Impact of Polymer Degradation on Cellular Behavior in Tissue Engineering [0.03%]
高分子材料降解对组织工程细胞行为影响的研究进展
Kentaro Umemori,Dianne Little
Kentaro Umemori
Tissue engineering frequently employs biomimetic scaffolds to direct cell responses and facilitate the differentiation of cells into specific lineages. Biodegradable scaffolds mitigate immune responses, stress shielding concerns in load bea...
3D Printing β-TCP-laden GelMA/Alginate Interpenetrating-Polymer-Network Biomaterial Inks for Bone Tissue Engineering [0.03%]
用于骨组织工程的β-TCP负载GelMA/藻酸盐互穿聚合物网络生物墨水的3D打印技术
Joyce R de Souza,Maedeh Rahimnejad,Igor P Mendes Soares et al.
Joyce R de Souza et al.
Bone's capacity for self-repair is limited when large defects arise from trauma or infection. Traditional grafting methods like autografts and allografts often face challenges like immune rejection and limited availability. Traditional scaf...
Three-Dimensional Meltblowing as a High-Speed Fabrication Process for Tendon Tissue Engineered Scaffolds [0.03%]
三维熔喷法作为肌腱组织工程支架的高速制备工艺
Kentaro Umemori,Benham Pourdeyhimi,Dianne Little
Kentaro Umemori
Rotator cuff tears continue to be a critical challenge for successful repair due to the formation of fibrotic scar tissue during healing. Tendon tissue engineering seeks to improve these outcomes using nonwoven fabrication methods to produc...
Advances in tissue engineering and biofabrication for in vitro skin modeling [0.03%]
组织工程和生物制造在体外皮肤模型中的进展
Sarah C Wistner,Layla Rashad,Gymama Slaughter
Sarah C Wistner
The global prevalence of skin disease and injury is continually increasing, yet conventional cell-based models used to study these conditions do not accurately reflect the complexity of human skin. The lack of inadequate in vitro modeling h...
Laser-imprinting of micro-3D printed protein hydrogels enables real-time independent modification of substrate topography and elastic modulus [0.03%]
激光印制微3D打印蛋白水凝胶可实现实时独立修改基底拓扑和弹性模量
Derek S Hernandez,Kyle E Michelson,Dwight Romanovicz et al.
Derek S Hernandez et al.
Independent control over the Young's modulus and topography of a hydrogel cell culture substrate is necessary to characterize how attributes of its adherent surface affect cellular responses. Arbitrary, real-time manipulation of these param...
Micropatterning of acoustic droplet vaporization in acoustically-responsive scaffolds using extrusion-based bioprinting [0.03%]
基于挤压的生物打印在声响应支架中进行声学液滴汽化微图案化
Mitra Aliabouzar,Adam W Y Ley,Sabine Meurs et al.
Mitra Aliabouzar et al.
Acoustically-responsive scaffolds (ARSs) are composite hydrogels that respond to ultrasound in an on-demand, spatiotemporally-controlled manner due to the presence of a phase-shift emulsion. When exposed to ultrasound, a gas bubble is forme...
3D bioprinting for orthopaedic applications: Current advances, challenges and regulatory considerations [0.03%]
用于骨科应用的3D生物打印:当前进展,挑战和监管事项
D Stanco,P Urbán,S Tirendi et al.
D Stanco et al.
In the era of personalised medicine, novel therapeutic approaches raise increasing hopes to address currently unmet medical needs by developing patient-customised treatments. Three-dimensional (3D) bioprinting is rapidly evolving and has th...
3D Bioprinting for In Vitro Models of Oral Cancer: Toward Development and Validation [0.03%]
口腔癌的体外模型的开发与验证的三维生物打印技术
Thafar Almela,Lobat Tayebi,Keyvan Moharamzadeh
Thafar Almela
The tumor microenvironment (TME) of oral carcinomas has highly complex contents and a dynamic nature which is difficult to study using oversimplified two-dimensional (2D) cell culture systems. By contrast, three dimensional (3D) in vitro mo...
Leveraging Advancements in Tissue Engineering for Bioprinting Dental Tissues [0.03%]
利用组织工程的进步进行牙组织生物打印
Devin Grace Morrison,Ryan E Tomlinson
Devin Grace Morrison
3D bioprinting allows biocompatible materials and cells to be deposited in precise locations in three-dimensional space, enabling researchers to surpass the limitations of traditional 2D cell culture and to create innovative therapies. 3D b...
Three-Dimensional Printing of Click Functionalized, Peptide Patterned Scaffolds for Osteochondral Tissue Engineering [0.03%]
基于“点击化学”功能化及肽导向骨软骨界面分层支架的三维打印技术在组织工程中的应用
Jason L Guo,Luis Diaz-Gomez,Virginia Y Xie et al.
Jason L Guo et al.
Osteochondral repair remains a significant clinical challenge due to the multiple tissue phenotypes and complex biochemical milieu in the osteochondral unit. To repair osteochondral defects, it is necessary to mimic the gradation between bo...