3D-Printed β-Tricalcium Phosphate Scaffolds Promote Osteogenic Differentiation of Bone Marrow-Deprived Mesenchymal Stem Cells in an N6-methyladenosine-Dependent Manner [0.03%]
N6-甲基腺苷依赖性促进骨髓剥离间充质干细胞成骨分化的3D打印β-三钙磷酸盐支架
Xin Jiao,Xin Sun,Wentao Li et al.
Xin Jiao et al.
Bone defect is a serious orthopedic disease which has been studied for a long time. Alternative degradable biomaterials are required for bone repairing and regeneration to address the limitation of autogenous bone. β-tricalcium phosphate (...
Novel High-Speed 3D Printing Method Using Selective Oil Sintering with Thermoplastic Polyurethane Powder Printing [0.03%]
一种使用热塑性聚氨酯粉末进行选择性润滑油烧结的新高速3D打印方法
Jun Yi-Wu,Chih-Hua Hsieh,Zheng-Ying Lin
Jun Yi-Wu
Present methods used in three-dimensional (3D) printing, such as selective laser sintering (SLS) and multijet fusion (MJF), have limited applications, especially in relation to the manufacturing of biomedical products. The speed of SLS prin...
Laser-Induced Forward Transfer Printing on Microneedles for Transdermal Delivery of Gemcitabine [0.03%]
激光诱导向前转移打印微针递送吉西他滨透皮给药
Zoi Kanaki,Chrysoula Chandrinou,Ioanna-Maria Orfanou et al.
Zoi Kanaki et al.
Cancer treatment with chemotherapeutic drugs remains to be challenging to the physician due to limitations associated with lack of efficacy or high toxicities. Typically, chemotherapeutic drugs are administered intravenously, leading to hig...
Validity of a Soft and Flexible 3D-Printed Nissen Fundoplication Model in Surgical Training [0.03%]
柔性3D打印Nissen基金膈疝模型在外科培训中的有效性研究
Yangyi Zhang,Jianfu Xia,Jiye Zhang et al.
Yangyi Zhang et al.
Rapid development of three-dimensional (3D) printing technique has enabled the production of many new materials for medical applications but the dry laboratory surgical training model made of soft and flexible materials is still insufficien...
Bioprinted Gelatin-Recombinant Type III Collagen Hydrogel Promotes Wound Healing [0.03%]
生物打印的明胶-重组III型胶原水凝胶促进伤口愈合
Jianghong Huang,Xiaoling Lei,Zhiwang Huang et al.
Jianghong Huang et al.
Artificial skins are biomaterials that can replace the lost skin or promote the regeneration of damaged skin. Skin regenerative biomaterials are highly applauded because they can exempt patients with severe burns from the painful procedure ...
3D-Printing-Assisted Extraluminal Anti-Reflux Diodes for Preventing Vesicoureteral Reflux through Double-J Stents [0.03%]
用于双J支架的三维打印辅助腔外防反流二极管以预防 vesicoureteral反流
Jihun Lee,Jaebum Sung,Jung Ki Jo et al.
Jihun Lee et al.
This paper presents novel umbrella-shaped flexible devices to prevent vesicoureteral reflux along double-J stents, which is a backward flow of urine from the bladder to the kidney and is a critical issue in patients with urinary stones. The...
Yanfang Wang,Jiejie Wang,Ziyu Ji et al.
Yanfang Wang et al.
Three-dimensional (3D) bioprinting is an emerging technology that is widely used in regenerative medicine. With the continuous development of the technology, it has attracted great attention and demonstrated promising prospects in ophthalmo...
Fabrication of Microstructured Calcium Phosphate Ceramics Scaffolds by Material Extrusion-Based 3D Printing Approach [0.03%]
基于材料挤出的3D打印构建微发泡磷酸钙陶瓷支架的研究
Peifang Dee,Sharlene Tan,Hortense Le Ferrand
Peifang Dee
Natural materials such as bone and enamel have intricate microstructures with inorganic minerals oriented to perform multiple mechanical and biological functions. Current additive manufacturing methods for biominerals from the calcium phosp...
Development of a 3D Individualized Mask for Neonatal Non-Invasive Ventilation [0.03%]
新生儿无创通气个体化三维面罩的研制
Cristina Borràs-Novell,Mario García Causapié,Maria Murcia et al.
Cristina Borràs-Novell et al.
Non-invasive masks are designed based on generic facial models; therefore, difficulties in fitting patients' unique characteristics are common. A poor fit of the mask may have consequences such as air leaks or pressure ulcers. It is possibl...
3D-printed Bioresorbable Stent Coated with Dipyridamole-Loaded Nanofiber for Restenosis Prevention and Endothelialization [0.03%]
负载双嘧达莫纳米纤维涂层的可降解三维打印支架促进再狭窄和内皮化
Chengjin Wang,Yang Yang,Jingyuan Ji et al.
Chengjin Wang et al.
Intimal hyperplasia and restenosis caused by excessive proliferation of smooth muscle cells (SMC) are the main factors for the failure of stent implantation. Drug-eluting stents carried with antiproliferative drugs have emerged as a success...