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Main Authors: Zhang, Wenhao, Liu, Yang, Zhang, Ling, Shen, Xinni
Format: Artículo científico
Language:en
Published: International journal of biological macromolecules 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40112998/
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author Zhang, Wenhao
Liu, Yang
Zhang, Ling
Shen, Xinni
author_facet Zhang, Wenhao
Liu, Yang
Zhang, Ling
Shen, Xinni
Zhang, Wenhao
Liu, Yang
Zhang, Ling
Shen, Xinni
collection PubMed - marine biology
contents Development of hyaluronic acid-based hydrogels for chronic diabetic wound healing: A review. Zhang, Wenhao Liu, Yang Zhang, Ling Shen, Xinni Hyaluronic Acid Hydrogels Wound Healing Humans Animals Diabetic Foot Chronic Disease Biocompatible Materials Drug Liberation This research delves into the advancements in chronic skin wound treatment, with a particular focus on diabetic foot ulcers, utilizing hyaluronic acid (HA)-based hydrogels. Hyaluronic acid, an integral component of the skin's extracellular matrix, plays a crucial role in process such as inflammation, angiogenesis, and tissue regeneration. Due to their three-dimensional network structure, biocompatibility, hydrophilicity, and gas exchange capabilities, HA-based hydrogels are considered highly suitable for promoting wound healing. Nonetheless, pure HA hydrogels exhibit limitations including insufficient mechanical strength and rapid release of encapsulated substances. To address these limitations, the incorporation of bioactive materials such as chitosan and collagen was investigated. This combination not only optimized mechanical strength and degradation rates but also enhanced antibacterial and anti-inflammatory properties. Furthermore, responsive hydrogel dressings were developed to adapt to the specific characteristics of the diabetic wound microenvironment, enabling on-demand drug release. These advancements present new perspectives for the treatment of diabetic foot ulcers.
format Artículo científico
id pubmed_40112998
institution PubMed
language en
publishDate 2025
publisher International journal of biological macromolecules
record_format pubmed
spellingShingle Development of hyaluronic acid-based hydrogels for chronic diabetic wound healing: A review.
Zhang, Wenhao
Liu, Yang
Zhang, Ling
Shen, Xinni
Hyaluronic Acid
Hydrogels
Wound Healing
Humans
Animals
Diabetic Foot
Chronic Disease
Biocompatible Materials
Drug Liberation
Development of hyaluronic acid-based hydrogels for chronic diabetic wound healing: A review. Zhang, Wenhao Liu, Yang Zhang, Ling Shen, Xinni Hyaluronic Acid Hydrogels Wound Healing Humans Animals Diabetic Foot Chronic Disease Biocompatible Materials Drug Liberation This research delves into the advancements in chronic skin wound treatment, with a particular focus on diabetic foot ulcers, utilizing hyaluronic acid (HA)-based hydrogels. Hyaluronic acid, an integral component of the skin's extracellular matrix, plays a crucial role in process such as inflammation, angiogenesis, and tissue regeneration. Due to their three-dimensional network structure, biocompatibility, hydrophilicity, and gas exchange capabilities, HA-based hydrogels are considered highly suitable for promoting wound healing. Nonetheless, pure HA hydrogels exhibit limitations including insufficient mechanical strength and rapid release of encapsulated substances. To address these limitations, the incorporation of bioactive materials such as chitosan and collagen was investigated. This combination not only optimized mechanical strength and degradation rates but also enhanced antibacterial and anti-inflammatory properties. Furthermore, responsive hydrogel dressings were developed to adapt to the specific characteristics of the diabetic wound microenvironment, enabling on-demand drug release. These advancements present new perspectives for the treatment of diabetic foot ulcers.
title Development of hyaluronic acid-based hydrogels for chronic diabetic wound healing: A review.
topic Hyaluronic Acid
Hydrogels
Wound Healing
Humans
Animals
Diabetic Foot
Chronic Disease
Biocompatible Materials
Drug Liberation
url https://pubmed.ncbi.nlm.nih.gov/40112998/