渗出液
抗生素
吸收(声学)
离体
生物医学工程
材料科学
生物膜
微生物学
牙科
医学
体内
细菌
生物
复合材料
生物技术
病理
遗传学
作者
Yang Gao,Anwar Elhadad,Seokheun Choi
标识
DOI:10.1002/adem.202301422
摘要
Traditional hydrophilic wound dressings, while common, fail to effectively drain wound exudate, creating conditions favorable for bacterial growth. Similarly, newer Janus‐type dressings with hydrophobic‐hydrophilic properties also fall short, as their hydrophobic side causes excessive dryness by pulling biofluids from the wound, disrupting moisture balance. Additionally, embedding antibiotics in dressings at fixed concentrations, regardless of the infection type, reduces effectiveness and contributes to the growing problem of antibiotic resistance. In response, a single‐layered Janus paper wound dressing, designed for efficient exudate absorption and precise antibiotic delivery, is developed. The approach differs from traditional Janus‐type dressings; a hydrophilic layer is placed directly against the wound for better moisture management, while antibiotics are applied through the hydrophobic layer. To further enhance exudate management, the hydrophilic section with four extra absorbent pads is extended. The dressing's antibiotic efficacy and dosage are tailored based on antibiotic susceptibility testing, ensuring targeted treatment. The selected antibiotic is manually added but automatically delivered directly to the wound bed. The in vitro and ex vivo evaluations, using bacterial cultures on agar and porcine skin assays, respectively, confirm the dressing's superior exudate drainage and its ability to inhibit pathogen growth and reproduction, marking a significant advancement in wound care.
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