| Literature DB >> 25498800 |
Rui Xu1, Gaoxing Luo2, Hesheng Xia3, Weifeng He1, Jian Zhao3, Bo Liu3, Jianglin Tan1, Junyi Zhou1, Daisong Liu1, Yuzhen Wang1, Zhihui Yao1, Rixing Zhan1, Sisi Yang1, Jun Wu4.
Abstract
Wound dressing is critical important for cutaneous wound healing. However, the application of current products is limited due to poor mechanical property, unsuitable water vapor transmission rate (WVTR), poor anti-infective property or poor biocompatibility, etc. In the present study, a microporous silicone rubber membrane bilayer (SRM-B) composed of two layers with different pore sizes was prepared. The physical properties, the influences of pore structure on the bacterial penetration, the cell adhesion and proliferation were studied. Lastly, the effects of the SRM-B on the healing of a mouse full-thickness wound were examined. The data showed that the small pore upper layer of SRM-B could effectively prevent the bacterial invasion, as well as properly keep the water vapor transmission rate; the large pore lower layer of SRM-B could promote the cell adhesion and proliferation. The in vivo results showed that SRM-B could significantly enhance wound re-epithelialization and contraction, which accelerated the wound healing. Our data suggested that the SRM-B, with different particular pore sizes, could serve as a kind of promising wound dressing.Entities:
Keywords: Bilayer; Micropore; Silicone rubber; Wound dressing; Wound healing
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Year: 2014 PMID: 25498800 DOI: 10.1016/j.biomaterials.2014.10.077
Source DB: PubMed Journal: Biomaterials ISSN: 0142-9612 Impact factor: 12.479