Hooi Yee Ng,Kai-Xing Alvin Lee,Che-Nan Kuo et al.
Hooi Yee Ng et al.
Vascular networks have an important role to play in transporting nutrients, oxygen, metabolic wastes and maintenance of homeostasis. Bioprinting is a promising technology as it is able to fabricate complex, specific multi-cellular construct...
The arrival of commercial bioprinters - Towards 3D bioprinting revolution! [0.03%]
商用生物打印机的出现——迈向3D生物打印革命!
Deepak Choudhury,Shivesh Anand,May Win Naing
Deepak Choudhury
The dawn of commercial bioprinting is rapidly advancing the tissue engineering field. In the past few years, new bioprinting approaches as well as novel bioinks formulations have emerged, enabling biological research groups to demonstrate t...
Cijun Shuai,Wenjing Yang,Shuping Peng et al.
Cijun Shuai et al.
Physical stimulations such as magnetic, electric and mechanical stimulation could enhance cell activity and promote bone formation in bone repair process via activating signal pathways, modulating ion channels, regulating bonerelated gene e...
Optimized vascular network by stereolithography for tissue engineered skin [0.03%]
用于组织工程皮肤的立体光刻优化血管网络
Xiaoxiao Han,Julien Courseaus,Jamel Khamassi et al.
Xiaoxiao Han et al.
This paper demonstrates the essential and efficient methods to design, and fabricate optimal vascular network for tissue engineering structures based on their physiological conditions. Comprehensive physiological requirements in both micro ...
A multi-scale porous scaffold fabricated by a combined additive manufacturing and chemical etching process for bone tissue engineering [0.03%]
一种用于骨组织工程的多级孔隙支架的构建:结合了增材制造和化学刻蚀过程
Cijun Shuai,Youwen Yang,Pei Feng et al.
Cijun Shuai et al.
It is critical to develop a fabrication technology for precisely controlling an interconnected porous structure of scaffolds to mimic the native bone microenvironment. In this work, a novel combined process of additive manufacturing (AM) an...
Novel ultrashort self-assembling peptide bioinks for 3D culture of muscle myoblast cells [0.03%]
一种新型超短肌芽细胞三维培养自组装肽生物墨水
Wafaa Arab,Sakandar Rauf,Ohoud Al-Harbi et al.
Wafaa Arab et al.
The ability of skeletal muscle to self-repair after a traumatic injury, tumor ablation, or muscular disease is slow and limited, and the capacity of skeletal muscle to self-regenerate declines steeply with age. Tissue engineering of functio...
Formation of cell spheroids using Standing Surface Acoustic Wave (SSAW) [0.03%]
基于表面驻波声全息技术的细胞微球体三维培养方法研究
Yannapol Sriphutkiat,Surasak Kasetsirikul,Yufeng Zhou
Yannapol Sriphutkiat
3D bioprinting becomes one of the popular approaches in the tissue engineering. In this emerging application, bioink is crucial for fabrication and functionality of constructed tissue. The use of cell spheroids as bioink can enhance the cel...
Fan Liu,Chen Liu,Qiuhong Chen et al.
Fan Liu et al.
Three dimensional (3D) printing is a hot topic in today's scientific, technological and commercial areas. It is recognized as the main field which promotes "the Third Industrial Revolution". Recently, human organ 3D bioprinting has been put...
Coaxial nozzle-assisted electrohydrodynamic printing for microscale 3D cell-laden constructs [0.03%]
同抽式电水动力细胞打印技术制备微尺度三维细胞结构件
Hongtao Liang,Jiankang He,Jinke Chang et al.
Hongtao Liang et al.
Cell printing has found wide applications in biomedical fields due to its unique capability in fabricating living tissue constructs with precise control over cell arrangements. However, it is still challenging to print cell-laden 3D structu...
3D printing of hydrogel composite systems: Recent advances in technology for tissue engineering [0.03%]
用于组织工程的水凝胶复合材料的3D打印技术近期研究进展
Tae-Sik Jang,Hyun-Do Jung,Houwen Matthew Pan et al.
Tae-Sik Jang et al.
Three-dimensional (3D) printing of hydrogels is now an attractive area of research due to its capability to fabricate intricate, complex and highly customizable scaffold structures that can support cell adhesion and promote cell infiltratio...