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 …
[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 …
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 …
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 …
medicine. However, challenges remain in fabricating biocompatible and versatile scaffolds …
[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 …
medicine. However, challenges remain in fabricating biocompatible and versatile scaffolds …