Achieving Clearance of Drug‐Resistant Bacterial Infection and Rapid Cutaneous Wound Regeneration Using an ROS‐Balancing‐Engineered Heterojunction

Geng, Chong; He, Shuai; Yu, Sheng; Johnson, Hannah M.; Shi, Hongxing; Chen, Yanbai; Chan, Yau Kei; He, Wenxuan; Qin, Miao; Li, Xiao; Deng, Yi

doi:10.1002/adma.202310599

articleAdvanced MaterialsFeb 1, 2024BRONZE OA

Achieving Clearance of Drug‐Resistant Bacterial Infection and Rapid Cutaneous Wound Regeneration Using an ROS‐Balancing‐Engineered Heterojunction

CGChong Geng SHShuai He SYSheng Yu HMHannah M. Johnson HSHongxing Shi

Sichuan University · West China Hospital of Sichuan University · +5 more institutions

PubMed

Indexed incrossrefpubmed

Abstract

Abstract Intractable infected microenvironments caused by drug‐resistant bacteria stalls the normal course of wound healing. Sono‐piezodynamic therapy (SPT) is harnessed to combat pathogenic bacteria, but the superabundant reactive oxygen species (ROS) generated during SPT inevitably provoke severe inflammatory response, hindering tissue regeneration. Consequently, an intelligent nanocatalytic membrane composed of poly(lactic‐co‐glycolic acid) (PLGA) and black phosphorus /V 2 C MXene bio‐heterojunctions (2D 2 ‐bioHJs) is devised. Under ultrasonication, 2D 2 ‐bioHJs effectively eliminate drug‐resistant bacteria by disrupting metabolism and electron transport chain (ETC). When ultrasonication ceases, they enable…

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186

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FWCI: 31.25
Percentile: 100%
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Topics & keywords

Topics

Keywords

Reactive oxygen species
Bacteria
Sonication
Regeneration (biology)
Materials science
Drug
Microbiology
Wound healing

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