Fang Ying scite author profile

Wound healing is a complex biological process that involves tissue regeneration. Traditional wound dressings are dry, cannot provide a moist environment for wound healing, and do not have high antibacterial properties. Hydrogels, which are capable of retaining large amounts of water, can create a moist healing environment. Currently, phototherapies have exhibited a high potential for the treatment of bacterial infections. Therefore, combining hydrogels with phototherapy can adequately overcome the shortcomings of traditional wound treatment methods and show great potential for wound healing owing to their high efficiency, low irritation, and good antibacterial performance. In this review, the application of hydrogels combined with phototherapy in wound healing is summarized. First, the basic principles of photodynamic therapy and photothermal therapy are briefly introduced. In addition, the progress of the application of hydrogel combined with phototherapy in wound healing is systematically investigated. Finally, the challenges and prospects of combining hydrogel with phototherapy in wound healing are discussed.

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Hyaluronic acid-based glucose-responsive antioxidant hydrogel platform for enhanced diabetic wound repair

Liu

et al. 2022

Acta Biomaterialia

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Stimuli-responsive cyclodextrin-based supramolecular assemblies as drug carriers

et al. 2022

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A meta-analysis of the effectiveness of ALEKS on learning

Ying

Ren

et al. 2018

Educational Psychology

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Poly(disulfide)s: From Synthesis to Drug Delivery

et al. 2021

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Bioresponsive polymers have been widely used in drug delivery because of their degradability. For example, poly(disulfide)s with repeating disulfide bonds in the main chain have attracted considerable research attention. The characteristics of the disulfide bonds, including their dynamic and reversible properties and their responsiveness to stimuli such as reductants, light, heat, and mechanical force, make them ideal platforms for on-demand drug delivery. This review introduces the synthesis methods and applications of poly(disulfide)s. Furthermore, the synthesis methods of poly(disulfide)s are classified on the basis of the monomers used: oxidative step-growth polymerization with dithiols, ring-opening polymerization with cyclic disulfides, and polymerization with linear disulfides. In addition, recent advances in poly(disulfide)s for the delivery of small-molecule or biomacromolecular drugs are discussed. Quantum-dot-loaded poly(disulfide) delivery systems for imaging are also included. This review provides an overview of the various design strategies employed in the construction of poly(disulfide) platforms to inspire new applications in the field of drug delivery.

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Fang Ying

Hydrogel Combined with Phototherapy in Wound Healing

Hyaluronic acid-based glucose-responsive antioxidant hydrogel platform for enhanced diabetic wound repair

Stimuli-responsive cyclodextrin-based supramolecular assemblies as drug carriers

A meta-analysis of the effectiveness of ALEKS on learning

Poly(disulfide)s: From Synthesis to Drug Delivery

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