Microfluidic printing of tunable hollow microfibers for vascular tissue engineering

Z Wu, H Cai, Z Ao, J Xu, S Heaps… - Advanced materials …, 2021 - Wiley Online Library
Bioprinting of vascular tissues holds great potential in tissue engineering and regenerative
medicine. However, challenges remain in fabricating biocompatible and versatile scaffolds …
被引用次数:24 相关文章
[PDF] researchgate.net

[PDF][PDF] Microfluidic Printing of Tunable Hollow Microfibers for Vascular Tissue Engineering

Z Wu, H Cai, Z Ao, J Xu, S Heaps, F Guo - researchgate.net
In the human body, blood vessels play an essential role in delivering oxygen and nutrients
to and taking away waste products from tissues and organs. The human body develops …

Microfluidic Printing of Tunable Hollow Microfibers for Vascular Tissue Engineering.

Z Wu, H Cai, Z Ao, J Xu, S Heaps… - Advanced Materials …, 2021 - europepmc.org
Bioprinting of vascular tissues holds great potential in tissue engineering and regenerative
medicine. However, challenges remain in fabricating biocompatible and versatile scaffolds …

Microfluidic Printing of Tunable Hollow Microfibers for Vascular Tissue Engineering

Z Wu, H Cai, Z Ao, J Xu… - Advanced materials …, 2021 - pubmed.ncbi.nlm.nih.gov
Bioprinting of vascular tissues holds great potential in tissue engineering and regenerative
medicine. However, challenges remain in fabricating biocompatible and versatile scaffolds …
[HTML] nih.gov

[HTML][HTML] Microfluidic Printing of Tunable Hollow Microfibers for Vascular Tissue Engineering

Z Wu, H Cai, Z Ao, J Xu, S Heaps… - Advanced materials …, 2021 - ncbi.nlm.nih.gov
Bioprinting of vascular tissues holds great potential in tissue engineering and regenerative
medicine. However, challenges remain in fabricating biocompatible and versatile scaffolds …