Glucose Epimerization‐Modulated Phytochemicals Constructing Carrier‐Free Hydrogel for Regulation of Macrophage Phenotype to Promote Wound Healing

Lu, Jihui; Zhao, Haoqiang; Wang, Zhijia; Lin, Xiaoyu; Pi, Wenmin; Zhang, Xiang; Yang, Luping; Yao, Shuchang; Zhang, Yaozhi; Huang, Xuemei; Lei, Haimin; Wang, Penglong

doi:10.1002/adfm.202314089

Adv Funct Materials

2024

DOI: 10.1002/adfm.202314089

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Glucose Epimerization‐Modulated Phytochemicals Constructing Carrier‐Free Hydrogel for Regulation of Macrophage Phenotype to Promote Wound Healing

Jihui Lu,

Haoqiang Zhao,

Zhijia Wang

et al.

Abstract: The self‐assembly of phytochemicals with multiple chiral centers is receiving significant attention for its potential in biomedical applications. However, the impact of single chiral center epimerization on molecular self‐assembly remains unexplored. Herein, the self‐assembly behavior and bioactivities of 1,2,3,4,6‐penta‐O‐galloyl‐α‐D‐glucose (α‐D‐PGG) and 1,2,3,4,6‐penta‐O‐galloyl‐β‐D‐glucose (β‐D‐PGG) is examined, a pair of natural ellagitannins abundant in plants. Interestingly, β‐D‐PGG formed a hydrogel wi… Show more

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Cited by 5 publications

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“…In addition, NY-glycidyl methacrylate was successfully coated on cotton for the fabrication of pH wearable sensor . Recent advances in materials and manufacturing techniques have led to the manufacture of dressings that provide proper conditions for effective wound healing and closure. − In particular, various smart wound dressings are being developed, including biomechanical wound dressing, stimuli-responsive wound dressing, self-healing wound dressing for motional wounds, self-removable wound dressing, and monitoring wound dressing, have emerged. The exploration of bioadhesives has extended to bioinspired and synthetic materials in the pursuit of optimized mechanical, biocompatible, and curative properties .…”

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confidence: 99%

Portable Photoacoustic Analytical System Combined with Wearable Hydrogel Patch for pH Monitoring in Chronic Wounds

Guo,

Zhang,

Zhao

et al. 2024

Anal. Chem.

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Timely diagnosis, monitoring, and management of chronic wounds play crucial roles in improving patients' quality of life, but clinical evaluation of chronic wounds is still ambiguous and relies heavily on the experience of clinician, resulting in increased social and financial burden and delay of optimal treatment. During the different stages of the healing process, specific and dynamic changes of pH values in the wound exudate can be used as biomarkers to reflect the wound status. Herein, a pH-responsive agent with well-behaved photoacoustic (PA) properties, nitrazine yellow (NY), was incorporated in poly(vinyl alcohol)/sucrose (PVA/Suc) hydrogel to construct a wearable pH-sensing patch (PVA/Suc/NY hydrogel) for monitoring of pH values during chronic wound healing. According to Rosencwaig−Gersho theory and the combination of 3D printing technology, the PA chamber volume and chopping frequency were systematically optimized to improve the sensitivity of the PA analytical system. The prepared PVA/Suc/NY hydrogel patch had excellent mechanical properties and flexibility and could maintain conformal contact with skin. Moreover, combined with the miniaturized PA analytical device, it had the potential to detect pH values (5.0−9.0) free from the color interference of blood and therapeutic drugs, which provides a valuable strategy for wound pH value monitoring by PA quantitation. This strategy of combining the wearable hydrogel patch with portable PA analysis offers broad new prospects for the treatment and management of chronic wounds due to its features of simple operation, time savings, and anti-interference.

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mentioning

confidence: 99%

Portable Photoacoustic Analytical System Combined with Wearable Hydrogel Patch for pH Monitoring in Chronic Wounds

Guo,

Zhang,

Zhao

et al. 2024

Anal. Chem.

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Sprayable Nanocomposites Hydrogel for Wound Healing and Skin Regeneration

Li,

Luo,

et al. 2024

Adv Healthcare Materials

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Wound management remains a critical challenge worldwide and imposes a huge financial burden on every nation. Hydrogels are promising for biomedical applications because of their extracellular matrix (ECM) like structure, good biocompatibility and multifunctional bioactivity. However, the poor mechanical properties and inconvenient operation of traditional hydrogels make it difficult to meet the complex and multifaceted needs of clinical practice. In recent years, the multifunctional nanocomposites hydrogel with especially sprayable feature have shown enhanced mechanical properties and facile operation, which enable their huge clinical applications value. A unique and powerful nanocomposite hydrogels (NCH) platform is developed by combining the many advantages of nanomaterials and hydrogels, which can achieve efficient trauma repair. This work reviews important advances on the preparation, functions and applications of sprayable NCH platforms. The challenges and future trends in the field with the aim of providing researchers with clarity on the past, present, and future of the emerging field of sprayable NCH are also proposed in detail.

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Endogenous/exogenous stimuli‐responsive smart hydrogels for diabetic wound healing

Khattak,

Ullah,

Sohail

et al. 2024

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Diabetes significantly impairs the body's wound‐healing capabilities, leading to chronic, infection‐prone wounds. These wounds are characterized by hyperglycemia, inflammation, hypoxia, variable pH levels, increased matrix metalloproteinase activity, oxidative stress, and bacterial colonization. These complex conditions complicate effective wound management, prompting the development of advanced diabetic wound care strategies that exploit specific wound characteristics such as acidic pH, high glucose levels, and oxidative stress to trigger controlled drug release, thereby enhancing the therapeutic effects of the dressings. Among the solutions, hydrogels emerge as promising due to their stimuli‐responsive nature, making them highly effective for managing these wounds. The latest advancements in mono/multi‐stimuli‐responsive smart hydrogels showcase their superiority and potential as healthcare materials, as highlighted by relevant case studies. However, traditional wound dressings fall short of meeting the nuanced needs of these wounds, such as adjustable adhesion, easy removal, real‐time wound status monitoring, and dynamic drug release adjustment according to the wound's specific conditions. Responsive hydrogels represent a significant leap forward as advanced dressings proficient in sensing and responding to the wound environment, offering a more targeted approach to diabetic wound treatment. This review highlights recent advancements in smart hydrogels for wound dressing, monitoring, and drug delivery, emphasizing their role in improving diabetic wound healing. It addresses ongoing challenges and future directions, aiming to guide their clinical adoption.

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Glucose Epimerization‐Modulated Phytochemicals Constructing Carrier‐Free Hydrogel for Regulation of Macrophage Phenotype to Promote Wound Healing

Cited by 5 publications

References 53 publications

Portable Photoacoustic Analytical System Combined with Wearable Hydrogel Patch for pH Monitoring in Chronic Wounds

Portable Photoacoustic Analytical System Combined with Wearable Hydrogel Patch for pH Monitoring in Chronic Wounds

Sprayable Nanocomposites Hydrogel for Wound Healing and Skin Regeneration

Endogenous/exogenous stimuli‐responsive smart hydrogels for diabetic wound healing

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