Articular cartilage has a low self-repair capacity due to the lack of vessels and nerves. In
recent times, nanofiber scaffolds have been widely used for this purpose. The optimum …

Bone tissue engineering is an interdisciplinary field where the principles of engineering are
applied on bone-related biochemical reactions. Scaffolds, cells, growth factors, and their …

Electrospinning is a simple, cost-effective, flexible, and feasible continuous micro-nano
polymer fiber preparation technology that has attracted extensive scientific and industrial …

The field of tissue engineering continues to advance, sometimes in exponential leaps
forward, but also sometimes at a rate that does not fulfill the promise that the field imagined a …

Electrospinning is a promising and versatile technique that is used to fabricate polymeric
nanofibrous scaffolds for bone tissue engineering. Ideal scaffolds should be biocompatible …

Osteochondral tissue (OCT) related diseases, particularly osteoarthritis, number among the
most prevalent in the adult population worldwide. However, no satisfactory clinical …

Mesenchymal stem/stromal cells (MSCs) serve as essential components of regenerative
medicine. Their destiny is influenced by the interaction of the cells with the external …

Regenerative engineering holds the potential to treat clinically pervasive osteochondral
defects (OCDs). In a synthetic materials-guided approach, the scaffold's chemical and …

Recently, natural health products as alternatives for synthetic/chemical substances have
become a growing area of interest. Plant-derived essential oils or oils (E/Os) with a wide …

Articular cartilage defects remain a clinical challenge. Articular cartilage defects progress to
osteoarthritis, which negatively (eg, remarkable pain, decreased mobility, distress) affects …