The degradation behavior of 3D-printed polyurethane composite scaffolds regulates bone regeneration [0.03%]
三维打印聚氨酯复合支架的降解行为调节骨再生
Juan Liu,Shun Li,Xiaolin Pan et al.
Juan Liu et al.
Biodegradable scaffolds offer a promising platform for in situ bone regeneration, yet the regulatory mechanism underlying how the degradation behavior of the scaffold influences bone regeneration is still unclear. Herein, by harnessing β-t...
Recombinant spider silk membranes promote human renal epithelial differentiation and function [0.03%]
重组蜘蛛丝膜促进人类肾上皮分化和功能
Alina Meyer,Lea-Maria Mayer,Linnea Gustafsson et al.
Alina Meyer et al.
Porous membranes are frequently used as supports of cell monolayers in functional studies of epithelial and endothelial barriers. However, commonly used conventional polymer-based membranes such as those made of polycarbonate (transwells) d...
Recapitulating the human myotendinous junction in vitro using a 3D bioprinted model [0.03%]
利用3D生物打印模型体外重现人类肌腱肌肉连接处组织结构及功能
Francesca De Paolis,Marina Volpi,Claudia Fuoco et al.
Francesca De Paolis et al.
The myotendinous junction is a critical interface connecting skeletal muscle and tendon, responsible for transmitting contractile forces and ultimately enabling musculoskeletal movement. Due to its complex architecture, the myotendinous jun...
A mechanically active nucleus pulposus-on-a-chip for studying mechanobiology and therapeutic strategies in intervertebral disc disease [0.03%]
一种用于研究椎间盘疾病力学生物学和治疗策略的具有机械活性的细胞核芯片
Olga Krupkova,Bianca Aterini,Nader Rahal et al.
Olga Krupkova et al.
Intervertebral disc (IVD) degeneration is the primary contributor to low back pain, the leading cause of disability worldwide. Although various triggers have been associated with IVD degeneration, its precise aetiology remains unclear. Cons...
In situ bioprinting: bioprinting methods, bioinks, cell sources & advanced bioprinting strategies [0.03%]
原位生物打印:生物打印方法、生物墨水、细胞来源及先进的生物打印策略
Yinglun Jian,Friederike Dehli,Mario Wisbar et al.
Yinglun Jian et al.
Bioprinting is a tissue engineering approach which has great potential to devise regenerative therapies and alleviate tissue/organ shortage. In situ bioprinting, allowing the direct creation of functional 3D tissues/organs at the defect sit...
Exploring the possibilities of L-alanine- and L-phenylalanine-based poly(ester amide)s with electrospinning and melt electrowriting for soft tissue biomedical applications [0.03%]
基于L-丙氨酸和L-苯丙氨酸的聚(酯胺)通过电纺丝和熔融电写技术在软组织生物医学应用中的可能性研究
Jef Brebels,Sofia Saraiva,Hannah Agten et al.
Jef Brebels et al.
Despite decades of advancements in melt electrowriting (MEW) and electrospinning (ES), poly(ε-caprolactone) (PCL) remains the gold standard polymer for these techniques. Its widespread use is attributed to its processability in both melt a...
Scaffold-free assembly of cortical-hippocampal circuit from modular neurospheroids: a high- throughput platform to investigate network development and dynamics [0.03%]
无支架从模块化神经球组装皮层海马回路:一种研究网络发育和动态的高通量平台
Ilaria Donati Della Lunga,Francesca Callegari,Fabio Poggio et al.
Ilaria Donati Della Lunga et al.
Three-dimensional (3D) in vitro models are critical for recapitulating key aspects of neural network development and interregional interactions. We present a scaffold-free modular system based on primary cortical and hippocampal neurosphero...
Converging Laser-Induced Forward Transfer and Melt ElectroWriting for biofabrication of reinforced cartilage constructs [0.03%]
汇聚激光诱导正向转移和熔融电写技术用于增强软骨构建的生物制造
Antonia G Vasilopoulou,Núria Ginés Rodriguez,Ardalan Mansouri et al.
Antonia G Vasilopoulou et al.
Microtissue-based strategies have gained significant attention for the fabrication of cartilage grafts. Their spatial organization within 3D constructs plays a crucial role in directing tissue formation and maintaining the immediate mechani...
Patient-derived osteosarcoma tumouroid model reveals functional phenotypic diversity with implications for drug responses [0.03%]
基于患者的骨肉瘤肿瘤样模型揭示了功能表型的多样性及其对药物反应的影响
Sugandha Bhatia,Briony Claxton,Erik W Thompson et al.
Sugandha Bhatia et al.
Osteosarcoma (OS) is the most common primary bone malignancy affecting children and adolescents, for which survival has not improved in more than four decades. The lack of accurate OS preclinical models hinders the understanding of tumour h...
Corrigendum: Temperature-programmable and enzymatically solidifiable gelatin-based bioinks enable facile extrusion bioprinting (2020 Biofabrication 12045003) [0.03%]
题目修正:基于明胶的生物墨水实现简便挤出式生物打印(2020年Biofabrication 12(4):045003)
Huimin He,Duo Li,Zifeng Lin et al.
Huimin He et al.
Published Erratum
Biofabrication. 2020 Aug 17;12(4). DOI:10.1088/1758-5090/abaa29 2020