Electrospun fibrous sponges: principle, fabrication, and applications
D Zong, X Zhang, X Yin, F Wang, J Yu, S Zhang… - Advanced Fiber …, 2022 - Springer
Electrospun nanofiber materials, with the advantages of large specific surface area, small
pore size, high porosity, good channel connectivity, and ease of functional modification …
pore size, high porosity, good channel connectivity, and ease of functional modification …
Recent advances in 3D hydrogel culture systems for mesenchymal stem cell-based therapy and cell behavior regulation
X Hu, Z Xia, K Cai - Journal of Materials Chemistry B, 2022 - pubs.rsc.org
Mesenchymal stem cells (MSCs) have been increasingly recognized as a resource for
disease treatment and regenerative medicine. Meanwhile, the unique chemical and physical …
disease treatment and regenerative medicine. Meanwhile, the unique chemical and physical …
A safe, fibrosis‐mitigating, and scalable encapsulation device supports long‐term function of insulin‐producing cells
Encapsulation and transplantation of insulin‐producing cells offer a promising curative
treatment for type 1 diabetes (T1D) without immunosuppression. However, biomaterials …
treatment for type 1 diabetes (T1D) without immunosuppression. However, biomaterials …
Bio-inspired hydrogels with fibrous structure: A review on design and biomedical applications
Y Chen, Y Hao, A Mensah, P Lv, Q Wei - Biomaterials Advances, 2022 - Elsevier
Numerous tissues in the human body have fibrous structures, including the extracellular
matrix, muscles, and heart, which perform critical biological functions and have exceptional …
matrix, muscles, and heart, which perform critical biological functions and have exceptional …
Engineering reversible hydrogels for 3D cell culture and release using diselenide catalyzed fast disulfide formation
Comprehensive Summary Hydrogels crosslinked by dynamic covalent bonds can effectively
mimic the viscoelastic properties of native extracellular matrix and have been widely …
mimic the viscoelastic properties of native extracellular matrix and have been widely …
[HTML][HTML] Macroencapsulation devices for cell therapy
Macroencapsulation has been widely used in cell therapy due to its capability to provide
immune-privileged sites for implanted allogeneic or xenogeneic cells. Macroencapsulation …
immune-privileged sites for implanted allogeneic or xenogeneic cells. Macroencapsulation …
Engineering β cell replacement therapies for type 1 diabetes: biomaterial advances and considerations for macroscale constructs
MJ Quizon, AJ García - Annual Review of Pathology …, 2022 - annualreviews.org
While significant progress has been made in treatments for type 1 diabetes (T1D) based on
exogenous insulin, transplantation of insulin-producing cells (islets or stem cell–derived β …
exogenous insulin, transplantation of insulin-producing cells (islets or stem cell–derived β …
Fabrication and investigating in vivo wound healing property of coconut oil loaded nanofiber/hydrogel hybrid scaffold
Obtaining a sustainable drug delivery system is a challenging issue in biomedical science.
This became even more important in the wound regeneration process due to its long …
This became even more important in the wound regeneration process due to its long …
Investigation of Collagen-Incorporated Sodium Alginate Bioprinting Hydrogel for Tissue Engineering
Tissue engineering is a promising area that is aimed at tissue regeneration and wound
repair. Sodium alginate (SA) has been widely used as one of the most biocompatible …
repair. Sodium alginate (SA) has been widely used as one of the most biocompatible …
Engineering a hierarchical biphasic gel for subcutaneous vascularization
Implanted cell‐containing grafts require a robust and functional vasculature to supply
oxygen and nutrients, as well as clear metabolic waste products. However, it remains …
oxygen and nutrients, as well as clear metabolic waste products. However, it remains …