery disease (CAD) patients has become a routine, easily approachable surgical interventio...