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双向冷冻法制备的取向多层MXene/PVA水凝胶的细菌屏蔽作用及对肠道缺损的修复

Bacterial Blocking and Repair of Intestinal Defects With Well-Alighed Lamellar MXene/Polyvinyl Alcohol Hydrogels Prepared by Bidirectional Freezing Method

  • 摘要:
    目的  探究取向多层MXene/聚乙烯醇(polyvinyl alcohol, PVA)纳米复合水凝胶对细菌的屏蔽作用以及对于肠道缺损修复的影响。
    方法  采用传统冷冻法和双向冷冻冰模板法制备MXene/PVA纳米复合水凝胶。通过扫描电镜扫描以及Micro-CT重建观察不同水凝胶的结构,通过动态流变仪测定水凝胶的流变性能,通过万能材料实验机测定水凝胶的力学性能,通过爆破实验测定水凝胶的爆破压力,通过渗透法观察菌落生长情况以检测水凝胶体外的细菌屏蔽能力。制备大鼠盲肠穿孔动物模型,采用水凝胶进行肠道修复。通过革兰染色观察水凝胶体内的细菌屏蔽能力,通过HE染色观察肠道炎症情况,通过CD31、CD68免疫荧光染色和增殖细胞核抗原(proliferating cell nuclear antigen, PCNA)染色观察水凝胶对肠道缺损的修复作用。
    结果  扫描电镜结果和Micro-CT重建结果显示传统冷冻法制备的水凝胶为无规多孔结构,双向冷冻法制备的水凝胶为取向多层结构。流变和拉伸结果显示取向水凝胶具有较优的力学性能,且取向多层水凝胶的爆破压力大于非取向水凝胶(P<0.001),达到27 kPa。通过渗透法观察渗透水凝胶的细菌生长情况,发现相比于非取向水凝胶,取向多层水凝胶在体外可有效阻挡大肠杆菌和金黄色葡萄球菌的渗透;革兰染色结果显示,取向多层结构水凝胶在体内可有效屏蔽肠道细菌进入腹腔。HE染色结果表明取向多层水凝胶在体内可有效减轻肠道炎症,CD31、CD68免疫荧光染色和PCNA染色结果显示取向多层水凝胶在体内对肠道缺损有修复作用。
    结论  通过双向冷冻法制备的取向多层水凝胶可以有效阻挡细菌的渗透,并减轻肠道炎症。

     

    Abstract:
    Objective  To explore the bacterial blocking effect of oriented multilayer MXene/polyvinyl alcohol (PVA) nanocomposite hydrogels and their effect on the repair of intestinal defects.
    Methods  MXene/PVA nanocomposite hydrogels were prepared using the traditional freezing method and the bidirectional freezing ice template method. The structures of the different hydrogels were observed using scanning electron microscopy (SEM) and micro-CT reconstruction. The rheological properties of the hydrogels were measured using a dynamic rheometer, and their mechanical properties were assessed using a universal testing machine. The burst pressure of the hydrogels was determined through burst experiments, and bacterial colony growth was observed by the osmosis method to assess the bacteria blocking ability of the hydrogels in vitro. A rat model of cecal perforation was established, and the hydrogels were used for intestinal repair. Gram staining was performed to observe in vivo the bacterial blocking ability of the hydrogels, HE staining was performed to observe the intestinal inflammation, and CD31 and CD68 immunofluorescence staining and proliferating cell nuclear antigen (PCNA) staining were performed to observe the repair effect of the hydrogels on intestinal defects.
    Results SEM and micro-CT reconstruction revealed that the hydrogel prepared by the traditional freezing method exhibited a random porous structure, while the hydrogel prepared by the bidirectional freezing method showed an oriented multilayer structure. Rheological and tensile tests indicated that the oriented hydrogel had superior mechanical properties, and the burst pressure of the oriented multilayer hydrogel was as high as 27 kPa, significantly higher than that of the non-oriented hydrogel (P<0.001). Bacterial colony growth was observed by the osmosis method and it was found that, compared with the non-oriented hydrogel, the oriented multilayer hydrogel could effectively prevent the infiltration of Escherichia coli and Staphylococcus aureus in vitro. Gram staining results showed that the oriented multilayer hydrogel could effectively block intestinal bacteria from entering the abdominal cavity in vivo. HE staining results showed that the oriented multilayer hydrogel could effectively reduce intestinal inflammation in vivo. CD31 and CD68 immunofluorescence staining and PCNA staining results showed that the oriented multilayer hydrogel had a repairing effect on intestinal defects in vivo.
    Conclusion  The oriented multilayer hydrogel prepared by bidirectional freezing effectively prevents bacterial infiltration and reduces intestinal inflammation.

     

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