Fiber‐based approaches hold great promise for tendon tissue engineering enabling the
possibility of manufacturing aligned hydrogel filaments that can guide collagen fiber …

Efforts to develop engineered tendons and ligaments have focused on the use of a
biomaterial scaffold and a stem cell source. However, the ideal scaffold microenvironment to …

To recreate the in vivo niche for tendon tissue engineering in vitro, the characteristics of
tendon tissue underlines the use of biochemical and biophysical cues during tenocyte …

Poor tendon repair is often a clinical challenge due to the lack of ideal biomaterials.
Electrospun aligned fibers, resembling the ultrastructure of tendon, have been previously …

Tissue engineering is an ideal therapeutic strategy for the development of functional tendon
replacement tissue for tendon repair in the clinic. Currently, the synergistic roles of mechano …

Tendon is a specific connective tissue composed of parallel collagen fibers. The effect of this
tissue-specific matrix orientation on stem cell differentiation has not been investigated. This …

Functional tendon tissue engineering depends on harnessing the biochemical and
biophysical cues of the native tendon extracellular matrix. In this study, we fabricated highly …

Tendon refers to a band of tough, regularly arranged, and connective tissue connecting
muscle and bone, transferring strength from muscle to bone, and enabling articular stability …

Topographical cell guidance has been utilized as a tissue-engineering technique to produce
aligned cellular orientation in the regeneration of tendon-and ligament-like tissues. Other …

Non-woven nanofibrous scaffolds have been developed for tendon graft application by
using electrospinning strategies. However, electrospun nanofibrous scaffolds face some …