Shi-Min Chang1, Feng Zhang, Da-Chuan Xu, Guang-Rong Yu, Chun-Lin Hou, William C Lineaweaver. 1. Shanghai and Guangzhou, China; and Jackson, Miss. From the Department of Orthopedic Surgery, Tongji Hospital, Tongji University; Division of Plastic Surgery, University of Mississippi Medical Center; Institute of Clinical Anatomy, Nanfang Medical University; and Department of Orthopedic Surgery, Changzhen Hospital, Second Military Medical University.
Abstract
BACKGROUND: Repair of heel soft-tissue defects remains a challenging problem in reconstructive surgery. The distally based sural neurofasciocutaneous flap is among the flaps of choice for coverage of this difficult region. The authors describe a modified lateral retromalleolar perforator-based neurocutaneous flap with a lower pivot point. METHODS: This study was divided into two parts: anatomical study and clinical application. In the anatomical study, 12 cadavers were injected with red gelatin, and all fasciocutaneous perforators between the lateral malleolus and Achilles tendon (called the lateral retromalleolar space) were identified. Clinically, based on the anatomical study, five cases of heel soft-tissue defects were reconstructed with the modified lateral retromalleolar perforator-based sural neurofasciocutaneous flap. RESULTS: The anatomical study showed that there are usually two to three retromalleolar cutaneous perforators arising from the terminal part of the peroneal artery in the lateral retromalleolar space. Their outer diameters range from 0.1 to 0.8 mm. A direct venous communicator, usually accompanied by the larger perforator, connected the superficial lesser saphenous vein and the deep peroneal venae comitantes. Five patients with heel soft-tissue defects were treated with flaps ranging from 3 x 6 cm to 5 x 12 cm. The distal pivot point was designed at 1 to 3 cm above the tip of the lateral malleolus. All flaps survived without complications. CONCLUSIONS: The lateral retromalleolar perforator is predictable and reliable for the design of a lower pivot point, distally based sural neurocutaneous flap. The procedures are simple and rapid, and the flap can be rotated easily without dog-ear deformity. This flap should be considered among the preferred flaps for heel reconstruction.
BACKGROUND: Repair of heel soft-tissue defects remains a challenging problem in reconstructive surgery. The distally based sural neurofasciocutaneous flap is among the flaps of choice for coverage of this difficult region. The authors describe a modified lateral retromalleolar perforator-based neurocutaneous flap with a lower pivot point. METHODS: This study was divided into two parts: anatomical study and clinical application. In the anatomical study, 12 cadavers were injected with red gelatin, and all fasciocutaneous perforators between the lateral malleolus and Achilles tendon (called the lateral retromalleolar space) were identified. Clinically, based on the anatomical study, five cases of heel soft-tissue defects were reconstructed with the modified lateral retromalleolar perforator-based sural neurofasciocutaneous flap. RESULTS: The anatomical study showed that there are usually two to three retromalleolar cutaneous perforators arising from the terminal part of the peroneal artery in the lateral retromalleolar space. Their outer diameters range from 0.1 to 0.8 mm. A direct venous communicator, usually accompanied by the larger perforator, connected the superficial lesser saphenous vein and the deep peroneal venae comitantes. Five patients with heel soft-tissue defects were treated with flaps ranging from 3 x 6 cm to 5 x 12 cm. The distal pivot point was designed at 1 to 3 cm above the tip of the lateral malleolus. All flaps survived without complications. CONCLUSIONS: The lateral retromalleolar perforator is predictable and reliable for the design of a lower pivot point, distally based sural neurocutaneous flap. The procedures are simple and rapid, and the flap can be rotated easily without dog-ear deformity. This flap should be considered among the preferred flaps for heel reconstruction.