Multifunctional IL-Based Hydrogel Modulator for the Synergistic Acceleration of Wound Healing: Optimizing Drug Solubility, Antioxidant, and Anti-Inflammatory Effects

Hu, Yuanyuan; Zhou, Huaibei; Huang, Jinxu; Wang, Tiansheng; Wang, Hao; Wu, Dong; Yu, Congwei; Pan, Guangxing; Zhang, Libing; Zhang, Ling; Gou, Deming; Zhang, Jiaheng

doi:10.1021/acssuschemeng.2c07172

ACS Sustainable Chem. Eng.

2023

DOI: 10.1021/acssuschemeng.2c07172

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Multifunctional IL-Based Hydrogel Modulator for the Synergistic Acceleration of Wound Healing: Optimizing Drug Solubility, Antioxidant, and Anti-Inflammatory Effects

Yuanyuan Hu

Huaibei Zhou

Jinxu Huang

et al.

Abstract: Inflammatory infection can cause the chronic nonhealing of wounds, posing considerable challenges to skin tissue reconstruction. Thus, an injectable wound dressing hydrogel with multiple functions such as remodelability, self-healing, and enhanced bioavailability has been developed to promote defect tissue regeneration, thereby offering great biomedical value for clinical application. In this study, the etodolac (ETC)-based ionic liquid (IL), LCE, was utilized for the first time as a drug template to enhance t… Show more

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Cited by 5 publications

References 49 publications

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Skin Temperature‐Activated Multifunctional Thermoelectric Dressing for Bacterial Infected Wound Treatment

Gao,

Rao,

Wang

et al. 2024

Adv Funct Materials

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Endogenous electric field (EEF) is weakened in wounds due to electrolyte loss, hindering wound repair. Reshaping and repairing EEF play important roles in accelerating wound healing. The design of antibacterial dressings coupled with an EEF recovery ability to promote wound healing is urgent and significant. Herein, a self‐powered wearable thermoelectric dressing with antibacterial, antioxidant, and EEF reshaping activities for methicillin‐resistant Staphylococcus aureus‐infected wound therapy is fabricated. The dressing is based on a wearable thermoelectric device constructed of a polyanionic thermoelectric hydrogel loaded with tannic acid (TA). By taking advantage of the natural temperature difference between infected wounds and the external environment, the dressing is activated to convert thermal energy into electricity, producing a continuous and compensating electric field to reshape damaged EEF and stimulate tissue regeneration. Combined with the antibacterial and antioxidant properties of the TA released from the thermoelectric hydrogel, the self‐powered dressing can accelerate wound healing in vivo by topical targeted sterilization, reducing inflammation and reshaping the EEF of the wounds. Thus, this dressing provides a promising and facile self‐powered therapeutic strategy without the need for external stimuli to treat infected wounds.

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Skin Temperature‐Activated Multifunctional Thermoelectric Dressing for Bacterial Infected Wound Treatment

Gao,

Rao,

Wang

et al. 2024

Adv Funct Materials

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Ionogels as advanced materials for overcoming challenges in wound healing and drug delivery

Pedro,

Castro,

Coutinho

et al. 2024

Nano Materials Science

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Dual-Responsive Antibacterial Hydrogel Patch for Chronic-Infected Wound Healing

Guo,

Yao,

Wang

et al. 2024

Biomacromolecules

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Bacterial infections in chronic wounds, such as bedsores and diabetic ulcers, present significant healthcare challenges. Excessive antibiotic use leads to drug resistance and lacks precision for targeted wound treatment. Our study introduces an innovative solution: a near-infrared (NIR) and pH dualresponsive hydrogel patch incorporating regenerated silk fibroin (RSF) and molybdenum dioxide (MoO 2 ) nanoparticles (NPs), offering enhanced mechanical properties, precise drug release, and superior antibacterial efficacy. The dual-responsive hydrogel patch allows for precise control over antibiotic release triggered by NIR light and pH fluctuations, enabling tailored treatment for infected wounds. First, the pH-responsive characteristic matches the alkaline environment of the infected wound, ensuring on-demand antibiotic release. Second, NIR exposure accelerates antibiotic release, enhancing wound healing and providing additional antibacterial effects. Additionally, the patch further blocks bacterial infection, promotes wound repair, and degrades in sync with the healing process, further bolstering the efficacy against wound infections.

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Multifunctional IL-Based Hydrogel Modulator for the Synergistic Acceleration of Wound Healing: Optimizing Drug Solubility, Antioxidant, and Anti-Inflammatory Effects

Cited by 5 publications

References 49 publications

Skin Temperature‐Activated Multifunctional Thermoelectric Dressing for Bacterial Infected Wound Treatment

Skin Temperature‐Activated Multifunctional Thermoelectric Dressing for Bacterial Infected Wound Treatment

Ionogels as advanced materials for overcoming challenges in wound healing and drug delivery

Dual-Responsive Antibacterial Hydrogel Patch for Chronic-Infected Wound Healing

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