Progress of Research on Antioxidants and Carriers for Skin Wound Repair

Zhu, Xiaoxuan; Yuan, Weiping; Li, Z.L.; Yin, Lifang; Li, Wenfang; Lei, Jun; Wang, Dan; Zhang, Huafang; Wang, Yingshuai

doi:10.3390/pr11072069

Cited by 2 publications

(2 citation statements)

References 90 publications

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“…Nanoparticles with antioxidant properties have recently emerged as possible therapeutic agents for controlling neurodegenerative diseases [ 88 ] and cardiovascular [ 89 ] and pulmonary diseases [ 90 ], and in wound healing [ 91 ] and the treatment of cancer [ 92 ].…”

Section: Introductionmentioning

confidence: 99%

Nanotechnological Approaches to Enhance the Potential of α-Lipoic Acid for Application in the Clinic

Bellini,

Mancin,

Papini

et al. 2024

Antioxidants

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α-lipoic acid is a naturally occurring compound with potent antioxidant properties that helps protect cells and tissues from oxidative stress. Its incorporation into nanoplatforms can affect factors like bioavailability, stability, reactivity, and targeted delivery. Nanoformulations of α-lipoic acid can significantly enhance its solubility and absorption, making it more bioavailable. While α-lipoic acid can be prone to degradation in its free form, encapsulation within nanoparticles ensures its stability over time, and its release in a controlled and sustained manner to the targeted tissues and cells. In addition, α-lipoic acid can be combined with other compounds, such as other antioxidants, drugs, or nanomaterials, to create synergistic effects that enhance their overall therapeutic benefits or hinder their potential cytotoxicity. This review outlines the advantages and drawbacks associated with the use of α-lipoic acid, as well as various nanotechnological approaches employed to enhance its therapeutic effectiveness, whether alone or in combination with other bioactive agents. Furthermore, it describes the engineering of α-lipoic acid to produce poly(α-lipoic acid) nanoparticles, which hold promise as an effective drug delivery system.

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Section: Introductionmentioning

confidence: 99%

Nanotechnological Approaches to Enhance the Potential of α-Lipoic Acid for Application in the Clinic

Bellini,

Mancin,

Papini

et al. 2024

Antioxidants

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show abstract

“…NPs based on G-M encompass various types, such as metal–organic framework (MOF) NPs, biomineralization-based NPs, metal oxide NPs, noble metal NPs, dendritic mesoporous silica (DMSN) NPs, and polymer NPs. Notably, certain metal catalysts possess both enzyme-like activities and the ability to directly load GOx, facilitating effective integration and controlled release within the same NPs [ 15 , 16 ]. Therefore, NPs based on G-M hold significant potential as cancer synergistic therapeutic agents.…”

Section: Introductionmentioning

confidence: 99%

Glucose oxidase and metal catalysts combined tumor synergistic therapy: mechanism, advance and nanodelivery system

Fu,

Sun,

Wang

et al. 2023

J Nanobiotechnol

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Cancer has always posed a significant threat to human health, prompting extensive research into new treatment strategies due to the limitations of traditional therapies. Starvation therapy (ST) has garnered considerable attention by targeting the primary energy source, glucose, utilized by cancer cells for proliferation. Glucose oxidase (GOx), a catalyst facilitating glucose consumption, has emerged as a critical therapeutic agent for ST. However, mono ST alone struggles to completely suppress tumor growth, necessitating the development of synergistic therapy approaches. Metal catalysts possess enzyme-like functions and can serve as carriers, capable of combining with GOx to achieve diverse tumor treatments. However, ensuring enzyme activity preservation in normal tissue and activation specifically within tumors presents a crucial challenge. Nanodelivery systems offer the potential to enhance therapy effectiveness by improving the stability of therapeutic agents and enabling controlled release. This review primarily focuses on recent advances in the mechanism of GOx combined with metal catalysts for synergistic tumor therapy. Furthermore, it discusses various nanoparticles (NPs) constructs designed for synergistic therapy in different carrier categories. Finally, this review provides a summary of GOx-metal catalyst-based NPs (G-M) and offers insights into the challenges associated with G-M therapy, delivery design, and oxygen (O2) supply.

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Progress of Research on Antioxidants and Carriers for Skin Wound Repair

Cited by 2 publications

References 90 publications

Nanotechnological Approaches to Enhance the Potential of α-Lipoic Acid for Application in the Clinic

Nanotechnological Approaches to Enhance the Potential of α-Lipoic Acid for Application in the Clinic

Glucose oxidase and metal catalysts combined tumor synergistic therapy: mechanism, advance and nanodelivery system

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