Tissue engineering represents an advanced approach to treating patients who have
suffered tissue or organ loss or failure, with the ultimate goals of tissue restoration and …

Alginate is a natural polysaccharide that typically originates from various species of algae.
Due to its low cost, good biocompatibility, and rapid ionic gelation, the alginate hydrogel has …

Hydrogels have emerged as a versatile platform for a numerous biomedical application due
to their ability to absorb a huge quantity of biofluids. In order to design hydrogels, natural …

Polysaccharides constitute over 90% of the carbohydrate mass in nature, which makes them
a promising feedstock for manufacturing sustainable materials. Polysaccharide particles …

There is a growing demand for biomaterials develo** with novel properties for biomedical
applications hence, hydrogels with 3D crosslinked polymeric structures obtained from …

Hydrogel is a three‐dimensional cross‐linked hydrophilic network that can imbibe a large
amount of water inside its structure (up to 99% of its dry weight). Due to their unique …

Tissue injury is a collective term for various disorders associated with organs and tissues
induced by extrinsic or intrinsic factors, which significantly concerns human health. In vivo …

Control of in situ 3D bioprinting of hydrogel without toxic crosslinker is ideal for tissue
regeneration by reinforcing and homogeneously distributing biocompatible reinforcing agent …

3D bioprinting is transforming tissue engineering in medicine by providing novel methods
that are precise and highly customizable to create biological tissues. The selection of a “cell …

Natural polymers have been widely used in scaffolds for tissue engineering due to their
superior biocompatibility, biodegradability, and low cytotoxicity compared to synthetic …