Materials and Strategies to Enhance Melt Electrowriting Potential
PG Saiz, A Reizabal, JL Vilas‐Vilela… - Advanced …, 2024 - Wiley Online Library
Melt electrowriting (MEW) is an emerging additive manufacturing (AM) technology that
enables the precise deposition of continuous polymeric microfibers, allowing for the creation …
enables the precise deposition of continuous polymeric microfibers, allowing for the creation …
Biopolymer-based hydrogels for biomedical applications: Bioactivity and wound healing properties
Wound healing is a crucial but complex process that represents an onerous burden on both
individuals and the healthcare system in the alarming growth of chronic diseases. Infection …
individuals and the healthcare system in the alarming growth of chronic diseases. Infection …
[HTML][HTML] Melt electrowriting (MEW)-PCL composite Three-Dimensional exosome hydrogel scaffold for wound healing
X Kong, D Zhu, Y Hu, C Liu, Y Zhang, Y Wu, J Tan… - Materials & Design, 2024 - Elsevier
While mesenchymal stem cell-derived exosomes hold substantial potential in wound
healing, challenges persist in terms of large-scale production and activity of 2D-culture …
healing, challenges persist in terms of large-scale production and activity of 2D-culture …
[HTML][HTML] Calcium phosphate coating enhances osteointegration of melt electrowritten scaffold by regulating macrophage polarization
Y Shi, W Tao, W Yang, L Wang, Z Qiu, X Qu… - Journal of …, 2024 - Springer
The osteoimmune microenvironment induced by implants plays a significant role in bone
regeneration. It is essential to efficiently and timely switch the macrophage phenotype from …
regeneration. It is essential to efficiently and timely switch the macrophage phenotype from …
Advances in melt electrowriting for cardiovascular applications
KMA Mueller, S Mansi, EM De-Juan-Pardo… - … in Bioengineering and …, 2024 - frontiersin.org
Melt electrowriting (MEW) is an electric-field-assisted additive biofabrication technique that
has brought significant advancements to bioinspired scaffold design for soft tissue …
has brought significant advancements to bioinspired scaffold design for soft tissue …
3D‐printed electrospun fibres for wound healing
X Ye, E Zhang, Y Huang, F Tian… - Wound Repair and …, 2024 - Wiley Online Library
Wound management for acute and chronic wounds has become a serious clinical problem
worldwide, placing considerable pressure on public health systems. Owing to the high …
worldwide, placing considerable pressure on public health systems. Owing to the high …
Unlocking High-Value Components from Brewer's Spent Yeast for Innovative Food Applications
G Wei, W Shang, Z Xie, M Zhang, M Dan, G Zhao… - Food Bioscience, 2024 - Elsevier
Utilization of beneficial components from food industry waste is a very promising endeavor,
which is in line with the circular economy and sustainable development. Brewer's spent …
which is in line with the circular economy and sustainable development. Brewer's spent …
Visualizing the global trends of peptides in wound healing through an in‐depth bibliometric analysis
X He, W Wu, Y Hu, M Wu, H Li, L Ding… - International Wound …, 2024 - Wiley Online Library
Wound healing is a complicated and multistage biological process for the repair of
damaged/injured tissues, which requires intelligent designs to provide comprehensive and …
damaged/injured tissues, which requires intelligent designs to provide comprehensive and …
Melt electrospinning writing PCL scaffolds after alkaline modification with outstanding cytocompatibility and osteoinduction
Y Shi, L Wang, L Sun, Z Qiu, X Qu, J Dang… - … Journal of Bioprinting, 2023 - accscience.com
Melt electrospinning writing (MEW) is a promising three-dimensional (3D) printing
technology that enables the creation of scaffolds with highly ordered microfibers …
technology that enables the creation of scaffolds with highly ordered microfibers …