Hydrogels as artificial biomaterial scaffolds offer a much favoured 3D microenvironment for
tissue engineering and regenerative medicine (TERM). Towards biomimicry of the native …

Over the past few decades, gellan gum (GG) has attracted substantial research interest in
several fields including biomedical and clinical applications. The GG has highly versatile …

Injectable scaffolds are a promising strategy to restore and regenerate damaged and
diseased tissues. They require minimally invasive procedure and allow the formation of an …

Recently, the hydrogel-forming polysaccharide gellan gum (GG) has gained popularity as a
versatile biomaterial for tissue engineering purposes. Here, we examine the modification …

Hydrogels are suitable soft tissue mimics and capable of creating pre-vascularized tissues,
that are useful for in vitro tissue engineering and in vivo regenerative medicine. The …

The future success of physiologically relevant three-dimensional (3D) cell/tissue models is
dependent on the development of functional biomaterials, which can provide a well-defined …

The ever‐growing need for new tissue and organ replacement approaches paved the way
for tissue engineering. Successful tissue regeneration requires an appropriate scaffold …

In recent decades, hydrogels have received increasing attention and have made significant
progress in various fields. Among all materials, peptides and proteins with adjustable …

Gellan gum is a hydrogel with several applications in ultrasonic imaging, novel drug
delivery, and tissue regeneration. As hydrogels are dynamic entities, their viscocelastic and …

Articular cartilage (AC) is a highly specialized tissue which exhibit topographical
heterogeneity in terms of matrix composition and mechanical properties. Due to its avascular …