Tendon-bioinspired wavy nanofibrous scaffolds provide tunable anisotropy and promote tenogenesis for tendon tissue engineering
The development of tendon-biomimetic nanofibrous scaffolds with mesenchymal stem cells
may represent a promising strategy to improve the unsatisfactory outcomes of traditional …
may represent a promising strategy to improve the unsatisfactory outcomes of traditional …
Tendon-bioinspired wavy nanofibrous scaffolds provide tunable anisotropy and promote tenogenesis for tendon tissue engineering
S Wu, J Liu, Y Qi, J Cai, J Zhao… - … and Engineering C, 2021 - experts.nebraska.edu
The development of tendon-biomimetic nanofibrous scaffolds with mesenchymal stem cells
may represent a promising strategy to improve the unsatisfactory outcomes of traditional …
may represent a promising strategy to improve the unsatisfactory outcomes of traditional …
Tendon-bioinspired wavy nanofibrous scaffolds provide tunable anisotropy and promote tenogenesis for tendon tissue engineering
S Wu, J Liu, Y Qi, J Cai, J Zhao, B Duan… - Materials Science and …, 2021 - inis.iaea.org
[en] Highlights:• Design and development of PPDO/SF wavy nanofibrous scaffolds (WNSs).•
PPDO/SF WNSs resembled the fibril scale and wavy ultra-structure of native tendon ECM.• …
PPDO/SF WNSs resembled the fibril scale and wavy ultra-structure of native tendon ECM.• …
Tendon-bioinspired wavy nanofibrous scaffolds provide tunable anisotropy and promote tenogenesis for tendon tissue engineering.
S Wu, J Liu, Y Qi, J Cai, J Zhao, B Duan… - Materials Science & …, 2021 - europepmc.org
The development of tendon-biomimetic nanofibrous scaffolds with mesenchymal stem cells
may represent a promising strategy to improve the unsatisfactory outcomes of traditional …
may represent a promising strategy to improve the unsatisfactory outcomes of traditional …
Tendon-bioinspired wavy nanofibrous scaffolds provide tunable anisotropy and promote tenogenesis for tendon tissue engineering
S Wu, J Liu, Y Qi, J Cai, J Zhao… - Materials science & …, 2021 - pubmed.ncbi.nlm.nih.gov
The development of tendon-biomimetic nanofibrous scaffolds with mesenchymal stem cells
may represent a promising strategy to improve the unsatisfactory outcomes of traditional …
may represent a promising strategy to improve the unsatisfactory outcomes of traditional …