Shahrousvand Mohammad, Golshan Ebrahimi Nadereh
Polymer Engineering Department, Chemical Engineering Faculty, Tarbiat Modares University, Tehran Iran.
Int J Pharm. 2022 Dec 15;629:122338. doi: 10.1016/j.ijpharm.2022.122338. Epub 2022 Oct 26.
Nanofibrous wound dressing is one of the most prominent stratagems for wound caring/management. This research is an approach for designing an electrospun wound dressing based on poly(ε-caprolactone)/hydroxypropyl cellulose/zinc oxide nanoparticles (PCL/HPC/n-ZnO), in which response surface methodology (RSM) was utilized to ascertain the optimum sample. It was observed that the addition of n-ZnO and Melilotus Officinalis (MO) extract could increase the fibers mean diameter, pore size, and crystallinity of mats. The mentioned quantities for a sample with the highest MO content (PHZM10) were equal to 469±105 nm, 544±370 nm, and 49.67%, respectively. Moreover, enhancing the amount of MO led to an increase in mechanical properties. In this respect, the PHZM10 sample had the modulus, strength, and toughness of 82.41±0.61, 20.45±0.30 MPa, and 4194.86 mJ, respectively. Also, according to the MTT assay, no cytotoxicity was reported from any of the manufactured samples. Besides, it was concluded that the antibacterial activity and nanofibrous structure of mats, and also their potential for release of MO extract could accelerate the wound healing. Hence, the wound closure index for the PHZM10 group was 99.3±1.1%. Based on all noted results, the PCL/HPC/n-ZnO/MO electrospun mats can be proposed as reassuring wound dressing candidates.
纳米纤维伤口敷料是伤口护理/管理中最突出的策略之一。本研究是一种基于聚(ε-己内酯)/羟丙基纤维素/氧化锌纳米颗粒(PCL/HPC/n-ZnO)设计电纺伤口敷料的方法,其中利用响应面法(RSM)确定最佳样品。观察到添加n-ZnO和草木犀(MO)提取物可增加纤维平均直径、孔径和垫材的结晶度。对于MO含量最高的样品(PHZM10),上述量分别等于469±105 nm、544±370 nm和49.67%。此外,增加MO的量会导致机械性能提高。在这方面,PHZM10样品的模量、强度和韧性分别为82.41±0.61、20.45±0.30 MPa和4194.86 mJ。而且,根据MTT试验,所制备的任何样品均未报告细胞毒性。此外,得出结论,垫材的抗菌活性和纳米纤维结构以及它们释放MO提取物的潜力可加速伤口愈合。因此,PHZM10组的伤口闭合指数为99.3±1.1%。基于所有记录的结果,PCL/HPC/n-ZnO/MO电纺垫材可被提议作为可靠的伤口敷料候选材料。
