This review extensively surveys the biomedical applications of hydrogels containing dextran.
Dextran has gained much attention as a biomaterial due to its distinctive properties such as …

Exploring new avenues for clinical management of chronic wounds holds the key to
eliminating socioeconomic burdens and health-related concerns associated with this silent …

Wound healing is a complex process and rapid healing necessitates a proper micro-
environment. Therefore, design and fabrication of an efficacious wound dressing is an …

The application of nanomaterials in healthcare has emerged as a promising strategy due to
their unique structural diversity, surface properties, and compositional diversity. In particular …

There has been significant progress in the field of three-dimensional (3D) bioprinting
technology, leading to active research on creating bioinks capable of producing structurally …

Even though a substantial amount of research has been undertaken in the domains of
bioprinting over the last few years, various challenges exist concerning printability. One of …

Materials that can recover the function of lost or damaged parts, called self‐healing
materials, have attracted attention due to their wide usage in different fields such as water …

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

Abstract Engineered three-dimensional (3D) tissue constructs have emerged as a promising
solution for regenerating damaged muscle tissue resulting from traumatic or surgical events …

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 …