Microfluidic printing of tunable hollow microfibers for vascular tissue engineering
Bioprinting of vascular tissues holds great potential in tissue engineering and regenerative
medicine. However, challenges remain in fabricating biocompatible and versatile scaffolds …
medicine. However, challenges remain in fabricating biocompatible and versatile scaffolds …
Microfluidic bioprinting for engineering vascularized tissues and organoids
YS Zhang, Q Pi, AM van Genderen - JoVE (Journal of Visualized …, 2017 - jove.com
Engineering vascularized tissue constructs and organoids has been historically challenging.
Here we describe a novel method based on microfluidic bioprinting to generate a scaffold …
Here we describe a novel method based on microfluidic bioprinting to generate a scaffold …
Embedded multimaterial bioprinting platform for biofabrication of biomimetic vascular structures
The advent of bioprinting technology into the tissue engineering field has permitted the
attainment of complex-shaped tissue constructs with unprecedented degree of precision and …
attainment of complex-shaped tissue constructs with unprecedented degree of precision and …
Coaxial bioprinting of cell-laden vascular constructs using a gelatin–tyramine bioink
Herein, three-dimensional (3D) bioprinting of engineered constructs with cell-laden
biomaterials was investigated for the development of 3D tissue constructs in vitro. The …
biomaterials was investigated for the development of 3D tissue constructs in vitro. The …
Bioprinting of cell‐laden microfiber: can it become a standard product?
L Shao, Q Gao, C Xie, J Fu, M Xiang… - Advanced healthcare …, 2019 - Wiley Online Library
Hydrogel microfibers have many fascinating applications as microcarriers for drugs, factors,
and cells, such as 3D cell culture, building micro‐organoids, and transplantation therapy …
and cells, such as 3D cell culture, building micro‐organoids, and transplantation therapy …
Biomaterials for bioprinting microvasculature
Microvasculature functions at the tissue and cell level, regulating local mass exchange of
oxygen and nutrient-rich blood. While there has been considerable success in the …
oxygen and nutrient-rich blood. While there has been considerable success in the …
Microfluidic bioprinting of tough hydrogel-based vascular conduits for functional blood vessels
Three-dimensional (3D) bioprinting of vascular tissues that are mechanically and
functionally comparable to their native counterparts is an unmet challenge. Here, we …
functionally comparable to their native counterparts is an unmet challenge. Here, we …
Three-dimensional bioprinting of perfusable hierarchical microchannels with alginate and silk fibroin double cross-linked network
H Li, N Li, H Zhang, Y Zhang, H Suo… - 3D printing and additive …, 2020 - liebertpub.com
Vascularization is essential for the regeneration of three-dimensional (3D) bioprinting
organs. As a general method to produce microfluidic channels in 3D printing constructs …
organs. As a general method to produce microfluidic channels in 3D printing constructs …
Tunable and compartmentalized multimaterial bioprinting for complex living tissue constructs
S Hassan, E Gomez-Reyes… - … applied materials & …, 2022 - ACS Publications
Recapitulating inherent heterogeneity and complex microarchitectures within confined print
volumes for developing implantable constructs that could maintain their structure in vivo has …
volumes for developing implantable constructs that could maintain their structure in vivo has …
[HTML][HTML] Engineering biofunctional in vitro vessel models using a multilayer bioprinting technique
Recent advances in the field of bioprinting have led to the development of perfusable
complex structures. However, most of the existing printed vascular channels lack the …
complex structures. However, most of the existing printed vascular channels lack the …