首页|期刊导航|Nano Research|Magnesium-EGCG composite deer antler decellularized ECM hydrogel for diabetic wound healing

Magnesium-EGCG composite deer antler decellularized ECM hydrogel for diabetic wound healingOA

中文摘要

Diabetic wound healing remains a major clinical challenge,primarily due to excessive inflammation,bacterial infection,and impaired angiogenesis.Although various biomaterial-based strategies have been explored,coordinating the complex diabetic wound microenvironment remains difficult to achieve.This study proposes a novel multifunctional hydrogel dressing designed to synergistically address multiple issues.Its key innovation lies in dynamically crosslinking deer antler decellularized matrix(dECM)with oxidized dextran via imine bonds,creating a self-healing hydrogel(dECMH).The deer antler dECM,rich in pro-regenerative components,provides a biomimetic scaffold,while Schiff base crosslinking confers mechanical self-healing and injectability.To further address the complexity of diabetic wounds,magnesium gallate metalorganic frameworks(Mg-EGCG)were embedded within the dECMH network,forming Mg-EGCG@dECMH.This innovative combination enables sustained co-delivery of epigallocatechin gallate(EGCG)—possessing antibacterial,anti-inflammatory,and antioxidant properties—alongside magnesium ions that actively promote cell proliferation and vascular regeneration.In vitro analyses confirmed the hydrogel''s capacity to enhance endothelial cell proliferation,boost angiogenesis,and mitigate oxidative stress.In vivo evaluations demonstrated accelerated wound healing,manifested by rapid inflammation resolution,ordered collagen deposition,and stimulated neovascularization.Additionally,the material exhibited excellent biocompatibility,hemostatic effects,and antimicrobial activity.This multifunctional dressing synergistically integrates the inherent bioactivity of unique antler decellularized matrix with the multimodal therapeutic effects of metal-organic nanocomposites,offering an innovative and effective strategy for diabetic wound management.

Yuli Li;Rui Liang;Yikun Ju;Ruliang Pan;Li He;Chunyu Su;Yijia Yuan;Qizhuang Lv;Lei Yang;Baoguo Li

Shaanxi Key Laboratory for Animal Conservation,College of Life Science,Northwest University,Xi’an 710069,ChinaShaanxi Key Laboratory for Animal Conservation,College of Life Science,Northwest University,Xi’an 710069,ChinaDepartment of Plastic and Aesthetic(Burn)Surgery,The Second Xiangya Hospital,Central South University,Changsha 410011,ChinaShaanxi Key Laboratory for Animal Conservation,College of Life Science,Northwest University,Xi’an 710069,ChinaShaanxi Key Laboratory for Animal Conservation,College of Life Science,Northwest University,Xi’an 710069,ChinaShaanxi Key Laboratory for Animal Conservation,College of Life Science,Northwest University,Xi’an 710069,ChinaShaanxi Key Laboratory for Animal Conservation,College of Life Science,Northwest University,Xi’an 710069,ChinaCollege of Smart Agriculture,Yulin Normal University,Yulin 537000,ChinaInstitute of Sericulture and Tea,Zhejiang Academy of Agricultural Sciences,Hangzhou 310021,ChinaShaanxi Key Laboratory for Animal Conservation,College of Life Science,Northwest University,Xi’an 710069,China Shaanxi Institute of Zoology,Xi’an 710032,China College of Life Science,Yanan University,Yanan 716000,China

医药卫生

diabetic wounddeer antlerdecellularized matrixmagnesium gallate metal-organic frameworks(Mg-EGCG)hydrogel

《Nano Research》 2026 (1)

P.886-902,17

supported by the National Natural Science Foundation of China(Nos.32300413 and 32371563)the Natural Science Basic Research Program of Shaanxi Province(No.2023-JCQN-0206)the Shaanxi Fundamental Science Research Project for Chemistry&Biology(No.22JHQ037)the National Key R&D Program of China(No.2024YFF1307302).

10.26599/NR.2025.94908255

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