OBJECTIVE: To investigate the efficacy of different flaps in the treatment of skin defect of hell. METHODS: Forty-six patients with skin defect of hell were adopted in this study. There were 39 males and 7 females, 29 years old in average. Six different flaps were applied in the reconstructive operation, 14 plantaris medialis flaps, 4 flexor digitorum brevis muscle flaps, 3 abductor hallucis flaps, 7 latissimus dorsi flaps, 16 distal medialis flaps of leg pedicled with the cutaneous branch of posterior fibial artery, 2 foot dorsum flaps. RESULTS: All the flaps survived, primary healing of the wound in 45 cases and secondary healing in 1 case. Followed up for 3 months to 4 years, 43 patients obtained good flap sensation, the function of weight bearing were satisfied in 43 patients. CONCLUSION: The six different flaps should be applied according to patient’s condition individually. The sensation of flap is very important to the function of weight bearing.
OBJECTIVE The repair of soft tissue defect of heel by traditional operation did not restore the sensation of the heel. METHODS In order to solve this problem, the saphenous neurovascular skin flap reinnervated by end-to-side neuro-anastomosis was designed and 3 male patients with soft tissue defects of the heel were so treated. Grossgraft of saphenous neurovascular skin flap was employed for repairing the soft tissue defects of heel and the pedicle was divided at 21 days after operation. The end-to-side neuro-anastomosis was used to reinnervate not only the skim flap, but also the skin area of the medial malleolus, medial aspect of the foot and the big toe of the donor limb. RESULTS After follow-up of 6-12 months, the walking and weight bearing functions of the affected limbs were good, the contour of the grafted area was satisfactory, and the recovery of sensation of the skin flap, the medial malleolus, the medial aspect of the foot and the big toe was observed. CONCLUSION 1. Crossgraft of the saphenous skin flap was an effective method to repair the soft tissue defect of the heel; 2. End-to-side neuro-anastomosis could restore the sensation of the skin flap.
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.
【摘要】 目的 探討應用足底內側動脈穿支蒂皮瓣修復足跟皮膚缺損的臨床應用。 方法 1998年9月-2009年3月,應用此皮瓣修復足跟皮膚軟組織缺損42例。術前對創面作充分準備,術中以術前彩色多普勒超聲探測的足底內側血管及穿支走向為軸心,根據需要設計皮瓣,沿皮瓣兩側向中間顯露,在踇展肌與趾短屈肌之間解剖出足底內側血管主干,顯露動脈穿支及伴行神經。將血管向近端分離獲得足夠長度后,掀起皮瓣,切取完成并將皮瓣行明道轉移修復創面。 結果 除2例術后4 d出現皮瓣遠端部分壞死,經換藥后愈合,其余40例皮瓣均全部成活。 結論 足底內側動脈穿支蒂皮瓣是修復足跟軟組織缺損的一種理想皮瓣。【Abstract】 Objective To study the clinical application of perforator artery flap of medial plantar in repairing skin defect of the heelstick. Methods From September 1998 to March 2009, skin defects of the heelstick of 42 patients were repaired with the perforator artery flap of medial plantar. Adequate preparations were given on the wound before operation. Based on the results of color Doppler ultrasound of the medial plantar vascellum before or during the operation, the flap was designed according to the size of the defect and transferred to repair the defect. Results All the flaps survived completely except two flaps were partial lynecrotic in the distal, which healed after change of dressing. Conclusion Perforating artery flap of medial plantar is an ideal way to repair skin defect of the heelstick.
ObjectiveTo study the effectiveness of digital technique in repairing of heel wound with peroneal artery perforator propeller flap.MethodsBetween March 2016 and March 2019, the heel wounds of 31 patients were repaired with the peroneal artery perforator propeller flaps. There were 21 males and 10 females, with an average age of 36 years (range, 12-53 years). Seventeen patients were admitted to hospital in emergency after trauma, the time from injury to admission was 6.0-12.5 hours, with an average of 8.5 hours; 14 patients were chronic infectious wounds and ulcer. The wound area ranged from 5 cm×4 cm to 12 cm×8 cm. Before flap repair, CT angiography (CTA) data of lower extremity was imported into Mimics19.0 software and three-dimensional reconstruction of peroneal artery perforator and skin model, accurate location of perforator, accurate design of perforator flap, and simulated operation according to the defect range and location were obtained.ResultsThe origin and course of peroneal artery perforator, the position of perforator, the diameter of perforator, and the maximum length of the naked perforator were determined based on the three-dimensional model. There was no significant difference in locating point of perforator, diameter of perforator, maximum length of naked perforator between the pre- and intra-operative measurements (P>0.05). The position of the lower perforator of the peroneal artery were on the posterolateral lateral ankle tip (5-10 cm) in 31 cases. The total incidence of perforating branches within 10 cm on the tip of lateral malleolus was 96.9%, and the length of vascular pedicle was (3.44±0.65) cm. The flap removal and transposition in 31 patients were successfully completed. The average operation time was 45 minutes (range, 30-65 minutes). After operation, vein crisis and partial necrosis occurred in 4 cases and 3 cases, respectively, which were survived after symptomatic treatment. All the grafts survived and the incisions healed by first intention. All the patients were followed up 3-18 months, with an average of 12 months. At last follow-up, according to the American Orthopaedic Foot and Ankle Society (AOFAS) score, 17 cases were excellent, 11 cases were good, and 3 cases were fair, and the excellent and good rate was 87.5%.ConclusionThe digital technique can improve the accuracy of perforator localization and the design of peroneal artery perforator propeller flap, and reduce the difficulty of operation, and the risk caused by the variation of vascular anatomy.
Objective To explore the effect of transferring adjacent non-main vessel pedicle flap on repairing the heel skin defect. Methods From February 2000 to April 2004, 4 kinds of flaps with non-main vessel pedicle were used to repair 30 cases of heel skin defect. Of the 30 patients, 19 were male and 11 were female, whose ages ranged from 8 to 65. Among them, 19 cases were crush injury, 5 cases were press injury, 3 cases were electric saw injury, 2 cases were osteomyelitis, and 1 case was squamous cell carcinoma. Fourteen cases were with defect area ranged from 6.0 cm×5.5 cm to 16.5 cm×11.0 cm. All the 14 cases were repaired with distant pedicled sural vascular flap of nutrient vessels and saphenous vascular flap of nutrient vessels.The sizes of the dissected flap ranged from 6.0 cm×5.0 cm to 18.0 cm×12.0 cm. And the other 16 cases with defect area ranged from 2.5 cm×2.0 cm to 5.5 cm×4.5 cm were repaired with foot lateral flap and foot base medial flap.The sizes of the dissected flap ranged from 4.0 cm×3.0 cm to 8.0 cm×7.0 cm. Results All cases were followed up for 6 to 12 months. The flaps all survived with satisfactory appearance and no ulceration. Callus appeared in 2 cases.The sense of pain and touch was partly or completely restored. The two-point discrimination sense recovered to 1.0-3.2 cm. Conclusion As it is easilyaccessible, highly flexible and causes little damage to blood circulation, transferring adjacent non-main vessel pedicle flap is effective in repairing foot heel skin defect.
OBJECTIVE: Soft tissue defect of heel is not uncommon. Transplantation of free cutaneous flap and transfer of axial cutaneous flap have been used in treating such defect successfully, but both of them are somewhat complicated. Local plantar rotatory flap might show great importance in this field. METHODS: Since March 1993 to March 1998, 9 cases with soft tissue defect of heel were repaired by local plantar rotation flaps. The size of defect ranged from 2 cm x 4 cm to 6 cm x 8 cm, and it was designed superficial to plantar fascia. The flap was medially based, and nutrilized by proximal plantar subcutaneous plexus of blood supply as well as lateral and medial plantar nerve. RESULTS: Followed up 4 months to 2 years, all the flaps were survived. Sensation of the flap was preserved in 7 patients, who had normal sensation of the donated area preoperatively. The transferred flap was endurable to body bearing. CONCLUSIONS: The flap is easily prepared with reliable blood supply and sensation of the flap preserved. The method is worthy to be recommended for widely use because of its advantages over other methods.
OBJECTIVE: To explore the anatomical basis of blood supply and heel reconstruction by reversed island fibular musculocutaneous flap. METHODS: The blood supply of fibular musculocutaneous flap and the biomechanical characteristics of heel were studied by anatomical examination. One case with right heel full defect because of explosion injury was repaired by transfer of reversed island fibular vessels. The fibular flap was 14 cm in length with part of peroneus muscle and long flexor muscle of great toe. RESULTS: The lower part of fibular artery had plentiful anastomosis with anterior tibial artery and posterior tibial artery, which could provide ideal reversed blood supply. The rotatory point of vessel pedicle could be chosen according to the need of operation. The lowest site might be above 6 cm to lateral malleolus, and the vessel pedicle was 20 cm in length. The morphological feature of the reversed island fibular musculocutaneous flap was suitable to the biomechanical character of heel. The patient achieved satisfactory clinical result, the musculocutaneous flap survived well for 10 months of follow-up. CONCLUSION: The reversed island fibular musculocutaneous flap provide a new method for repairing the severe heel defect, especially in full defect of calcaneus and cuboid bone.