In order to overcome the shortcomings related to unspecific and partially efficient
conventional wound dressings, impressive efforts are oriented in the development and …

It is an emerging research area to integrate scaffolding materials in microfluidic devices for
3D cell culture (organs-on-a-chip). The technology of organs-on-a-chip holds the potential to …

Electrospun scaffolds can imitate the hierarchical structures present in the extracellular
matrix, representing one of the main concerns of modern tissue engineering. They are …

Tissue engineering is a relatively new area of research that combines medical, biological,
and engineering fundamentals to create tissue‐engineered constructs that regenerate …

Tendon and ligament injuries caused by trauma and degenerative diseases are frequent
and affect diverse groups of the population. Such injuries reduce musculoskeletal …

In this study, three types of electrospun scaffolds, including furfuryl-gelatin (f-gelatin) alone, f-
gelatin with polycaprolactone (PCL) in a 1: 1 ratio, and coaxial scaffolds with PCL (core) and …

Tendon disease is a significant and growing burden to healthcare systems. One strategy to
address this challenge is tissue engineering. A widely held view in this field is that …

An effective therapeutic strategy to treat tendon or ligament injury continues to be a clinical
challenge due to the limited natural healing capacity of these tissues. Furthermore, the …

Tendon is a highly organized tissue that transmits forces between muscle and bone. The
architecture of the extracellular matrix of tendon, predominantly from collagen type I, is …

The repair of tendon to bone junction (TBJ) remains a tremendous challenge in tissue
engineering due to the complicated structure, components, mechanical properties, and cell …