Plastic and Reconstructive Surgery, Global Open (Sep 2024)
Anatomical Analysis of the Superior Gluteal Artery in 100 Women for Superior Gluteal Artery Perforator Flap Breast Reconstruction
Abstract
Background:. The superior gluteal artery (SGA) perforator (SGAP) flap is used more rarely for breast reconstruction with autologous tissue than other flaps because the SGA is often narrow, and the SGAP can be short. However, it provides ample fat, including in lean women. To improve its safety and utility, the preoperative SGA course in women who underwent autologous breast reconstruction was determined with three-dimensional computed tomography angiography. Methods:. Consecutive deep inferior epigastric perforator, profunda artery perforator, and SGAP flap cases in 2019–2023 were identified. Frequencies of the following favorable preoperative SGA-anatomy variables were determined: branching of the main-SGA trunk on top/posterior of the greater sciatic foramen (designated M1/2), which allows access to a sufficiently wide SGA artery; superolateral perforating location of the superficial-SGA branch (SP3), which means the perforator is sufficiently long for uncomplicated flap placement; and nonbranching of the deep-SGA branch (D1/D2), which means this branch can used a venous and an arterial graft to extend an insufficiently long perforator. Results:. A total of 100 cases of deep inferior epigastric perforator (n = 80), profunda artery perforator (n = 13), and SGAP flap-based breast reconstructions (n = 7) were identified. Out of 200 buttocks, 89%, 91.5%, and 62% had the favorable M1/2, SP3, and D1/D2 variables, respectively. An atypical descending branch feeding the lower buttocks (DES1/2) was observed in 34%. Conclusions:. The branching position of the main-SGA trunk, perforating location of the SGAP, and the shape of the deep branch were classified in detail in 100 patients. By creating a surgical plan that understands the anatomy taking preoperative three-dimensional computed tomography angiography, the SGAP flap can accommodate many patterns, increasing the possibility of safe execution.