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.
OBJECTIVE To investigate the repairing method of soft tissue defect of heel, pedicled island myocutaneous flap of flexor digitorum brevis was designed. METHODS From 1984 to 1997, 26 cases with soft tissue defect of heel were adopted in the clinical trial. Among them, the were 18 males, 8 females and the age ranged from 15 to 60 years old. The area of wound ranged from 2.5 cm x 1.5 cm to 8.0 cm x 6.0 cm. RESULTS After operation, all of the flaps survived. They were followed up for 9 to 72 months. All of the flaps had primary healing except in one there was infection of peripheral of the flap. The contour of heel was satisfactory the sensation of flap was good and the weight-bearing function was also successful. CONCLUSION It was concluded that the myocutaneous flap of flexor digitorum brevis could be used to repair the soft tissue defect of heel because of its nearby position, hidden location, good recovery of skin sensation and weight-bearing function, Besides, the procedure of this operation was simple and the anti-inflammatory potential of the flap was high. However, Because of the limited donor area, the pre-operative design was important.
【摘要】 目的 探讨应用足底内侧动脉穿支蒂皮瓣修复足跟皮肤缺损的临床应用。 方法 1998年9月-2009年3月,应用此皮瓣修复足跟皮肤软组织缺损42例。术前对创面作充分准备,术中以术前彩色多普勒超声探测的足底内侧血管及穿支走向为轴心,根据需要设计皮瓣,沿皮瓣两侧向中间显露,在踇展肌与趾短屈肌之间解剖出足底内侧血管主干,显露动脉穿支及伴行神经。将血管向近端分离获得足够长度后,掀起皮瓣,切取完成并将皮瓣行明道转移修复创面。 结果 除2例术后4 d出现皮瓣远端部分坏死,经换药后愈合,其余40例皮瓣均全部成活。 结论 足底内侧动脉穿支蒂皮瓣是修复足跟软组织缺损的一种理想皮瓣。【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.
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.
Three cases of the defects of theskin and soft tissuess of the heel orsole complicated with defect of thecalcaneus bone from trauma weretreated. Primary replantation andreconstruction surgery was applied.The author believed that the recon-struction of the defect of the heelshould include the repair of the heelstructures and the sensation of the sole.
OBJECTIVE To research the result of defect repairing on heel with island-shaped fascial flap of lateral foot. METHODS: Twelve cases of soft tissue defected on heel, who were resulted from trauma, chronic ulcer, chronic osteomyelitis, squamous carcinoma, and necrosis following frozen injury, were treated by transfer of island-shaped fasical flap of lateral foot. RESULTS Only 2 patients suffered marginal necrosis of flap in early stage and healed after changing dressing. The others succeeded completely. All the cases were followed up for 8 to 78 months. There was no recurrence of squamous carcinoma, no fistula or necrosis bone formed. The sensation of the flap recovered. The repaired area was similar to the heel in skin texture. CONCLUSION For the characteristics of heel skin, the transfer of island-shaped fascial flap of lateral foot has the following advantages: Similar structure of skin, reliable nerve and blood supply, simple operative techniques, and large area of donor flap.
Objective To explore the feasibility of peroneal perforating chimeric tissue flap in repairing the composite defects of calf and heel based on lower limb angiography, and the clinical effect. Methods The digital subtraction angiography images of lower limbs of 50 patients met the selection criteria between May 2011 and October 2014 were used as the research object to observe the course of peroneal artery and its perforating vessels. Based on the observation results, between April 2015 and October 2020, the peroneal perforating chimeric tissue flap was designed to repair 7 cases of composite defects of the calf and heel. There were 5 males and 2 females with an average age of 38 years (range, 25-55 years). The causes of injury included traffic accident in 4 cases, falling from height in 2 cases, and machine strangulation in 1 case. There were 5 cases of calf skin defect and tibial defect. The size of skin defect ranged from 5 cm×3 cm to 11 cm×7 cm, and the length of bone defect was 5-8 cm. There were 2 cases of heel skin defect and calcaneal defect. The sizes of skin defects were 5.0 cm×4.0 cm and 7.5 cm×6.5 cm, and the bone defects were 3.0 cm×2.6 cm and 4.0 cm× 3.0 cm. For the calf defect, the size of skin flap ranged from 6 cm×4 cm to 12 cm×8 cm, and the length of the fibula was the same as that of the tibial defect. For the heel defect, the sizes of the skin flaps were 8.5 cm×5.5 cm and 13.0 cm×5.0 cm, and the lengths of the fibulae were 10 cm and 12 cm. Free transplantation was performed in 5 cases and pedicle transplantation in 2 cases. The wound at donor site was repaired with skin grafting or sutured directly. Results The peroneal artery ran close to the fibula 7.25-8.40 cm below the fibula head and send out 5-7 perforating vessels, with an average of 6.5 vessels. Perforating vessels mainly appeared in four places, which were (9.75±0.91), (13.21±0.74), (18.15±1.22), and (21.40±0.75) cm below the fibular head, with the occurrence rates of 94%, 90%, 96%, and 88%, respectively. Clinical application of 7 cases of peroneal perforating chimeric tissue flap all survived, all wounds healed by first intention. The skin graft at donor site survived and the incision healed by first intention. All patients were followed up 6-36 months, with an average of 12 months. Peroneal perforator chimeric tissue flap had good shape and soft texture. X-ray films showed that the bone graft healed well, and the healing time was 6-11 months (mean, 7 months). No obvious bone resorption was observed during follow-up. Five patients had no pain when walking, and 1 had mild pain with claudication. Postoperative heel ulcers formed in 1 case and healed after wearing custom plantar pressure dispersing shoes. At 6 months after operation, 2 patients were rated as grade Ⅳ and 5 patients as grade Ⅴ according to Holden walking function score. ConclusionThe peroneal perforating vessel distribution is constant and the peroneal perforating chimeric tissue flap is safe and reliable for repairing the composite defects of calf and heel.