Objective To investigate the effectiveness of distally pedicled peroneus brevis muscle flaps and reverse sural neurovascular island flaps for post-traumatic chronic calcaneal osteomyelitis and soft tissue defects. Methods Between January 2008 and January 2012, 9 patients suffering from post-traumatic chronic calcaneal osteomyelitis and soft tissue defects were treated, including 8 males and 1 female with an average age of 33 years (range, 18-46 years). The left heel was involved in 4 cases, and right heel in 5 cases. Infection occurred after reduction and internal fixation of closed fractures of the calcaneus in 7 cases, and open calcaneal fracture and soft tissue defect in 2 cases. The disease duration was 2 months to 3 years (mean, 5 months). Purulent secretion, tissue necrosis, or sinus formation was observed in all wounds. The results of bacterial culture were positive. X-ray and CT examination showed uneven density of calcaneus and bone cavity or dead bone formation. After thorough debridement, the size of bone defect ranged from 3 cm × 3 cm × 3 cm to 6 cm × 4 cm × 3 cm; the size of soft tissue defect ranged from 7 cm × 3 cm to 12 cm × 7 cm. The distally pedicled peroneus brevis muscle flaps (11 cm × 3 cm-16 cm × 4 cm) were used for bone defect repair, and reverse sural neurovascular island flaps (8 cm × 4 cm-14 cm × 8 cm) for soft tissue defect. The donor site was directly sutured in 6 cases and repaired by skin graft in 3 cases. Results After operation, reverse sural neurovascular island flaps survived in 9 cases, and all wounds healed by first intention. No necrosis or liquefaction of distally pedicled peroneus brevis muscle flaps was observed. Incision at donor site healed by first intention, and skin grafts at donor site survived. All cases were followed up 6-24 months (mean, 13.5 months). The flaps had good texture. No recurrence of osteomyelitis was observed. Basic weight-bearing walking function was restorated. No obvious calcaneal collapse happened. Conclusion The distally pedicled peroneus brevis muscle flap combined with reverse sural neurovascular island flap is one of the effective methods to treat post-traumatic chronic calcaneal osteomyelitis with soft tissue defect, with the advantages of simple operation and good blood supply.
Objective To summarize the cl inical experience of repairing soft tissue defect in dorsal pedis with reversed fascia pedicled peroneal perforating branch sural neurofasciocutaneous flap, and to explore surgery matters needingattention and measures to prevent flap necrosis. Methods Between August 2000 and April 2009, 31 patients with soft tissue defects in dorsal pedis were treated with reversed fascia pedicled peroneal perforating branch sural neurofasciocutaneous flaps. There were 23 males and 8 females with a median age of 34 years (range, 3-65 years). Defects were caused by traffic accident in 20 cases, by machine in 2 cases, and by crush in 2 cases. The time from injury to admission was 1-32 days (mean, 15 days). And 6 cases had chronic ulcer or unstable scar excision with disease duration of 6 months to 10 years, and 1 case had squamous carcinoma with disease duration of 5 months. The wounds were located in medial dorsal pedis in 12 cases and lateral dorsal pedis in 19 cases; including 14 wounds near the middle metatarsal and 17 wounds beyond the middle metatarsal (up to the metatarsophalangeal joint in 10 cases). All cases accompanied with bone or tendon exposure. Five cases accompanied with long extensor muscle digits tendon rupture and defect, 1 case accompanied with talus fracture, 1 case accompanied with talus fracture and third metatarsal fracture. The size of the wounds ranged from 6.0 cm × 4.5 cm to 17.0 cm × 10.0 cm. The size of the flaps ranged from 8.0 cm × 5.5 cm to 20.0 cm × 12.0 cm. The donor sites were resurfaced by skin graft. Results Seventeen flaps survived uneventfully, wounds healed by first intention. Distal epidermal or superficial necrosis occurred in 6 flaps at 5-12 daysafter operation, wounds healed by dressing change or skin graft. Distal partial necrosis occurred in 8 flaps (7 in medial dorsal pedis and 1 in lateral dorsal pedis) at 7-14 days after operation, wounds healed by skin graft in 3 cases, by secondary suture in 3 cases, by local flap rotation in 1 case, and by cross leg flap in 1 case. All skin grafts at donor sites survived uneventfully, wounds healed by first intention. Twenty-nine patients were followed up 6-29 months (mean, 19 months). The appearance was sl ightly overstaffed, but wearing shoe function and gait were normal. The texture and color of the flaps in all cases were good. There was no pigmentation and suppuration relapse. There was neither ankle plantar flexion deformity nor hammer toe deformity in 5 cases accompanied with long extensor muscle digits tendon rupture and defect. All fractures healed at 3 months after operation in 2 cases. Conclusion The reversed fascia pedicled peroneal perforating branch sural neurofasciocutaneous flaps are suitable to repair most soft tissue defects in lateral dorsal pedis. When the flaps are used to repair soft tissue defects in medial dorsal pedis, avoiding tension in flaps and fascia pedicles should be noted so as to improve flap survival.
Objective To compare the cl inical effectiveness of the medial plantar flap, the retrograde posterior tibial vascular flap, and the reverse sural neurocutaneous flap in repairing defect caused by resection of cutaneous mal ignant melanoma (CMM) in the heel region. Methods The cl inical data were retrospectively analysed from 24 patients with defect who had CMM in the heel region and were treated by radical excision and flap repairing between March 2007 and March 2010. Defects were repaired with the reverse sural neurocutaneous flaps of 8 cm × 7 cm-14 cm × 12 cm at size in 12 patients (groupA), with the medial plantar flaps of 6 cm × 5 cm-8 cm × 7 cm at size in 7 patients (group B), and with the retrograde posterior tibial vascular flaps of 9 cm × 7 cm-15 cm × 13 cm at size in 5 patients (group C). There was no significant difference in gender, age, duration of illness, cl inical stage, and size of CMM among 3 groups (Pgt; 0.05). The donor site was sutured directly or by free skin graft. Results No significant difference was found in the operation time and the intraoperative blood loss among 3 groups (P gt; 0.05). All skin flaps or grafts survived and wounds healed by first intention. The patients were followed up 1-3 years. The flaps had normal texture and color with no ulcer in 3 groups. At 1 year after operation, the sensory recovery rates of the flaps were 0, 100%, and 20% in groups A, B, and C, respectively, showing significant difference among 3 groups (P=0.001). The patients had normal appearance of heel and pain-free walking [10 (83%) in group A, 6 (86%) in group B, and 4 (80%) in group C] of heel region, showing no significant difference among 3 groups (χ2=40.000, P=0.135). Heel pain existed in weightbearing walking of 3 groups, and there were significant differences in visule analogue scale (VAS) score (Plt; 0.05). There was no significant difference in range of motion of ankle joint among 3 groups (P gt; 0.05). Except 1 patiant of relapse in group A at 1 month after operation, no relapse was observed in the other patients during follow-up. Conclusion The medial plantar flap, the retrograde posterior tibial vascular flap, and the reverse sural neurocutaneous flap can achieve the good cl inical effectiveness in treating heel defect caused by the resection of CMM. And the medial plantar flap is the first choice in small skin defect of heel area.
Objective To establ ish the experimental animal model of perforator sural neurocutaneous flap for laying a foundation of further study on its physiology and haemodynamics. Methods Thirty-five New Zealand rabbits were divided into four groups, weighing 2.5-3.0 kg and being male or female. In group A (n=5), vivisection was performed to observe thestarting point and arrangement of sural nerve, its concomitant vessels, posterior tibial artery and perforating vessel. In groups B and C (n=5), red latex and gelatin-lead oxide were injected into the concomitant arteries of sural nerve and the posterior tibial arteries respectively to observe their arrangement, the diameter and anatomasis. In group D, forty neurocutaneous flaps based on single perforator were elevated in the twenty rabbits with a size of 7 cm × 1 cm and a pedicle of 0.5 cm. The colour and condition of flaps were observed. Results The sural nerve originated from posterior tibial nerve, passed through the lateral head of the gastrocnemius at site of the popl iteal fossa, descended obl iquely to exterior, entered in the deep fascia at about (5.42 ± 0.15) cm above lateral malleolus, and descended vertically to lateral malleolus. Its concomitant artery originated from deep femoral artery with an initial diameter of (0.73 ± 0.11) mm and extended to the lateral malleolus along the sural nerve. A perforating branch of posterior tibial artery at the position of the calcaneus originated from the midpoint of the l ine connecting between the medial malleolus and the calcaneus with an initial diameter of (0.45 ± 0.01) mm. The perforating branch traversed the calcaneus to the region of the lateral malleolus, and anastomosed to the concomitant artery of the sural nerve, forming a vascular plexus around the sural nerve. In group D, two cases were excluded due to infection. The survival rate was 78.0% ± 1.5% in other 38 flaps 10days after operation. Conclusion The perforator based sural neurocutaneous flap in rabbit is a good experimental model,which has stable anamatic features and rel iable blood distribution.