Litcius/Paper detail

Janus hydrogel microrobots with bioactive ions for the regeneration of tendon-bone interface

Zichuan Ding, Yongrui Cai, Haocheng Sun, Xiao Rong, Sipei Ye, Jiaxuan Fan, Yahao Lai, Zhimin Liang, Chao Huang, Peilin Li, Xiaoxue Fu, Liu Wang, Guosheng Tang, Zongke Zhou, Zeyu Luo

2025Nature Communications34 citationsDOIOpen Access PDF

Abstract

Regenerating natural gradients of the tendon‒bone interface (TBI) is a major challenge in the reconstruction of rotator cuff tear (RCT). In this study, magnetic Janus hydrogel microrobots to match the TBI orientation during RCT reconstruction surgery are developed via a biofriendly gas-shearing microfluidic platform. Through separate loading of Mg2+ and Zn2+, the microrobots facilitate the immediate restoration and long-term maintenance of the natural mineral gradient in the TBI after implantation and alignment through magnetic manipulation. In vitro studies confirm the spatiotemporal cell phenotype modulation effects of the microrobots. In a rat RCT model, microrobots synchronously promote the bone and tendon regeneration, and the restoration of gradient tendon‒bone transition structures in the TBI. Overall, by rebuilding the Mg2+/Zn2+ mineral gradient, cell phenotype gradient and structural gradient of the TBI, magnetic Janus microrobots loaded with dual bioactive ions represent a promising strategy for promoting TBI healing in RCT reconstruction surgery. Bone-tendon interface repair is a challenge due to the transition between tissues. Here the authors report on magnetic Janus hydrogel microrobots loaded with dual bioactive ions for controlling cell phenotype and structure to promote healing of the bone-tendon interface in rotator cuff tear reconstruction surgery.

Topics & Concepts

Regeneration (biology)TendonInterface (matter)JanusMaterials scienceIonNanotechnologyBiomedical engineeringChemistryBiophysicsCell biologyAnatomyMedicineBiologyComposite materialCapillary actionOrganic chemistryCapillary numberTendon Structure and TreatmentMicro and Nano Robotics