Advanced bioactive materials and strategies for tendon repair and function restoration

Abstract

Tendon injury is one of the most common clinical challenges in musculoskeletal disorders. Effective tendon repair is crucial for restoring patients' motor function and improving their quality of life. Recent advances in bioactive material-mediated tendon regeneration have shown great therapeutic potential and clinical relevance. However, systematic reviews that comprehensively integrate these developments are still scarce. Firstly, this article presents the selection of bioactive components, mainly including cell-based therapeutic strategies and nanodrug delivery strategies. Secondly, bioactive materials delivery system using tissue-engineered scaffolds is discussed in detail. In this section, we discuss the efficacy of scaffolds in tendon repair through different scaffold preparation methods and synthetic raw materials. Furthermore, the application of hydrogel systems such as enhanced hydrogels, bioadhesive hydrogels and multifunctional hydrogels in tendon repair strategies is systematically and comprehensively presented. Finally, based on a detailed review of the field, current challenges in the field were proposed and potential research directions in the field were identified, including potential research directions in smart bioactive materials and personalized treatment strategies.

The translational potential of this article

This review synthesizes tendon regeneration strategies—from molecular mechanisms to tissue-level integration—including bioactive component selection and delivery systems using tissue-engineered scaffolds. It identifies translational barriers and proposes new strategies in tendon-specific safety validation, scalable manufacturing uniformity and cost-effectiveness versus conventional therapies. These insights will refine clinical strategies for tendon injuries and advance targeted bioactive biomaterials for localized regeneration.