Jesús M Rodríguez-Rego,Laura Mendoza-Cerezo,Antonio Macías-García et al.
Jesús M Rodríguez-Rego et al.
280Currently, the characterization techniques for hydrogels used in bioprinting are extensive, and they could provide data on the physical, chemical, and mechanical properties of hydrogels. While characterizing the hydrogels, the analysis o...
Fabrication of lumen-forming colorectal cancer organoids using a newly designed laminin-derived bioink [0.03%]
使用新型层粘连蛋白衍生生物墨水制造具有腔室结构的结直肠癌类器官
Rosario Pérez-Pedroza,Fatimah Al-Jalih,Jiayi Xu et al.
Rosario Pérez-Pedroza et al.
160Three-dimensional (3D) bioprinting systems, which are the prominent tools for biofabrication, should evolve around the cutting-edge technologies of tissue engineering. This is the case with organoid technology, which requires a plethora ...
Feasibility of three-dimensional nasal imaging and printing in producing customized nasal masks for non-invasive ventilation in extremely low birth weight infant: A pilot study [0.03%]
三维鼻部成像和打印制作极低出生体重婴儿非侵入性通气个性化鼻罩的可行性:一项初步研究
Antonio Martín-Gónzález,Begoña Morrás de la Torre,Elena Bergon-Sendin et al.
Antonio Martín-Gónzález et al.
72Several studies have been conducted to investigate the feasibility of customized nasal masks produced by three-dimensional (3D) facial imaging and printing for continuous positive airway pressure in adults and in premature mannequin. In a...
REVIEW ARTICLE Engineering bio-inks for 3D bioprinting cell mechanical microenvironment [0.03%]
用于三维生物打印的工程生物墨水构造细胞力学微环境综述文章
Yanshen Yang,Yuanbo Jia,Qingzhen Yang et al.
Yanshen Yang et al.
144Three-dimensional (3D) bioprinting has become a promising approach to constructing functional biomimetic tissues for tissue engineering and regenerative medicine. In 3D bioprinting, bio-inks are essential for the construction of cell mic...
Formulation and evaluation of a bioink composed of alginate, gelatin, and nanocellulose for meniscal tissue engineering [0.03%]
用于半月板组织工程的藻酸盐、明胶和纳米纤维素生物墨水的配制与评价
Julia Anna Semba,Adam Aron Mieloch,Ewa Tomaszewska et al.
Julia Anna Semba et al.
1The necessity to preserve meniscal function prompts the research and development of novel treatment options, like three-dimensional (3D) bioprinting. However, bioinks for meniscal 3D bioprinting have not been extensively explored. Therefor...
Application of 3D-bioprinted nanocellulose and cellulose derivative-based bio-inks in bone and cartilage tissue engineering [0.03%]
三维生物打印纳米纤维素和纤维素衍生物基生物墨水在骨和软骨组织工程中的应用研究
Lan Lin,Songli Jiang,Jun Yang et al.
Lan Lin et al.
212Three-dimensional (3D) printing is a modern, computer-aided, design-based technology that allows the layer-by-layer deposition of 3D structures. Bioprinting, a 3D printing technology, has attracted increasing attention because of its cap...
Additively manufactured polyether ether ketone (PEEK) skull implant as an alternative to titanium mesh in cranioplasty [0.03%]
用于颅骨成形术的3D打印聚醚醚酮(PEEK)颅骨植入物作为钛网的替代品
Jiaqi Zhang,Yanwen Su,Xiao Rao et al.
Jiaqi Zhang et al.
173Cranioplasty is used for skull defects, involving lifting the scalp and restoring the contour of the skull with the original skull piece, titanium mesh, or solid biomaterial. Additive manufacturing (AM) technology, known as three-dimensi...
State-of-the-art techniques for promoting tissue regeneration: Combination of three-dimensional bioprinting and carbon nanomaterials [0.03%]
促进组织再生的最新技术:三维生物打印与碳纳米材料结合疗法
Iruthayapandi Selestin Raja,Moon Sung Kang,Suck Won Hong et al.
Iruthayapandi Selestin Raja et al.
181Biofabrication approaches, such as three-dimensional (3D) bioprinting of hydrogels, have recently garnered increasing attention, especially in the construction of 3D structures that mimic the complexity of tissues and organs with the cap...
Osteoconductivity of bone substitutes with filament-based microarchitectures: Influence of directionality, filament dimension, and distance [0.03%]
具有纤维基微结构的骨替代物的骨传导性:各向异性、纤维尺寸和距离的影响
Julien Guerrero,Chafik Ghayor,Indranil Bhattacharya et al.
Julien Guerrero et al.
63Additive manufacturing can be applied to produce personalized bone substitutes. At present, the major three-dimensional (3D) printing methodology relies on filament extrusion. In bioprinting, the extruded filament consists mainly of hydro...
Error assessment and correction for extrusion-based bioprinting using computer vision method [0.03%]
基于计算机视觉方法的挤压式生物打印误差评估与校正研究
Changxi Liu,Chengliang Yang,Jia Liu et al.
Changxi Liu et al.
299Bioprinting offers a new approach to addressing the organ shortage crisis. Despite recent technological advances, insufficient printing resolution continues to be one of the reasons that impede the development of bioprinting. Normally, m...