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A Dual‐Catalysis Mode for ROS Regulation to Accelerate Biointegration of Implants in Infected Diabetic Wound

Huihui Xie, Lan Zhang, Jun Chen, Chen Wang, Yaxi Yan, Shulin Deng, Kang Liu, Dongsheng Li, Mo Yang, Jiachen Ren, Shuilin Wu, Yong Han

2025Advanced Functional Materials18 citationsDOIOpen Access PDF

Abstract

Abstract Pathological microenvironment of diabetes including hyperglycemia, excessive reactive oxygen species (ROS), and accumulation of advanced glycation end products leads to high risk of infection and persistent inflammatory reaction, retarding biointegration of implants. To address this issue, a dual‐catalysis system consisting of Na 2 TiO 3 nanotubes with CeO 2 nanodots and polydopamine (PDA) cover is constructed on Ti implant to manipulate ROS generation and scavenging for antibiosis and tissue regeneration. Na 2 TiO 3 and CeO 2 form heterojunction, in which oxygen vacancies (VOs) contribute to the separation of electron‐hole pairs under near‐infrared light (NIR) irradiation. In NIR mode, the photocatalysis‐induced ROS and photothermal‐induced hyperthermia by Na 2 TiO 3 ‐CeO 2 heterojunction and PDA cover synergistically kill bacteria efficiently. In non‐NIR mode, CeO 2 nanodots and PDA cover show excellent superoxide dismutase (SOD) and catalases (CAT) like enzyme activities, and they catalyze ROS (e.g., ·O 2 − and H 2 O 2 ) thoroughly into benign O 2 and H 2 O, relieving the oxidative stress of microenvironment and accelerating M2 macrophage phenotype. It helps biofunctional recovery of endothelial cells and fibroblasts, promoting tissue regeneration around implants in diabetic models. This work proposes a promising approach of manipulating ROS generation and scavenging to treat infection and regulate inflammatory reaction, thereby improving biointegration and performance of implants in diabetic microenvironment.

Topics & Concepts

Dual modeMaterials scienceDual (grammatical number)NanotechnologyBiomedical engineeringMedicineElectronic engineeringEngineeringArtLiteratureWound Healing and TreatmentsNanoplatforms for cancer theranosticsAntimicrobial agents and applications
A Dual‐Catalysis Mode for ROS Regulation to Accelerate Biointegration of Implants in Infected Diabetic Wound | Litcius