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 …

Natural biopolymers have been widely employed as biomaterial ink hydrogels for three-
dimensional (3D) extrusion bioprinting in the preparation of the next generation of …

Designing simple biomaterials to replicate the biochemical and mechanical properties of
tissues is an ongoing challenge in tissue engineering. For several decades, new …

Bacterial infections are the major challenges of wound treatment in current clinical
applications. In this study, Three-dimensional (3D) antibacterial wound dressing has been …

This article presents current possibilities of using polyester-based materials in hard and soft
tissue engineering, wound dressings, surgical implants, vascular reconstructive surgery …

Meniscal tears are a frequent orthopedic injury commonly managed by conservative
strategies to avoid osteoarthritis development descending from altered biomechanics …

Appropriate biomimetic scaffolds created via 3D bioprinting are promising methods for
treating damaged menisci. However, given the unique anatomical structure and complex …

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 …

Alginate hydrogel has plausible applications in drug delivery, wound dressing, and tissue
regeneration due to its good gelation and biocompatibility properties. However, scaffolds …

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 …