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 …

Modified alginates have a wide range of applications, including in the manufacture of
dressings and scaffolds used for regenerative medicine, in systems for selective drug …

Granular hydrogels have emerged as a new class of injectable and porous biomaterials that
improve integration with host tissue when compared to solid hydrogels. Granular hydrogels …

Photocross-linked alginate hydrogels, due to their biodegradability, biocompatibility, strong
control for gelling kinetics in space and time, and admirable adaptability for in situ …

Because of its ideal degradation rate and features, oxidized alginate (OA) is selected as an
appropriate substitute and has been introduced into hydrogels, microspheres, 3D …

Hyaluronic acid (HA)‐based hydrogels are regarded as ideal candidates for wound dressing
and localized cancer treatment due to the excellent biocompatibility, potential targeting …

Polysaccharide-based hydrogels have gained prominence due to their non-toxicity,
biocompatibility, and structural adaptability for constructing tissue engineering scaffolds …

Several physico-chemical properties of the tumour microenvironment (TME) are
dysregulated during tumour progression, such as tissue stiffness, extracellular pH and …

Polysaccharide-based materials have been widely used as the first-choice candidates for
various applications, especially in the field of biomaterials. The primary reasons for this are …

Background: Current dressing materials cannot secure a cell survival-promoting wound
environment for stem cell delivery due to insufficient assimilation to skin motion. The authors …