弹性蛋白
医学
肉芽组织
不利影响
伤口愈合
中止
自愈水凝胶
单中心
炎症
临床试验
外科
内科学
病理
化学
有机化学
作者
Kazuo Noda,Katsuya Kawai,Yoshitaka Matsuura,Toshiko Ito‐Ihara,Yoko Amino,Mika Ushimaru,Akemi Kinoshita,Harue Tada,Hiroyasu Abe,Satoshi Morita,Akira Shimizu,Itaru Tsuge,Michiharu Sakamoto,Naoki Morimoto
标识
DOI:10.1097/gox.0000000000003556
摘要
BACKGROUND: Although traditional wound dressings such as collagen scaffolds promote granulation tissue formation, the efficacy of these dressings in chronic wounds is limited because of high susceptibility to bacterial growth. Biomaterials that can be applied to chronic wounds should have an anti-bacterial function. We previously reported that administering a silk-elastin solution that forms moisturizing hydrogels to wound surfaces of diabetic mice reduced bacterial growth and promoted granulation tissue formation compared with control or carboxymethyl cellulose hydrogels. We hypothesized that silk-elastin promotes wound healing in human chronic wounds by suppressing bacterial growth. METHODS: ) < 25) on their lower extremities were included; patients with critical ischemia were excluded. Silk-elastin sponges were applied and covered with a polyurethane film without changing the dressing for 14 days. Inflammation triggered treatment discontinuation due to fear of infection. The primary study endpoint was adverse events, including inflammation and infection. RESULTS: Poor hydrogel formation, possibly due to continuous exudation, was observed. No serious adverse events were noted. Two patients discontinued treatment on day 6 and day 7, respectively, due to inflammation, but they were not infected. The other 4 patients completed the 14-day silk-elastin sponge treatment without infection. CONCLUSION: Silk-elastin sponge is safe for chronic skin ulcers, and its ability to promote wound healing should be determined by confirmatory clinical trials.
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