Litcius/Paper detail

Gradient bimetallic ion–based hydrogels for tissue microstructure reconstruction of tendon-to-bone insertion

Renhao Yang, Gen Li, Chengyu Zhuang, Yu Pei, Tingjun Ye, Yin Zhang, Peiyang Shang, Jingjing Huang, Ming Cai, Lei Wang, Wenguo Cui, Lianfu Deng

2021Science Advances198 citationsDOIOpen Access PDF

Abstract

Although gradients play an essential role in guiding the function of tissues, achieving synchronous regeneration of gradient tissue injuries remains a challenge. Here, a gradient bimetallic (Cu and Zn) ion-based hydrogel was first constructed via the one-step coordinative crosslinking of sulfhydryl groups with copper and zinc ions for the microstructure reconstruction of the tendon-to-bone insertion. In this bimetallic hydrogel system, zinc and copper ions could not only act as crosslinkers but also provide strong antibacterial effects and induce regenerative capacity in vitro. The capability of hydrogels in simultaneously promoting tenogenesis and osteogenesis was further verified in a rat rotator cuff tear model. It was found that the Cu/Zn gradient layer could induce considerable collagen and fibrocartilage arrangement and ingrowth at the tendon-to-bone interface. Overall, the gradient bimetallic ion-based hydrogel ensures accessibility and provides opportunities to regenerate inhomogeneous tissue with physiological complexity or interface tissue.

Topics & Concepts

Bimetallic stripTendonSelf-healing hydrogelsMaterials scienceMicrostructureBiomedical engineeringRegeneration (biology)AnatomyComposite materialMedicineCell biologyBiologyPolymer chemistryMetallurgyMetalTendon Structure and TreatmentSports injuries and preventionShoulder Injury and Treatment