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上海腾拔国产质构仪用于测定抗菌微针的机械性能

发布时间:2025/7/25点击次数:98

Diabetic ulcers present a formidable obstacle in diabetes management, typically leading to high mortality and amputation rates. To overcome traditional monotherapy drawbacks, We developed a novel microneedle strategy for combined antimicrobial action: ingeniously integrating quercetin with Platelet-derived Growth Factor-BB(PDGF-BB) and Sucrose Octasulfate(SOS) into the microneedle system(QPS MN). This method allows to penetrate through biofilms, administering quercetin nanocrystals and PDGF-BB deep into the tissue to combat microbial infection, mitigate inflammation, and promote angiogenesis. The accompanying backing material contains SOS, which absorbs wound exudate and forms a dressing that provides a moist environment for wound healing In an in vitro wound-scratch assay demonstrated that  Human Umbilical Vein Endothelial Cells(HUVEC) with QPS MN for 48 h (90.3 ± 2.51 %) significantly enhanced cell migration compared to the control group (20.2 ± 1.41 %). Moreover, treatment of streptozotocin-induced diabetic wounds in rats with QPS MN for 14 days resulted in a wound healing rate of 96.56 ± 3.44 %, far surpassing the healing rate of only 40.34 ± 7.26 % observed in the untreated control group. Furthermore, the QPS MN treated wounds exhibited a notable increase in skin appendages and neovascularisation, indicating promising potential for achieving complete wound healing. These results suggest that QPS MN may offer substantial therapeutic benefits for addressing diabetic wounds.

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