Glutathione carbon dots as an intracellular reactive oxygen species scavenger for reducing cisplatin‐induced ototoxicity

Tu, Yaqin; Fan, Guorun; Wu, Nan; Liu, Bo; Sun, Haiying; Wang, Qiong; Zou, Wenqing; Xiao, Hongjun; Tan, Songwei

doi:10.1002/viw.20230056

VIEW

2023

DOI: 10.1002/viw.20230056

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Glutathione carbon dots as an intracellular reactive oxygen species scavenger for reducing cisplatin‐induced ototoxicity

Yaqin Tu,

Guorun Fan,

Nan Wu

et al.

Abstract: It is widely recognized that platinum‐based chemotherapy, particularly cisplatin therapy, can cause ototoxicity. At present, there are no Food and Drug Administration‐approved drugs to prevent or alleviate ototoxicity. Ototoxicity is generally believed to be caused by excessive reactive oxygen species production in the inner ear. Accordingly, a variety of antioxidants have been developed to protect against ototoxicity. To improve the efficiency of drug delivery to the cochlea, here, we synthesized simple and e… Show more

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2024

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Cited by 7 publications

References 52 publications

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ADSCC‐CM‐Induced Keratin Hydrogel‐Based Bioactive Microneedle Patch Containing Triamcinolone Acetonide for the Treatment of Pathological Scar

Li,

Yi,

et al. 2024

Adv Funct Materials

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Pathological scars (PS) are involved in the excessive response of inflammation and overactivation of myofibroblasts. Herein, a novel microneedle (MN) patch based on the adipose‐derived stem cell concentrated conditioned medium (ADSCC‐CM) cross‐linked keratin hydrogel is developed to load triamcinolone acetonide (TA), thereby achieving the dual‐drug delivery of ADSCC‐CM and TA to simultaneously reduce the inflammation and guide myofibroblast behaviors. Results not only confirm the ability of ADSCC‐CM to drive the formation of keratin‐based hydrogel, but also verify the dual‐drug release capacities of the hydrogel‐developed MNs (TA@AC‐MN). Using human hyperplastic scar fibroblast (HSF), the combination of ADSCC‐CM and TA demonstrates a pronounced synergistic effect in mitigating the detrimental effects of the inflammatory microenvironment on HSFs, including suppressing the production of reactive oxygen species and attenuating the expression of inflammatory factors. Compared with the clinically used TA, TA@AC‐MN promotes scar biomimetic repair (i.e., optimizing the proportion of collagen and increasing the tissue tensile strength). This study demonstrates that TA@AC‐MN has the capacity to provide a self‐managing and minimally invasive therapeutic strategy for PS.

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ADSCC‐CM‐Induced Keratin Hydrogel‐Based Bioactive Microneedle Patch Containing Triamcinolone Acetonide for the Treatment of Pathological Scar

Li,

Yi,

et al. 2024

Adv Funct Materials

View full text Add to dashboard Cite

show abstract

Rapid and Scar Free Wound Repair by Using a Biologically Flexible and Conductive Dressing Under Electrical Stimulation

Yang,

Yuan,

Wang

et al. 2024

Adv Funct Materials

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Abnormal healing following skin injury, such as slow healing and scar formation, can significantly affect an individual's life. Complex treatment methods and cumbersome instruments have reduced the efficacy of treating such diseases. In this study, a novel biocompatible liquid metal (LM) composite wound dressing (LGPU) is designed by synthesizing polyurea polyurethane (PU) and blending it with LM modified with glutathione (GSH), a bioactive three‐peptide compound. The effects of external electrical stimulation (ES) on wound‐induced hair follicle neogenesis are explored. The dressings exhibited a few important properties, including conductivity, high stretchability, recyclability, and, most importantly, excellent self‐healing capacity, owing to the liquid nature of the LM fillers and the highly dynamic characteristics of hydrogen bonds. Furthermore, the combination therapy with LGPU and ES promoted fibroblast migration and accelerated wound healing. The wounds treated with the combination therapy fully healed in nine days, while the wounds in the blank group are still in a scabbing state. Remarkably, this treatment method can activate the regeneration and healthy growth of hair follicles at the site of injury, which is beneficial for reducing wound scarring. Collectively, this innovative therapy provides a facile strategy to accelerate skin wound healing and achieve scar‐free repair.

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Bone and Joint‐on‐Chip Platforms: Construction Strategies and Applications

Du,

Liu,

Liu

et al. 2024

Small Methods

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Organ‐on‐a‐chip, also known as “tissue chip,” is an advanced platform based on microfluidic systems for constructing miniature organ models in vitro. They can replicate the complex physiological and pathological responses of human organs. In recent years, the development of bone and joint‐on‐chip platforms aims to simulate the complex physiological and pathological processes occurring in human bones and joints, including cell–cell interactions, the interplay of various biochemical factors, the effects of mechanical stimuli, and the intricate connections between multiple organs. In the future, bone and joint‐on‐chip platforms will integrate the advantages of multiple disciplines, bringing more possibilities for exploring disease mechanisms, drug screening, and personalized medicine. This review explores the construction and application of Organ‐on‐a‐chip technology in bone and joint disease research, proposes a modular construction concept, and discusses the new opportunities and future challenges in the construction and application of bone and joint‐on‐chip platforms.

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Glutathione carbon dots as an intracellular reactive oxygen species scavenger for reducing cisplatin‐induced ototoxicity

Cited by 7 publications

References 52 publications

ADSCC‐CM‐Induced Keratin Hydrogel‐Based Bioactive Microneedle Patch Containing Triamcinolone Acetonide for the Treatment of Pathological Scar

ADSCC‐CM‐Induced Keratin Hydrogel‐Based Bioactive Microneedle Patch Containing Triamcinolone Acetonide for the Treatment of Pathological Scar

Rapid and Scar Free Wound Repair by Using a Biologically Flexible and Conductive Dressing Under Electrical Stimulation

Bone and Joint‐on‐Chip Platforms: Construction Strategies and Applications

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