Litcius/Paper detail

Janus Membranes Patch Achieves High-Quality Tendon Repair: Inhibiting Exogenous Healing and Promoting Endogenous Healing

Xiaojing Xie, Junjie Xu, D. Ding, Jing Lin, Kang Han, Chaorong Wang, Fujun Wang, Jinzhong Zhao, Lu Wang

2024Nano Letters16 citationsDOI

Abstract

The imbalance between endogenous and exogenous healing is the fundamental reason for the poor tendon healing. In this study, a Janus patch was developed to promote endogenous healing and inhibit exogenous healing, leading to improved tendon repair. The upper layer of the patch is a poly( dl -lactide- co -glycolide)/polycaprolactone (PLGA/PCL) nanomembrane (PMCP-NM) modified with poly(2-methylacryloxyethyl phosphocholine) (PMPC), which created a lubricated and antifouling surface, preventing cell invasion and mechanical activation. The lower layer is a PLGA/PCL fiber membrane loaded with fibrin (Fb) (Fb-NM), serving as a temporary chemotactic scaffold to regulate the regenerative microenvironment. In vitro, the Janus patch effectively reduced 92.41% cell adhesion and 79.89% motion friction. In vivo, the patch inhibited tendon adhesion through the TGF-β/Smad signaling pathway and promoted tendon maturation. This Janus patch is expected to provide a practical basis and theoretical guidance for high-quality soft tissue repair.

Topics & Concepts

Wound healingTendonCell biologyChemistrySMADAdhesionScaffoldIn vivoPolycaprolactoneBiomedical engineeringMaterials scienceBiophysicsTransforming growth factorImmunologyAnatomyMedicineBiologyBiotechnologyOrganic chemistryPolymerTendon Structure and TreatmentSports injuries and preventionShoulder Injury and Treatment