Xingyi Du, Wenyue Liu, Boyang Xu, Jie Luan, Chunjun Liu
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The authors hypothesized that a novel hybrid flap preconditioning (HFP) device combining foam-mediated external suction and nonsurgical delay can promote skin flap survival better than surgical delay.</p><p><strong>Method: </strong>Twenty-eight mice were divided into 4 groups: a control group, in which a 4 × 1.5-cm dorsal flap was made with no preconditioning; a surgical delay group, in which surgical delay occurred 7 days before flap elevation; a foam-mediated external suction (FMES) group, in which foam-mediated external suction at -100 mm Hg was used 5 hours a day for 6 days, and the flap was elevated on the seventh day; and a hybrid flap preconditioning (HFP) group, in which silicone strips were applied along the contour of the foam interface. The same negative-pressure protocol was used as in the FMES group. Seven days after flap elevation, macroscopic, histologic, and Western blot analyses were performed.</p><p><strong>Results: </strong>The flap survival rate was 46.25% (8.12%) in the control group, 68.72% (7.00%) in the surgical delay group, 57.03% (8.17%) in the FMES group, and 80.66% (3.27%) in the HFP group. Immunohistologic analysis of CD31 + cells in the distal end of viable tissue procured 7 days after flap elevation showed significantly higher angiogenesis in the surgical delay and HFP groups. Western blot results showed an increased expression of vascular endothelial growth factor in the surgical delay and HFP groups.</p><p><strong>Conclusions: </strong>The authors developed and fabricated a novel HFP device combining foam-mediated external suction and nonsurgical delay. 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The authors hypothesized that a novel hybrid flap preconditioning (HFP) device combining foam-mediated external suction and nonsurgical delay can promote skin flap survival better than surgical delay.</p><p><strong>Method: </strong>Twenty-eight mice were divided into 4 groups: a control group, in which a 4 × 1.5-cm dorsal flap was made with no preconditioning; a surgical delay group, in which surgical delay occurred 7 days before flap elevation; a foam-mediated external suction (FMES) group, in which foam-mediated external suction at -100 mm Hg was used 5 hours a day for 6 days, and the flap was elevated on the seventh day; and a hybrid flap preconditioning (HFP) group, in which silicone strips were applied along the contour of the foam interface. The same negative-pressure protocol was used as in the FMES group. 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引用次数: 0
摘要
背景:皮瓣远端缺血坏死是整形外科手术中极具挑战性的并发症。我们假设一种新型混合皮瓣预处理(HFP)装置结合了泡沫介导的外部抽吸和非手术延迟,能比手术延迟更好地促进皮瓣存活:将 28 只小鼠分为四组。对照组:制作 4*1.5 的背侧皮瓣,不进行预处理。手术延迟(SD)组:皮瓣隆起前 7 天进行手术延迟。泡沫介导外抽吸(FMES)组:每天使用-100mmHg泡沫介导外抽吸5小时,持续6天,第七天抬高皮瓣。混合皮瓣预处理(HFP)组:沿着泡沫界面的轮廓贴上硅胶条。负压方案与 FMES 组相同。皮瓣隆起七天后,进行宏观、组织学和 Western blot 分析:结果:对照组皮瓣存活率为 46.25%(8.12%),SD 组为 68.72%(7.00%),FMES 组为 57.03%(8.17%),HFP 组为 80.66%(3.27%)。免疫组织学分析显示,在皮瓣隆起七天后,SD 组和 HFP 组的血管生成率明显高于 FMES 组。Western Blot 结果显示,SD 组和 HFP 组的血管内皮生长因子表达量增加:我们开发并制造了一种新型混合皮瓣预处理(HFP)装置,该装置结合了泡沫介导的外部抽吸和非手术延迟。事实证明,HFP 的概念比手术延迟能更好地促进皮瓣存活。
Novel Noninvasive Hybrid Flap Preconditioning Surpasses Surgical Delay in the Murine Model.
Background: Ischemic necrosis in the distal portion of a flap is a challenging complication in plastic surgery. The authors hypothesized that a novel hybrid flap preconditioning (HFP) device combining foam-mediated external suction and nonsurgical delay can promote skin flap survival better than surgical delay.
Method: Twenty-eight mice were divided into 4 groups: a control group, in which a 4 × 1.5-cm dorsal flap was made with no preconditioning; a surgical delay group, in which surgical delay occurred 7 days before flap elevation; a foam-mediated external suction (FMES) group, in which foam-mediated external suction at -100 mm Hg was used 5 hours a day for 6 days, and the flap was elevated on the seventh day; and a hybrid flap preconditioning (HFP) group, in which silicone strips were applied along the contour of the foam interface. The same negative-pressure protocol was used as in the FMES group. Seven days after flap elevation, macroscopic, histologic, and Western blot analyses were performed.
Results: The flap survival rate was 46.25% (8.12%) in the control group, 68.72% (7.00%) in the surgical delay group, 57.03% (8.17%) in the FMES group, and 80.66% (3.27%) in the HFP group. Immunohistologic analysis of CD31 + cells in the distal end of viable tissue procured 7 days after flap elevation showed significantly higher angiogenesis in the surgical delay and HFP groups. Western blot results showed an increased expression of vascular endothelial growth factor in the surgical delay and HFP groups.
Conclusions: The authors developed and fabricated a novel HFP device combining foam-mediated external suction and nonsurgical delay. The concept of HFP has proved to promote flap survival better than surgical delay.
Clinical relevance statement: This study presented an innovative noninvasive method of flap preconditioning, which has been demonstrated to be superior to surgical delay in a murine model and holds promise for potential application in clinical settings.
期刊介绍:
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