Bioprinted anisotropic scaffolds with fast stress relaxation bioink for engineering 3D skeletal muscle and repairing volumetric muscle loss
T Li, J Hou, L Wang, G Zeng, Z Wang, L Yu, Q Yang… - Acta Biomaterialia, 2023 - Elsevier
Viscoelastic hydrogels can enhance 3D cell migration and proliferation due to the faster
stress relaxation promoting the arrangement of the cellular microenvironment. However …
stress relaxation promoting the arrangement of the cellular microenvironment. However …
[PDF][PDF] Bioprinted anisotropic scaffolds with fast stress relaxation bioink for engineering 3D skeletal muscle and repairing volumetric muscle loss
T Li, J Hou, L Wang, G Zeng, Z Wang, L Yu, Q Yang… - 2022 - researchgate.net
abstract Viscoelastic hydrogels can enhance 3D cell migration and proliferation due to the
faster stress relaxation promoting the arrangement of the cellular microenvironment …
faster stress relaxation promoting the arrangement of the cellular microenvironment …
Bioprinted anisotropic scaffolds with fast stress relaxation bioink for engineering 3D skeletal muscle and repairing volumetric muscle loss
T Li, J Hou, L Wang, G Zeng, Z Wang… - Acta …, 2023 - pubmed.ncbi.nlm.nih.gov
Viscoelastic hydrogels can enhance 3D cell migration and proliferation due to the faster
stress relaxation promoting the arrangement of the cellular microenvironment. However …
stress relaxation promoting the arrangement of the cellular microenvironment. However …