Recent advances in polysaccharide-based self-healing hydrogels for biomedical applications
Y Yang, L Xu, J Wang, Q Meng, S Zhong, Y Gao… - Carbohydrate …, 2022 - Elsevier
Hydrogels are a class of polymer materials with three-dimensional networks structure, which
can absorb a large number of water and biological fluids. Natural polysaccharides are ideal …
can absorb a large number of water and biological fluids. Natural polysaccharides are ideal …
The significance of biomacromolecule alginate for the 3D printing of hydrogels for biomedical applications
K Varaprasad, C Karthikeyan, MM Yallapu… - International journal of …, 2022 - Elsevier
Natural biopolymers have been widely employed as biomaterial ink hydrogels for three-
dimensional (3D) extrusion bioprinting in the preparation of the next generation of …
dimensional (3D) extrusion bioprinting in the preparation of the next generation of …
Designing hydrogels for 3D cell culture using dynamic covalent crosslinking
Designing simple biomaterials to replicate the biochemical and mechanical properties of
tissues is an ongoing challenge in tissue engineering. For several decades, new …
tissues is an ongoing challenge in tissue engineering. For several decades, new …
Multifunctional 3D printed porous GelMA/xanthan gum based dressing with biofilm control and wound healing activity
Z Yang, X Ren, Y Liu - Materials Science and Engineering: C, 2021 - Elsevier
Bacterial infections are the major challenges of wound treatment in current clinical
applications. In this study, Three-dimensional (3D) antibacterial wound dressing has been …
applications. In this study, Three-dimensional (3D) antibacterial wound dressing has been …
Special features of polyester-based materials for medical applications
RN Darie-Niță, M Râpă, S Frąckowiak - Polymers, 2022 - mdpi.com
This article presents current possibilities of using polyester-based materials in hard and soft
tissue engineering, wound dressings, surgical implants, vascular reconstructive surgery …
tissue engineering, wound dressings, surgical implants, vascular reconstructive surgery …
Meniscus regeneration by 3D printing technologies: Current advances and future perspectives
E Stocco, A Porzionato, E De Rose… - Journal of tissue …, 2022 - journals.sagepub.com
Meniscal tears are a frequent orthopedic injury commonly managed by conservative
strategies to avoid osteoarthritis development descending from altered biomechanics …
strategies to avoid osteoarthritis development descending from altered biomechanics …
[HTML][HTML] 3D bioprinting of a biomimetic meniscal scaffold for application in tissue engineering
Z Jian, T Zhuang, T Qinyu, P Liqing, L Kun, L Xujiang… - Bioactive materials, 2021 - Elsevier
Appropriate biomimetic scaffolds created via 3D bioprinting are promising methods for
treating damaged menisci. However, given the unique anatomical structure and complex …
treating damaged menisci. However, given the unique anatomical structure and complex …
A bilayer biocompatible polycaprolactone/zinc oxide/Capparis spinosa L. ethyl acetate extract/polylactic acid nanofibrous composite scaffold for novel wound dressing …
P Zhu, H Yin, J Wei, J Wu, D Ping, X Zhang - International Journal of …, 2023 - Elsevier
Capparis spinosa L.(CSL) is used in traditional medicinal purposes for wound dressing
because it contains natural phenolic and flavonoid active compounds. In the current study, a …
because it contains natural phenolic and flavonoid active compounds. In the current study, a …
Extrusion based bioprinting of alginate based multicomponent hydrogels for tissue regeneration applications: state of the art
DV Krishna, MR Sankar - Materials Today Communications, 2023 - Elsevier
Alginate hydrogel has plausible applications in drug delivery, wound dressing, and tissue
regeneration due to its good gelation and biocompatibility properties. However, scaffolds …
regeneration due to its good gelation and biocompatibility properties. However, scaffolds …
Self-healing hydrogels for bone defect repair
W Li, Y Wu, X Zhang, T Wu, K Huang, B Wang, J Liao - RSC advances, 2023 - pubs.rsc.org
Severe bone defects can be caused by various factors, such as tumor resection, severe
trauma, and infection. However, bone regeneration capacity is limited up to a critical-size …
trauma, and infection. However, bone regeneration capacity is limited up to a critical-size …