Objective To provide the anatomic basis for thedesign of the intermediate dorsal neurocutaneous flap on the foot and to reportthe clinical results. Methods On 32 adult cadaver lower limb specimens perfused with red latex, the origins, diameters, courses, branches, and distributions of the intermediate dorsal cutaneous nerve of the foot and its nutrient vessels were observed. On this anatomic basis, from June 2004 to October2005, 5 flaps were developed and applied to the repair of the soft tissue defect in the feet of 4 patients. Results The intermediate dorsal cutaneous nerve of the foot was found to arise from the superficial peroneal nerve. Crossing the intermalleolar line, it was located 1.3±0.6 cm lateral to the midpoint of the line with a diameter of 2.05±0.56 mm. The nerve stem divided into branches 2.8±1.3 cm distal to the line. They distributed the dorsal skin of the second, third and fourth metatarsal and toe. On average, 5.1 perforators per specimen were identified. At least 3 nutrient vessels were always found in each. They originated from the cutaneous branches of the anterior tibial artery and the dorsalis pedis artery in the proximal end and the dorsalis metatarsal artery in the distal end. They perforated the deep fascia 4.3±0.4 cm proximal to the intermalleolar, 1.6±0.3 cm proximal to the tip of the third toe webspace and 1.5±0.3 cm proximal to the tip of the forth toe webspace, respectively. The external diameters of them were 0.82±0.13, 0.42±0.07 and 0.49±0.09 mm, respectively. The patients were followed up for 4-10 months. All theflaps survived completely. Their appearance and function were satisfactory. Conclusion The distallybased intermediate dorsal neurocutaneousflap on the foot has an abundant blood supply. This kind of flap is especially useful in repair of the soft tissue defect in the foot.
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.
From 1988 through 1990, the free arteriolized venous network skin flap from dorsum of foot for skin defect of dorsum of hand was done in 8 cases. The size of the skin flap measured 10×9cm in max. and 7×6cm in min. The operation achieved good success and the clinical results were satisfactory. The mechanism of survival of the skin flap, the indications of this procedure in the repair of skin defects of the dorsum of the hand and its advantages were discussed.
Objective To investigate the effectiveness of groin flap with external oblique aponeurosis in repair of tendon and skin defects of dorsal foot. Methods Between October 2016 and January 2020, 12 patients with compound tissue defects of the dorsal foot caused by trauma were treated. There were 9 males and 3 females, with a median age of 42 years (range, 32-65 years). The size of the skin defects ranged from 8 cm×5 cm to 12 cm×8 cm. All wounds were accompanied by extensor tendon injury, including 6 cases of extensor hallucis longus tendon defect, 5 cases of extensor digitalis longus tendon defect, and 3 cases of extensor digitalis longus tendon and extensor digitorum brevis defects. The interval between injury and admission was 1-6 hours (mean, 3 hours). After admission, the wounds were thoroughly debrided, and the groin flap with external oblique aponeurosis was used to repair the skin and tendon defects in the second stage. The size of skin flap ranged from 10 cm×6 cm to 13 cm×9 cm, and the size of the external oblique aponeurosis ranged from 5.5 cm×3.0 cm to 8.0 cm×5.0 cm. The wounds at donor sties were sutured directly. Results All flaps survived completely without significant complications. All incisions of the recipient and donor sites healed by first intention. All patients were followed up 16-24 months (mean, 18 months). The flaps were satisfactory in appearance and soft in texture. At last follow-up, 9 cases were excellent and 3 cases were good according to the American Orthopaedic Foot and Ankle Society (AOFAS) metatarsophalangeal-interphalangeal joint scale criteria. The toe function was satisfactory. The line scar was left without hernia or other morbidity on the donor site. Conclusion The groin flap with the external oblique aponeurosis can repair the tendon and skin defects of the dorsal foot, with concealed donor site, easy dissection and adjustable thinness, as well as the enough tough aponeurosis.
Objective To investigate the feasibility of temporary ectopic implantation of amputated fingers and dorsalis pedis flaps for thumb reconstruction and skin defect repair of the hand. Methods Between February 2006 and February 2012, 9 patients with thumb amputation having no replanted condition were treated. There were 7 males and 2 females with an average age of 35 years (range, 20-45 years). The injury causes included explosive injury in 1 case, puncher injury in 1 case, stiring machine injury in 1 case, gear injury in 3 cases, and heavy pound injury in 3 cases. At 2-5 hours after injury, one-stage temporary ectopic implantation of amputated finger to foot was performed. After debridement, thumb defect was rated as degree III in 1 case, as degree IV in 3 cases, and as degree V in 5 cases. When amputated fingers survived completely after 1-4 months, the amputated finger was replanted to its anatomic position, skin defect was repaired with dorsalis pedis flap. The area of skin defect ranged from 5 cm × 4 cm to 7 cm × 6 cm. The area of flaps ranged from 6 cm × 5 cm to 8 cm × 7 cm. The donor site was repaired by the skin grafting. Results Arterial crisis occurred in 1 case after 1 day of one-stage operation, and was cured after vascular exploration, and the amputated fingers survived in the others. The reconstructed thumbs and flaps survived after two-stage operation, and the skin graft at donor site survived. The patients were followed up 1-4 years (mean, 2.8 years). The reconstructed thumbs had good appearance and satisfactory opposition and finger-to-finger functions. According to the standard functional evaluation issued by Hand Surgery Association of Chinese Medical Association, the scores of survival fingers were 73-91 (mean, 84); the results were excellent in 7 cases and good in 2 cases with an excellent and good rate of 100%. Conclusion Temporary ectopic implantation of amputated finger to foot combined with dorsalis pedis flap can be used to reconstruct thumb and repair skin defect of the hand.
Objective To summarize the method and the cl inical outcome of repairing both toe extensor tendon and dorsal foot wounds with anterolateral thigh flap. Methods Between February 2007 and May 2009, 11 patients with toe extensor tendon and dorsal foot defect were treated with anterolateral thigh flap. There were 8 males and 3 females with a medianage of 45 years (range, 10-60 years). The causes of injury were sharp injury in 3 cases, machine crush injury in 3 cases, and traffic accident injury in 5 cases, including 7 cases of fresh wounds with a disease duration of 2-8 hours and 4 cases of old wounds with a disease duration of 3-15 days. The size of wound ranged from 6 cm × 5 cm to 25 cm × 15 cm. All cases compl icated by toe extensor tendon defect, which were located at the 2nd-5th toes in 1 case, 3rd-5th toes in 1 case, 2nd-4th toes in 2 cases, 2nd and 3rd toes in 3 cases, 1st and 2nd toes in 1 case, and 1st toe in 3 cases. In the first stage, the anterolateral thigh flap ranged from 8 cm × 7 cm to 27 cm × 15 cm was used to repair defect and fascia lata was used to bridge two ends of digitorum longus tendon; the donor site was sutured or repaired with the skin graft. The second stage was performed after 2-3 months, tenolysis for tendon was performed, and fascia lata was spl it into tendon-l ike shape; and the toe functional exercises were done. Results All flaps survived completely after the first stage, wounds healed by first intention; the donor skin graft survived and incisions healed by first intention. At 7 days after the second stage, marginal necrosis occurred in 3 flaps (0.5-2.0 cm in width), and healed after 15-20 days of dressing change; the other flaps survived, and incisions healed by first intention. Eight patients were followed up 12-18 months (mean, 15 months). Excepts 4 sl ight bulky flaps, the other flaps had satisfactory appearance and soft texture with two points discrimination of 1-3 cm. During the follow-up, part of the dorsiflexion function recovered in 5 patients (5-40°), andflexion function was normal; 3 dorsiflexion function disappeared without effect on the function of toe flexion, and the patients could walk normally. No toe ptosis occurred. Conclusion Appl ication of the anterolateral thigh flap can repair toe extensor tendon and dorsal foot wounds with short treatment time and less damage at the donor site, so it can avoid toe ptosis after surgery and achieve excellent cl inical results.