Improvement in mechanical properties and biodegradability of PLA using poly(ethylene glycol) and triacetin for antibacterial wound dressing applications.

IF 4.4 3区 医学 Q2 ENGINEERING, BIOMEDICAL Progress in Biomaterials Pub Date : 2020-06-01 Epub Date: 2020-05-30 DOI:10.1007/s40204-020-00131-6
Bita Darabian, Hamed Bagheri, Soheila Mohammadi
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Abstract

Wound is among the most common injuries. A suitable wound dressing has a significant effect on the healing process. In this study, a porous wound dressing was prepared using poly (lactic acid) (PLA) and two plasticizers, polyethylene glycol (PEG) and triacetin (TA), through solvent casting method. For antibacterial activities, metronidazole was incorporated in the structure. The morphology was investigated by scanning electron microscopy (SEM). In addition, the effect of plasticizers ratio on porosity growth was evaluated. It was also observed that each had a unique effect on the structure's porosity. The mechanical properties confirmed the effect of both plasticizers on increasing polymer softness and flexibility, and the most similar formulations to human skin in terms of mechanical properties were introduced. According to the results, TA had stronger effect on mechanical properties. The differential scanning calorimetry (DSC) showed the effect of increasing plasticizer concentration on crystalline structure and Tm reduction of PLA. The water contact angle measurement showed that both plasticizers enhanced hydrophilic characteristics of PLA, and this effect was weaker in PEG-containing formulations. The in vitro degradation study showed biodegradability, as a desirable property in wound dressing. Results suggested that higher degradation can be obtained by both plasticizers at the same time. The results also showed that PEG was more effective in enhancing water absorbency. In vitro drug release study indicated an explosive release and the highest amount was 85% over 186 h. The antibacterial activity test confirmed the effectiveness of the drug in preventing bacterial growth in the drug-containing formulations, while it showed the antibacterial property of TA. MTT assay was performed and the cellular toxicity of the formulations was checked and those that revealed the least toxicity were introduced.

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使用聚乙二醇和三醋精改善聚乳酸的机械性能和生物降解性,用于抗菌伤口敷料。
伤口是最常见的伤害之一。合适的伤口敷料对伤口愈合过程有重要影响。本研究使用聚乳酸(PLA)和两种增塑剂(聚乙二醇(PEG)和三醋精(TA)),通过溶剂浇注法制备了一种多孔伤口敷料。为了提高抗菌活性,在其结构中加入了甲硝唑。扫描电子显微镜(SEM)对其形态进行了研究。此外,还评估了增塑剂比例对孔隙率增长的影响。研究还发现,每种增塑剂对结构的孔隙率都有独特的影响。机械性能证实了两种增塑剂对增加聚合物柔软度和弹性的影响,并介绍了在机械性能方面与人体皮肤最相似的配方。结果表明,TA 对机械性能的影响更大。差示扫描量热法(DSC)显示了增塑剂浓度增加对聚乳酸结晶结构和 Tm 降低的影响。水接触角测量结果表明,两种增塑剂都增强了聚乳酸的亲水性,而在含 PEG 的配方中,这种影响较弱。体外降解研究表明,生物降解性是伤口敷料的理想特性。结果表明,同时使用两种增塑剂可获得更高的降解率。结果还表明,PEG 在提高吸水性方面更为有效。抗菌活性测试证实了药物在含药制剂中防止细菌生长的有效性,同时也显示了 TA 的抗菌特性。进行了 MTT 试验,检查了制剂的细胞毒性,并引入了毒性最小的制剂。
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来源期刊
Progress in Biomaterials
Progress in Biomaterials MATERIALS SCIENCE, BIOMATERIALS-
CiteScore
9.60
自引率
4.10%
发文量
35
期刊介绍: Progress in Biomaterials is a multidisciplinary, English-language publication of original contributions and reviews concerning studies of the preparation, performance and evaluation of biomaterials; the chemical, physical, biological and mechanical behavior of materials both in vitro and in vivo in areas such as tissue engineering and regenerative medicine, drug delivery and implants where biomaterials play a significant role. Including all areas of: design; preparation; performance and evaluation of nano- and biomaterials in tissue engineering; drug delivery systems; regenerative medicine; implantable medical devices; interaction of cells/stem cells on biomaterials and related applications.
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