Bilateral Anterolateral Thigh Myocutaneous Flaps for Giant Complex Chest Wall Reconstruction.

Background: Extensive reconstruction of complex full-thickness chest wall oncological defects is challenging. Bilateral free anterolateral thigh (ALT) myocutaneous flap transfer for the complex reconstruction of a large area of the chest wall is discussed.

Materials And Methods: We reported a single unit's experience in 1-staged multilayered reconstruction of large full-thickness chest wall defects in 22 patients (16 primary chest wall tumor cases, 5 locally advanced breast cancer cases, and 1 osteoradionecrosis case) treated between 2011 and 2018. Bilateral ALT myocutaneous flaps together with traditional cement implant or unmovable/movable joint conformable titanium struts were used for chest wall reconstruction. The anatomical characteristics of pedicle origin and pattern of the venae comitantes of the ALT myocutaneous flap, recipient vessels, and anastomosis patterns were described.

Results: Bilateral ALT myocutaneous flaps were used for soft tissue reconstruction in 22 cases. Different methods of flap harvesting and vascular anastomosis were selected as needed. No vein grafts or arteriovenous loops were required. We observed 3 vascular patterns of the flap pedicle, including 1 oblique branch and descending branch (59.1%, n = 26), 2 single descending branch (9.1%, n = 4), and 3 double branches of the descending branch (31.8%, n = 14). The flap was harvested pedicled with solely the oblique branch in 7 (15.9%) cases, solely the descending branch in 28 (63.6%) cases to minimize the donor site morbidity, and pedicled with the oblique and descending branch in 9 (20.5%) cases to achieve multiple vascular anastomosis choices. Stable skeletal reconstructions were achieved using traditional cement implant (13.6%, n = 3) or conformable titanium struts (86.4%, n = 19), with good fixation strength. Complication risk was low. An algorithmic approach to management is presented and recommended.

Conclusion: Various forms of bilateral ALT myocutaneous flap transfer with different skeletal reconstruction presents as a reliable treatment for patients with large full-thickness chest wall defects. Anatomical variations in the pedicle and pattern of venae comitantes of the ALT myocutaneous flap are reported. In some challenging cases, finding the vessels in the recipient area is difficult. The clinical significance of each vascular pattern is delineated, and surgical technical considerations are discussed on the basis of the recipient area requirements and types of a flap's vascular anatomy.