Department of Microsurgery and Hand Surgery, Xiangya Hosipital of Central South University, Changsha, 410008, China.
Department of Microsurgery and Hand Surgery, Xiangya Hosipital of Central South University, Changsha, 410008, China.
Injury. 2022 Jul;53(7):2550-2556. doi: 10.1016/j.injury.2022.05.040. Epub 2022 May 24.
Multi-lobed perforator flap was one of popular approaches for one-stage reconstruction of complex soft tissue defects because of its minimal donor-site morbidity. However, the area of skin island that can be harvested on the donor site is limited on the angiosome distribution, Moreover, large defects require more than the conventional skin island provided by a traditional multi-lobed perforator flap. For further extended skin paddles, this study presented a novel design of waveform-arranged skin paddles to elevated a modified multi-lobed perforator flap for the reconstruction of complex soft tissue defects in the extremities.
From March of 2015 to March of 2020, fifteen patients underwent complex soft tissue defects reconstruction with waveform-arranged multi-lobed perforator flaps. According the size, shape and localization of the defects, two strategies were performed to design this modified multi-lobed flap.
A total of fifteen waveform-arranged multi-lobed perforator flaps were successfully harvested to reconstruct complex soft tissue defects of the extremities. Among of them, Waveform-arranged dual skin paddles perforator flap were performed in eleven cases, and the waveform-arranged tripaddle perforator flaps were used in four cases. All the flaps survived and no flap related complication was observed postoperatively. The donor sites were closed directly in all cases. The mean follow-up time was 15.6 months. Most of the cases showed satisfactory contour.
The waveform design of multi-lobed perforator flap was an alternative approach for reconstruction of complex soft tissue defects; it can maximize the harvested skin area of the donor site to provide extended skin island.
多叶穿支皮瓣因其供区并发症少,是复杂软组织缺损一期重建的常用方法之一。然而,供区皮瓣的切取面积受穿支血管分布的限制,且皮瓣面积不能满足较大面积缺损的修复需求。为了获得更大的皮瓣,本研究提出了一种波形排列皮瓣的设计方案,用于改良多叶穿支皮瓣,以修复四肢的复杂软组织缺损。
2015 年 3 月至 2020 年 3 月,15 例患者采用波形排列多叶穿支皮瓣修复复杂软组织缺损。根据缺损的大小、形状和位置,采用两种策略来设计这种改良的多叶皮瓣。
共成功切取 15 个波形排列多叶穿支皮瓣修复四肢复杂软组织缺损。其中,11 例采用波形排列双叶皮瓣穿支皮瓣,4 例采用波形排列三叶皮瓣穿支皮瓣。所有皮瓣均完全成活,无皮瓣相关并发症。供区均直接闭合。平均随访时间为 15.6 个月。大多数病例外形满意。
多叶穿支皮瓣的波形设计是修复复杂软组织缺损的一种替代方法;可以最大限度地增加供区的切取面积,提供更大的皮瓣。
