This review focuses on recently developed alginate injectable hydrogels and alginate
composites for applications in bone tissue regeneration, and it evaluates the alternatives to …

Alginate is an excellent biodegradable and renewable material that is already used for a
broad range of industrial applications, including advanced fields, such as biomedicine and …

Marine resources have tremendous potential for developing high-value biomaterials. The
last decade has seen an increasing number of biomaterials that originate from marine …

Oxidized alginate (OA)-based hydrogels have drawn considerable attention as
biodegradable materials for tissue engineering applications. OA possesses a faster …

Alginate is a natural polysaccharide that is easily chemically modified or compounded with
other components for various types of functionalities. The alginate derivatives are appealing …

Core-shell microparticles, composed of solid, liquid, or gas bubbles surrounded by a
protective shell, are gaining considerable attention as intelligent and versatile carriers that …

The rational choice and design of biomaterials for biomedical applications is crucial for
successful in vitro and in vivo strategies, ultimately dictating their performance and potential …

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 …

The development of techniques to create and use multiphase microstructured hydrogels
(granular hydrogels or microgels) has enabled the generation of cultures with more …

Functionalizing biopolymers via structural modification is a new trend in biopolymer
research. Alginates and fucoidans are two of the most renowned biopolymers from marine …