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W4309437574 endingPage "217" @default.
W4309437574 startingPage "199" @default.
W4309437574 abstract "Management of diabetic wound has long been a clinical challenge due to pathological microenvironment of excessive inflammation, persistent hyperglycemia, and biofilm infection caused by overdue reactive oxygen species (ROS) production and defective blood vessels. Herein, a multifunctional hydrogel with ROS scavenging and photothermal antibacterial activity based on oxidized dextran (Odex), gallic acid-grafted gelatin (GAG) and Ferric ion, named OGF, was developed for treatment of infected wound in a diabetic mouse. This hydrogel was double-crosslinked by the dynamically Schiff-base bonds formed between aldehyde groups in Odex and amino groups in GAG and the metal coordination bonds formed between Ferric ion and polyphenol groups or carboxyl groups in GAG, which endowed the resulted OGF hydrogel with well injectable, self-healing and adhesive properties. Due to the high-efficiency photothermal effect of Ferric ion/polyphenol chelate, this hydrogel killed Staphylococcus aureus and Escherichia coli rapidly and completely within 3.5 min under near-infrared light radiation. Furthermore, this composed hydrogel presented good antioxidation, hemostasis and biocompatibility. It also remarkably accelerated the complete re‑epithelialization of Staphylococcus aureus‑infected wound in diabetic mice within 18 days by eliminating infection, mitigating oxidative stress and inflammation, and facilitating angiogenesis. Therefore, the proposed multifunctional hydrogel exerts a great potential for translation in the clinical management of diabetic wounds. High reactive oxygen species (ROS) levels and vascular defects in diabetic wounds can lead to excessive inflammation, persistent hyperglycemia, biofilm infection and other pathological microenvironments, which can further develop to the chronic wounds. In this study, we designed a multifunctional hydrogel with ROS-scavenging ability and photothermal antibacterial activity for the treatment of infected diabetic wound. As expected, this multifunctional hydrogel dressing highly accelerated the complete re‑epithelialization of Staphylococcus aureus‑infected wound in diabetic mouse by eliminating infection, mitigating oxidative stress and inflammation, as well as facilitating angiogenesis. This work provides a promising therapeutic strategy for infected diabetic wound by inhibition of oxidative stress and biofilm infection." @default.
W4309437574 created "2022-11-27" @default.
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W4309437574 date "2023-01-01" @default.
W4309437574 modified "2023-10-16" @default.
W4309437574 title "Multifunctional hydrogel with reactive oxygen species scavenging and photothermal antibacterial activity accelerates infected diabetic wound healing" @default.
W4309437574 cites W2006990609 @default.
W4309437574 cites W2071435132 @default.
W4309437574 cites W2184184250 @default.
W4309437574 cites W2231157574 @default.
W4309437574 cites W2585180500 @default.
W4309437574 cites W2747454487 @default.
W4309437574 cites W2761809061 @default.
W4309437574 cites W2784418631 @default.
W4309437574 cites W2793801139 @default.
W4309437574 cites W2797400805 @default.
W4309437574 cites W2797953917 @default.
W4309437574 cites W2799515121 @default.
W4309437574 cites W2809266196 @default.
W4309437574 cites W2857318559 @default.
W4309437574 cites W2888118846 @default.
W4309437574 cites W2890322110 @default.
W4309437574 cites W2890592881 @default.
W4309437574 cites W2907531852 @default.
W4309437574 cites W2952250596 @default.
W4309437574 cites W2954968267 @default.
W4309437574 cites W2956255982 @default.
W4309437574 cites W2966064397 @default.
W4309437574 cites W2981451715 @default.
W4309437574 cites W2983938420 @default.
W4309437574 cites W2996293879 @default.
W4309437574 cites W2998227877 @default.
W4309437574 cites W3001474942 @default.
W4309437574 cites W3002390066 @default.
W4309437574 cites W3003523094 @default.
W4309437574 cites W3006819626 @default.
W4309437574 cites W3021164543 @default.
W4309437574 cites W3024775201 @default.
W4309437574 cites W3037692118 @default.
W4309437574 cites W3037803696 @default.
W4309437574 cites W3047317117 @default.
W4309437574 cites W3048084671 @default.
W4309437574 cites W3081123980 @default.
W4309437574 cites W3083732197 @default.
W4309437574 cites W3086999107 @default.
W4309437574 cites W3092136160 @default.
W4309437574 cites W3104345393 @default.
W4309437574 cites W3106686178 @default.
W4309437574 cites W3112376185 @default.
W4309437574 cites W3123756952 @default.
W4309437574 cites W3128341272 @default.
W4309437574 cites W3131248660 @default.
W4309437574 cites W3133226407 @default.
W4309437574 cites W3135565737 @default.
W4309437574 cites W3139239834 @default.
W4309437574 cites W3159247390 @default.
W4309437574 cites W3160921080 @default.
W4309437574 cites W3170819454 @default.
W4309437574 cites W3176613104 @default.
W4309437574 cites W3177178089 @default.
W4309437574 cites W3182336228 @default.
W4309437574 cites W3197255254 @default.
W4309437574 cites W3202610414 @default.
W4309437574 cites W3208766653 @default.
W4309437574 cites W3213277934 @default.
W4309437574 cites W3213604708 @default.
W4309437574 cites W4200039845 @default.
W4309437574 cites W4213283357 @default.
W4309437574 cites W4214932645 @default.
W4309437574 cites W4224300151 @default.
W4309437574 cites W4225506597 @default.
W4309437574 cites W4286008378 @default.
W4309437574 cites W4290792247 @default.
W4309437574 doi "https://doi.org/10.1016/j.actbio.2022.11.023" @default.
W4309437574 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36402298" @default.
W4309437574 hasPublicationYear "2023" @default.
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