Filamented Light (FLight) biofabrication of mini-tendon models show tunable matrix confinement and nuclear morphology [0.03%]
丝状光(FLight)生物制造的迷你肌腱模型显示出可调基质约束和核形态
Hao Liu,Lynn Scherpe,Linnea Hummer et al.
Hao Liu et al.
One hallmark of healthy tendon tissue is the high confinement of tenocytes between tightly packed, highly aligned collagen fibers. During tendinopathy, this organization becomes dysregulated, leading to cells with round-shaped morphology an...
Simulating big mechanically-active culture systems (BigMACS) using paired biomechanics-histology FEA modelling to derive mechanobiology design relationships [0.03%]
基于配对生物力学-组织学有限元分析的大型机械活性培养系统(BigMACS)仿真及其机体内在关系研究
Sabrina Schoenborn,Mingyang Yuan,Cody A Fell et al.
Sabrina Schoenborn et al.
Big mechanically-active culture systems (BigMACS) are promising to stimulate, control, and pattern cell and tissue behaviours with less soluble factor requirements. However, it remains challenging to predict if and how distributed mechanica...
Injectable microgel and micro-granular hydrogels for bone tissue engineering [0.03%]
用于骨组织工程的可注射微凝胶和微颗粒水凝胶
Melika Mansouri Moghaddam,Elaheh Jooybar,Rana Imani
Melika Mansouri Moghaddam
Injectable microgels, made from both natural and synthetic materials, are promising platforms for the encapsulation of cells or bioactive agents, such as drugs and growth factors, for delivery to injury sites. They can also serve as effecti...
Review of 3D-printed bioceramic/biopolymer composites for bone regeneration: fabrication methods, technologies and functionalized applications [0.03%]
用于骨再生的3D打印生物陶瓷/生物聚合物复合材料的综述:制造方法、技术及功能化应用
Yumeng Tang,Yi Zhang,Li Zou et al.
Yumeng Tang et al.
Biomaterials for orthopedic applications must have biocompatibility, bioactivity, and optimal mechanical performance. A suitable biomaterial formulation is critical for creating desired devices. Bioceramics with biopolymer composites and bi...
Cardiomyocyte sheet stacking using fibrin enables high-speed construction of three-dimensional myocardial tissue and high transplantation efficiency [0.03%]
基于纤维蛋白的心肌细胞片层叠加技术用于高效构建三维心肌组织及移植移植修复心脏损伤
Katsuhisa Sakaguchi,Kazuki Nakazono,Kodai Tahara et al.
Katsuhisa Sakaguchi et al.
Despite the development of three-dimensional (3D) tissues that promises remarkable advances in myocardial therapies and pharmaceutical research, vascularization is required for the repair of damaged hearts using cardiac tissue engineering. ...
Biofabrication of small-diameter vascular graft with acellular human amniotic membrane: a proof-of-concept study in pig [0.03%]
用人绒毛膜促性腺激素脱细胞的人羊膜生物制造小直径血管移植物的概念验证研究(猪模型)
O Aung,Peter J Rossi,Yingnan Zhai et al.
O Aung et al.
Expanded polytetrafluoroethylene (ePTFE) grafts are FDA-approved and effective for large vessel surgeries but face challenges in smaller vessels (Inner Diameter, ID ≤ 6 mm) due to re-duced blood flow and higher risks of thrombosis, stenosi...
Corrigendum: Toward a neurospheroid niche model: optimizing embedded 3D bioprinting for fabrication of neurospheroid brain-like co-culture constructs (2021 Biofabrication 13 015014) [0.03%]
更正:迈向神经球类器官微环境模型:优化嵌入式三维生物打印技术以制造神经球类脑共培养模型(2021年《生物制造》13卷 015014号论文)
Yi-Chen Ethan Li,Yasamin A Jodat,Roya Samanipour et al.
Yi-Chen Ethan Li et al.
Published Erratum
Biofabrication. 2025 Apr 7;17(2). DOI:10.1088/1758-5090/adb74a 2025
Construction of highly vascularized hepatic spheroids of primary hepatocytes via pro-angiogenic strategy in vitro [0.03%]
基于促血管生成策略的高血管化人原代肝细胞类器官体的构建
Yen-Hsiang Huang,Masafumi Watanabe,Tadahiro Yamashita et al.
Yen-Hsiang Huang et al.
Primary hepatocytes are widely recognized for their ability to accurately represent the in vivo hepatocyte phenotype. However, traditional avascular primary hepatocyte culture models are limited by inadequate mass transfer, which leads to a...
Combinatorial strategy for engineering cartilage and bone microtissues using microfluidic cell-laden microgels [0.03%]
基于微流控水凝胶的软骨和骨组织工程体外种子细胞筛选及微组织构建组合策略研究
Suntae Kim,Siyuan Li,Seung Yeop Baek et al.
Suntae Kim et al.
Osteochondral defects refer to localized injuries affecting both the avascular cartilage and subchondral bone. Current treatments, such as transplantation or microfracture surgery, are hindered by limitations like donor availability and the...
Advancements in Selective Laser Melting (SLM) of titanium alloy scaffolds for bone tissue engineering [0.03%]
钛合金支架选择性激光熔化(SLM)技术在骨组织工程中的进展
Kelun Yan,Nor Hasrul Akhmal Ngadiman,Muhammad Zameri Mat Saman et al.
Kelun Yan et al.
Selective Laser Melting (SLM) has emerged as a transformative technology in bone tissue engineering, particularly for fabricating porous scaffolds from titanium alloys. These scaffolds offer a promising solution for treating critical-sized ...