Department of Plastic and Reconstructive Surgery, Faculty of Medicine, Karadeniz Technical University, Trabzon, TurkeyDepartment of Pathology, Faculty of Medicine, Karadeniz Technical University, Trabzon, TurkeyDepartment of General Surgery, Faculty of Medicine, Karadeniz Technical University, Trabzon, Turkey.
Int Wound J. 2014 Feb;11(1):85-92. doi: 10.1111/j.1742-481X.2012.01071.x. Epub 2012 Sep 3.
The objective of this study was to investigate the healing effect of five different products on split-thickness skin graft (STSG) donor sites and full-thickness cutaneous wounds (FTCWs) using an occlusive dressing model. Six groups were included: 1 control and 5 experimental groups, with a total of 24 rats, using an occlusive dressing model. STSG donor sites and FTCWs were established in two separate areas, to the right and left on the animals' backs. Wound sites were dressed with one of the following materials: fine mesh gauze, microporous polysaccharide hemosphere (MPH), clinoptilolite, alginate, hydrogel or biosynthetic wound dressing (Biobran(®) ). These materials were compared in terms of healing rate, healing quality and histopathological findings. Occlusive dressings were applied to each wound on days 0, 3, 5, 7, 10 and 14. Area measurements were taken using images of each dressing. The alginate and clinoptilolite groups gave the best healing rate results for both STSG donor sites (P = 0·003) and FTCWs (P = 0·003). MPH came third in each group. The alginate group produced better results in terms of healing quality criteria, followed by hydrogel, MPH, clinoptilolite and Biobran(®) , in that order. Statistically significant results were obtained in all groups compared to the control group (P < 0·0007). Rapid and good healing quality for both the STSG donor sites and FTCWs were obtained with alginate. Healing with clinoptilolite and MPH was rapid, but poor quality, while slower but good healing quality was obtained with hydrogel. Slower and worse quality healing was obtained with Biobran(®) .
本研究旨在通过密闭敷料模型,探究 5 种不同产品对断层皮片供皮区(split-thickness skin graft,STSG)和全层皮肤创面(full-thickness cutaneous wounds,FTCWs)的愈合效果。共纳入 6 组,每组 24 只大鼠,使用密闭敷料模型。在动物背部右侧和左侧分别建立 STSG 供皮区和 FTCWs。采用以下材料之一对创面进行包扎:细网纱布、微孔多糖球(microporous polysaccharide hemosphere,MPH)、沸石、藻酸盐、水凝胶或合成创面敷料(Biosynthetic wound dressing,Biobran(®))。比较不同材料的愈合率、愈合质量和组织病理学发现。在第 0、3、5、7、10 和 14 天,对每个创面应用密闭敷料。使用每个敷料的图像进行面积测量。藻酸盐和沸石组对 STSG 供皮区(P = 0·003)和 FTCWs(P = 0·003)的愈合率结果最佳。MPH 在每组中排名第三。藻酸盐组在愈合质量标准方面表现最好,其次是水凝胶、MPH、沸石和 Biobran(®)。与对照组相比,所有组均获得统计学显著结果(P < 0·0007)。藻酸盐可快速、高质量地愈合 STSG 供皮区和 FTCWs。沸石和 MPH 愈合迅速,但质量差,水凝胶愈合缓慢,但质量好,Biobran(®)愈合缓慢且质量差。