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In Situ Piezoelectric‐Catalytic Anti‐Inflammation Promotes the Rehabilitation of Acute Spinal Cord Injury in Synergy

Yanling You, Junjie Jiang, Gang Zheng, Zhixin Chen, Ya‐Xuan Zhu, Hongshi Ma, Han Lin, Xiang Guo, Jianlin Shi

2024Advanced Materials111 citationsDOI

Abstract

Abstract Relieving inflammation via scavenging toxic reactive oxygen species (ROS) during the acute phase of spinal cord injury (SCI) proves to be an effective strategy to mitigate secondary spinal cord injury and improve recovery of motor function. However, commonly used corticosteroid anti‐inflammatory drugs show adverse side effects which may induce increased risk of wound infection. Fortunately, hydrogen (H 2 ), featuring selective antioxidant performance, easy penetrability, and excellent biosafety, is being extensively investigated as a potential anti‐inflammatory therapeutic gas for the treatment of SCI. In this work, by a facile in situ growth approach of gold nanoparticles (AuNPs) on the piezoelectric BaTiO 3 , a particulate nanocomposite with Schottky heterojunction (Au@BT) is synthesized, which can generate H 2 continuously by catalyzing H + reduction through piezoelectric catalysis. Further, theoretical calculations are employed to reveal the piezoelectric catalytic mechanism of Au@BT. Transcriptomics analysis and nontargeted large‐scale metabolomic analysis reveal the deeper mechanism of the neuroprotective effect of H 2 therapy. The as‐prepared Au@BT nanoparticle is first explored as a flexible hydrogen gas generator for efficient SCI therapy. This study highlights a promising prospect of nanocatalytic medicine for disease treatments by catalyzing H 2 generation; thus, offering a significant alternative to conventional approaches against refractory spinal cord injury.

Topics & Concepts

Materials scienceSpinal cord injuryInflammationIn situRehabilitationPiezoelectricityCatalysisSpinal cordBiomedical engineeringMedicineComposite materialImmunologyPhysical therapyBiologyBiochemistryOrganic chemistryPsychiatryChemistrySpinal Cord Injury ResearchHydrogen's biological and therapeutic effectsDielectric materials and actuators
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