New tissue engineered scaffolds for rotator cuff tendon-bone interface regeneration

TL;DR

This paper reviews recent advances in tissue engineering scaffolds designed to improve healing of the rotator cuff tendon-bone interface, aiming to restore normal function and reduce re-tearing.

Contribution

It systematically summarizes recent progress in novel tissue engineering scaffolds and their potential in promoting rotator cuff TBI regeneration.

Findings

Novel scaffolds enhance tissue repair

Reduced scar tissue formation

Improved structural integration

Abstract

Healing of Tendon-bone interface(TBI) injuries is slow and is often repaired with scar tissue formation that compromises normal function. Despite the increasing maturity of surgical techniques, re-tearing of the rotator cuff after surgery remains common. The main reason for this issue is that the original structure of the rotator cuff at the TBI area is difficult to fully restore after surgery, and anatomical healing of the rotator cuff TBI is challenging to achieve solely through surgery. With the advancement of tissue engineering technology, more and more basic researchers and clinical surgeons are recognizing the enormous potential of tissue engineering in promoting TBI healing. Growing research evidence indicates that tissue engineering technology not only effectively promotes repairing and remodeling of the TBI but also reduces the formation of fibrous vascular scar tissue, leading to more orderly tissue reconstruction. The core of tissue engineering technology approaches lies in combining the use of various scaffolds, cells and bioactive molecules to simulate the natural environment of TBI healing, achieving optimal therapeutic outcomes. In this review, we will systematically summarize and highlight recent progress in the application of tissue engineering on TBI regeneration, particularly focusing on advancements in novel scaffolds and their role and potential in promoting healing of the TBI of rotator cuff, providing valuable references for clinical application and research.