Perforator Propeller Flaps for the Coverage of Middle and Distal Leg Soft-tissue Defects.

BACKGROUND: Local propeller flaps preserve the main vascular arteries of the lower extremity and muscle function, avoiding the need for a microsurgical anastomosis and the benefit of providing a "like with like" coverage. Our goal in this study was to demonstrate the versatility, safety, and complications of the local propeller flaps for lower extremity reconstruction. METHODS: We present a series of 28 patients in whom we used local propeller flaps to restore small-to-medium soft-tissue defects of the lower limb in different hospitals of Managua, Nicaragua. RESULTS: Flap average dimensions were of 48 cm2. Flap rotation was performed in 180 degrees in 85% of the cases. The propeller flaps were based on a single perforator, from the posterior tibial artery in 50%, anterior tibial artery in 39.3%, and peroneal artery in 10.7% of the cases. Complications occurred in 14% of the propeller flaps performed, with 3 partial necrosis of less than 15% of the flap transposed. Complications of the patients occurred in both sex groups; however, for the female group, there was a 75% of complications with a tendency toward statistical significance of P = 0.038. Donor site of the flap was closed primarily in 85.7% (24) of the cases. CONCLUSIONS: In our opinion, the availability and safety of local propeller flaps, justifies its use in cases where microsurgical techniques are not an option for the reconstruction of the middle and distal extremity, in small-to-medium defects of soft-tissue coverage of the lower limb.

Assisted Salvage of Ischemic Fasciocutaneous Flap Using Adipose-Derived Mesenchymal Stem Cells: In-Situ Revascularization.

Adipose-derived mesenchymal stem cells (ASCs) have been shown to produce vascular endothelial growth factor (VEGF) and can increase perfusion in patients with critical limb ischemia. We will show that this concept can be applied to augment blood flow in zones of flap ischemia. We presented a case study of a 26-year-old man with a complex hand injury covered by a reverse radial perforator fasciocutaneous flap, which developed ischemic necrosis and was treated by debridement, transplantation of ASCs to enhance vascular support, and saline dressings. ASCs are found in the stromal vascular fraction (SVF), a heterogeneous collection of cells, including pericytes and endothelial cells, that is prepared from lipoaspirate using collagenase digestion followed by centrifugation. These were injected into the flap, the palmar tissues both subjacent and peripheral to the flap, and the skin-grafted donor site. The case was documented with photography, measurements at hand therapy, and follow-up angiography MRI. At 72 hours, new vessels appeared diffusely; at 1 week, the remaining tissues of flap were bleeding. The wound, 11 cm × 4 cm, contracted spontaneously and was healed at 21 days. The skin graft over the donor site demonstrated unusual suppleness and elasticity. 3D CT angiography disclosed a new layer of vascularity in the superficial tissues of the palm when compared with the normal side. The patient regained full composite flexion, pinch, opposition, and wrist extension. Application of ASCs into the supporting tissues surrounding the ischemic flap, and into the flap itself, constituted a form of in-situ revascularization (ISR) that was subjectively and objectively effective for this patient. LEVEL OF EVIDENCE: 5.

Neurotized distally based sural flap for heel reconstruction.

The use of local flaps for the reconstruction of leg has lost their popularity with the more often performed flaps on the basis of perforators and microsurgical technique. Like the head and neck reconstruction, in the lower extremity there are limited units of tissue to base the flaps because of the lack of vascularity and arc of mobilization. The distally based sural flap represents an ideal flap for the reconstruction of heel, and with the inclusion of the sural nerve, we can neurotize the flap to give the stability of a weight-bearing area and provide the necessary sensibility to avoid ulcerations of the reconstructed heel. We present a case of a 32-year-old woman with a traumatic loss of the tissue covering the heel, with a diagnosis of a pseudoepithelial hyperplasia treated in previous occasions with skin grafts that led to chronic ulcerations. A distally based sural flap was planned for a definitive coverage, planning a perineural neurorrhaphy, to the intermediate dorsal cutaneous branch of the superficial peroneal nerve to give sensibility to the flap.