Objective To investigate the effectiveness of free latissimus dorsi myocutaneous flap transplantation combined with external fixation in the treatment of bone and soft tissue defects around the knee joint. Methods A retrospective analysis was conducted on the clinical data of 13 patients with high-energy trauma-induced bone and soft tissue defects around the knee joint admitted between January 2016 and July 2023. Among them, 11 were male and 2 were female, the age ranged from 23 to 61 years, with an average of 35.7 years. The causes of injury included 10 cases of traffic accident, 2 cases of machine entanglement injury, and 1 case of heavy object crush injury. According to the Gustilo-Anderson classification, 11 cases were type Ⅲ B and 2 cases were type Ⅲ C. Post-injury, 2 cases had wound infection and 2 cases had popliteal artery injury. The time from injury to flap repair was 40-49 days, with an average of 27.5 days. The wound size was 18 cm×13 cm to 32 cm×20 cm, all accompanied by distal femoral bone defects and quadriceps muscle defects. After primary debridement, vacuum sealing drainage combined with external fixation was used for treatment. In the second stage, free latissimus dorsi myocutaneous flaps were transplanted to repair soft tissue defects, with the flap size ranging from 20 cm×15 cm to 34 cm×22 cm. The donor sites of 9 flaps were directly sutured, and 4 cases with large tension were repaired with a keystone flap based on the posterior intercostal artery perforator. At 6-15 months postoperatively, with an average of 10.5 months, 11 patients underwent knee arthrodesis surgery; 2 patients with large bone defects at the distal femur and proximal tibia underwent multi-segment bone transport reconstruction of the bone defect. At last follow-up, the recovery of the flap and the donor site was recorded, and the function of the shoulder joint was evaluated by the American Shoulder and Elbow Surgeons (ASES) score, and the function of the affected knee joint was evaluated by the Knee Society Score (KSS). ResultsAll the flaps survived after operation, the wounds and donor site incisions healed by first intention. All 13 patients were followed up 15-55 months, with an average of 21.6 months. Four patients who underwent the restoration of the donor site with the thoracodorsal keystone perforator flap had obvious scar hyperplasia around the wound, but no contracture or symmetrical breasts on both sides. At last follow-up, the appearance and texture of the flaps were good; the bony fusion of the knee joint was good, and the range of motion and function recovered well; the shoulder joint function on the flap-harvested side was not significantly affected, and the range of motion was satisfactory. The ASES shoulder joint score of the latissimus dorsi muscle-harvested side was 85-95, with an average of 89.5. The knee joint function KSS score was 75-90, with an average of 81.2. ConclusionFree latissimus dorsi myocutaneous flap transplantation combined with external fixation for the treatment of bone and soft tissue defects around the knee joint caused by high-energy trauma can repair bone and soft tissue defects and reconstruct the stability of the knee joint, effectively preserve the integrity of the limb and soft tissues, and improve the patient’s ability of self-care.
Objective To explore the effectiveness of limb shortening/re-lengthening technique combined with in situ tissue regeneration technique in limb salvage for patients with complex lower limb fractures and soft tissue defects. Methods Between January 2021 and December 2024, 12 patients with complex lower limb fractures and soft tissue defects caused by trauma were admitted. There were 10 males and 2 females; the age ranged from 18 to 46 years, with an average of 36 years. Among them, 1 case of open comminuted tibiofibular fracture caused bone necrosis and soft tissue infection; 4 cases of open tibiofibular fractures developed bone and soft tissue infections after being fixed with a combined external fixator, resulting in defects; 7 cases of closed tibial fractures that underwent internal fixation developed soft tissue infections, leading to bone and soft tissue necrosis. The time from injury to the formation of bone and soft tissue defects was 2-9 weeks, with an average of 6 weeks. The length of bone defects was 5.0-10.2 cm, with an average of 6.8 cm; the area of soft tissue defects was 32-54 cm2, with an average of 43.9 cm2. After admission, all patients underwent thorough debridement. The limb shortening treatment was performed after the wound had filled with fresh granulation tissue, and an Ilizarov ring-shaped external fixator was placed or replaced. The limb was shortened at a rate of 1 mm/day to reduce bone defects. At the same time, the soft tissue defects were repaired using the in situ tissue regeneration technique. After the wound healed, osteotomy was performed, and limb lengthening was carried out at a rate of 1 mm/day. The lower limb full-length X-ray films were taken, and the lengthening was stopped when the lower limb alignment was restored. The healing condition of the wound was observed and the healing time was recorded. Results One patient died due to a traffic accident during limb lengthening. The remaining 11 patients completed limb shortening and re-lengthening treatment and were followed up 18-36 months, with an average of 20 months. All 11 patients successfully preserved their limbs. The wound healing time was 4-12 weeks, with an average of 8 weeks; the limb shortening time was 4-8 weeks, with an average of 6 weeks; and the limb lengthening time was 4-12 weeks, with an average of 8 weeks. One patient experienced delayed bone mineralization during bone lengthening, and one had pin tract infection. Both were treated symptomatically. The lower limb mechanical axis of all 11 patients was restored, and they were able to walk independently. ConclusionThe application of limb shortening/re-lengthening technique combined with in situ tissue regeneration technique in the treatment of large bone and soft tissue defects not only effectively avoids the occurrence of nonunion at the apposition ends and increases the stability of the lower limb, but also significantly shortens the wound healing time, avoids the risk of soft tissue infection and increases the limb salvage rate. It can be used as a treatment technique for patients with complex lower limb fractures combined with soft tissue defects.
Objective To investigate the effectiveness of the lower abdominal conjoined flap with bilateral superficial inferior epigastric arteries (SIEA) for repairing the large soft tissue defects on the foot and ankle. Methods The clinical data of 18 patients with large soft tissue defects on foot and ankle treated between October 2017 and January 2020 were retrospectively analyzed, including 12 males and 6 females; the age ranged from 25 to 62 years, with a median age of 35 years. The causes of injury included machine injury in 9 cases, traffic accident injury in 5 cases, cutting injury in 2 cases, and electric injury in 2 cases. All wounds were accompanied by exposure of blood vessels, tendons, bones, and joints. Wound located at ankle in 8 cases, dorsum of foot in 6 cases, and sole in 4 cases. In the emergency department, complete debridement (the defect area after debridement was 15 cm×10 cm to 25 cm×16 cm) and vacuum sealing drainage on the wound was performed. The time from debridement to flap repair was 3-10 days, with an average of 5 days. According to the defect location and scope, the lower abdominal conjoined flap with bilateral SIEA was prepared. The size of the flap ranged from 15 cm×10 cm to 25 cm×16 cm. The length of vascular pedicle was 4.5-7.5 cm, with an average of 6.0 cm; the thickness of the flap was 0.5-1.2 cm, with an average of 0.8 cm. The abdominal donor site was closed in one-stage. Results One flap was altered as the conjoined flap with the bilateral superficial circumflex iliac artery because of the absence of the SIEA in one side. Except for 1 case of skin flap with distal necrosis, the flap healed after two-stage skin grafting repair; the rest skin flaps survived, and the wounds of the donor and recipient sites all healed by first intention. All patients were followed up 12-28 months, with an average of 16 months. The skin flap had a satisfactory appearance and soft texture, without abnormal hair growth or obvious pigmentation. Only linear scars were left at the donor site, and no complication such as abdominal hernia occurred. The foot and ankle function was satisfactory. At last follow-up, the American Orthopaedic Foot and Ankle Society (AOFAS) scores were rated as excellent in 16 cases and good in 2 cases. Conclusion The lower abdominal conjoined flap with bilateral SIEA is an ideal flap for repairing large defects of foot and ankle with less morbidity scarcely, which ascribed to its ease of dissection, adjustable thinness, and concealed donor site, as well as the flexible perforator match.
ObjectiveTo study the effectiveness of Keystone flap in the repair of soft tissue defect of lower extremity.MethodsThe clinical data of 27 cases with soft tissue defects of lower extremity treated by Keystone flap between January 2018 and June 2020 were retrospectively analyzed. There were 18 males and 9 females, with an average age of 43.9 years (range, 8-63 years). The cause of soft tissue defects included skin tumor in 3 cases, ulcer in 2 cases, soft-tissue infection in 8 cases, trauma in 7 cases, and donor site defect after free or pedicled flap transplantation in 7 cases. Defect size ranged from 2.0 cm×1.5 cm to 15.0 cm×9.5 cm. The types of Keystone flaps included type Ⅰ in 2 cases, type Ⅱa in 16 cases, type Ⅱb in 1 case, type Ⅲ in 6 cases, and Moncrieff modified type in 2 cases. The area of flap ranged from 3.0 cm×1.5 cm to 20.0 cm×10.0 cm. The donor site was directly sutured (26 cases) or repaired with skin grafting (1 case).ResultsThe operation time was 45-100 minutes, with an average of 67.5 minutes; the hospitalization stay was 3-12 days, with an average of 8.5 days. Postoperative incision dehiscence occurred in 1 case, and flap marginal necrosis occurred in 2 cases, all of which were completely healed after dressing change; 1 case of incision was swollen and congested with tension blisters, which resolved spontaneously at 7 days after operation. The other flaps and the skin grafting survived and healed successfully, the wounds of recipient and donor sites healed by first intention. The healing time was 2-3 weeks (mean, 2.2 weeks). No pain occurred in all patients. All 27 cases were followed up 3-26 months (mean, 11.5 months). No obvious scar contracture and bloated skin flap were found. The texture and color of the skin in the recipient area were similar to those of the surrounding tissues and feel existed.ConclusionThe Keystone flap is a feasible and efficient way to repair soft tissue defect of lower extremity. Furthermore, the skin color and texture is similar to the surrounding tissue after healing.
Objective To investigate the technique and effectiveness of using narrow hypodermal pedicled retroauricular flap for repairing preauricular soft tissue defect. Methods Between June 2008 and July 2011, 11 cases of preauricular soft tissue defect were treated, which were caused by resection of preauricular tumors, including 5 cases of pigmented nevus, 2 cases of basal cell carcinoma, 2 cases of mixed hemangioma, and 2 cases of skin papilloma. There were 7 males and 4 females, aged from 26 to 75 years (mean, 50 years). The disease duration was 3-50 years (mean, 35 years). The size ofthe soft tissue defect ranged from 1.5 cm × 1.0 cm to 3.5 cm × 3.0 cm. The narrow hypodermal pedicled retroauricular flap was designed with its pedicle along the pathway of the superficial temporal artery and posterior auricular artery through tunnel to repair the defects. The size of the flaps ranged from 1.8 cm × 1.3 cm to 3.8 cm × 3.3 cm with the pedicle of 2-5 cm in length and 0.4-0.7 cm in width. The donor site was sutured directly or repaired with local flap. Results All flaps survived and incisions healed primarily after operation. Eight cases were followed up 6 months to 1 year. The flaps had good texture, flexibil ity, and color, and the auricle appearance was satisfactory. No recurrence of tumor was found. Conclusion The narrow hypodermal pedicled retroauricular flap has long and narrow pedicle, big transferring angle, large repairing area, no major blood vessel, and easy operation, so it is a simple and ideal technique for repairing preauricular soft tissue defect.
ObjectiveTo investigate the clinical application of the anterior tibial artery perforator propeller flap relay peroneal artery terminal perforator propeller flap in repair of foot and ankle defects.MethodsBetween October 2014 and October 2018, 18 cases with foot and ankle defects were treated. There were 12 males and 6 females with an average age of 32.8 years (range, 8-56 years). There were 11 cases of traffic accident injuries, 3 cases of falling from height injuries, and 4 cases of heavy objects injuries. The wound was at the dorsum of the foot in 9 cases, the heel in 4 cases, the lateral malleolus in 5 cases. The time from injury to flap repair was 7-34 days (mean, 19 days). The size of wound ranged from 6.0 cm×2.5 cm to 11.0 cm×6.0 cm. The foot and ankle defects were repaired with the peroneal artery terminal perforator propeller flap in size of 6 cm×3 cm-18 cm×7 cm, which donor site was repaired with the anterior tibial artery perforator propeller flap in size of 8 cm×3 cm-16 cm×6 cm.ResultsOne patient had a hemorrhagic swelling in the peroneal artery terminal perforator propeller flap, and survived after symptomatic treatment. All recipient and donor sites healed by first intention. Eighteen patients were followed up 6-15 months (mean, 12.5 months). At last follow-up, the shape, color, texture, and thickness of the flaps in the donor sites were similar with those in the recipient sites. There were only linear scars on the donor sites. The two-point discrimination of the peroneal artery terminal perforator propeller flap ranged from 10 to 12 mm (mean, 11 mm). According to American Orthopaedic Foot and Ankle Society (AOFAS) score criteria, the results were excellent in 15 cases and good in 3 cases, with an excellent and good rate of 100%.ConclusionThe foot and ankle defects can be repaired with the anterior tibial artery perforator propeller flap relay peroneal artery terminal perforator propeller flap. The procedure is not sacrificing the main vessel and can avoid the skin grafting and obtain the good ankle function.
ObjectiveTo investigate the effectiveness of free transverse gracilis myocutaneous flap for soft tissue defects of foot and ankle. Methods Between January 2017 and December 2020, 16 cases (17 feet) of soft tissue defects of foot and ankle were repaired with free transverse gracilis myocutaneous flaps. There were 10 males and 6 females, with an average age of 38 years (range, 23-60 years). There were 9 cases of left foot, 6 cases of right foot, and 1 case of bilateral feet. The causes of soft tissue defect were traffic accident injury in 3 cases, heavy object smash injury in 4 cases, machine injury in 3 cases, infection in 4 cases, electrical burn in 1 case, and synovial sarcoma after operation in 1 case. The wounds located at the distal plantar in 2 cases (2 feet), the heel and ankle in 6 cases (6 feet), the dorsum of the foot in 7 cases (8 feet), and the first metatarsophalangeal joint to the medial malleolus in 1 case (1 foot). The size of wounds ranged from 6 cm×5 cm to 18 cm×7 cm. The size of flap ranged from 11 cm×6 cm to 21 cm×9 cm. The donor site was sutured directly. Results After operation, 1 case (1 foot) of flap vascular crisis, 1 case (1 foot) of partial necrosis of the flap, and 1 case of partial dehiscence of the incision at donor site occurred, all of which healed after symptomatic treatment. The other flaps survived, and the incisions at donor and recipient sites healed by first intention. All patients were followed up 12-36 months (mean, 24 months). Except for 1 case (1 foot) of swollen flap, which underwent two-stage trimming, the other flaps had good shape and texture. All the flaps had a protective feeling. At last follow-up, Kofoed scores of foot and ankle function ranged from 73 to 98 (mean, 89.7); 13 cases were excellent, 2 cases were good, and 1 case was poor, with an excellent and good rate of 93.8%. Linear scar was formed at the donor site without adverse effect on lower limb function. ConclusionThe free transverse gracilis myocutaneous flap is an effective flap for repairing large soft tissue defects of foot and ankle due to its advantages of large excisable area, less variation of vascular anatomy, and concealment of donor site.
ObjectiveTo explore the feasibility and effectiveness of bone transport technique for simultaneous repair of tibia defect and refractory soft tissue defect. MethodsThirty-five patients with tibia bone defect combined with refractory soft tissue defect were treated between January 2010 and December 2014, and the clinical data were retrospectively analyzed. There were 21 males and 14 females with an average age of 29 years (range, 18-47 years). All patients had Gustilo type Ⅲ open tibial fractures, which were caused by traffic accident. Fracture located at the upper 1/3 of the tibia in 1 case, at the middle 1/3 of the tibia in 19 cases, and at the lower 1/3 of the tibia in 15 cases. All patients underwent external fixation after 4-10 hours of trauma, and tibial skin necrosis, infection, and purulent exudation were observed after 5-10 days of operation. The time from injury to admission was 21 days to 5 months (mean, 2 months). After debridement, the average length of tibia defect was 8 cm (range, 6-11 cm); the area of soft tissue defect was 6 cm×5 cm to 10 cm×8 cm. Orthofix external fixation was applied to tract the bone and soft. ResultsAll 35 patients were followed up 12-22 months (mean, 16 months). The average time of bony healing was 15 months (range, 9-20 months), and no obvious force line offset was found. Osteotomy segment was extended from 6 to 11 cm (mean, 8 cm); after treatment, the external fixation support was retained for 2 to 10 months (mean, 5 months). No blood vessel and nerve injuries were found during treatment, and no osteomyelitis and refracture happened after operation. The skin and soft tissue defects healed, and the healing time was 1 to 3 months (mean, 1.3 months). Different degrees of infection occurred in 5 cases, and was cured after dressing change. According to Johner-Wruhs' evaluation criteria after external fixator was removed, the results were excellent in 26 cases, good in 5 cases, and moderate in 4 cases, with an excellent and good rate of 88.6%. ConclusionBone transport technique can simultaneously repair tibia bone defect and soft tissue defect by continuous bone and soft tissue traction.
ObjectiveTo explore the feasibility of using indocyanine green angiography in mapping the superficial temporal vessels and assisting design and harvesting of the superficial temporal artery based forehead flap. Methods A clinical data of 14 patients with facial soft tissue defects repaired with superficial temporal artery based forehead flaps between October 2015 and November 2022 was retrospectively analyzed. There were 9 males and 5 females with a median age of 9.5 years (range, 3-38 years). The forehead flaps were used to reconstruct facial soft tissue defects following excision of facial scar (8 cases) or congenital melanocyte nevus (6 cases). The size of defects ranged from 3 cm×2 cm to 24 cm×9 cm. Before operation, the indocyanine green angiography was used to map the superficial temporal artery and vein, and to analyze the relationship of the arteries and veins. The forehead flaps with unilateral superficial temporal fascia as the pedicle was transferred to repair the small facial defect in 2 cases. The facial pedicle contained the frontal branch of the superficial temporal artery and 2 cm of the superficial temporal fascia around the vessel, and the tiny accompanying vein of the frontal branch of the superficial temporal artery was used as the outflow of the flap. The forehead flaps with the skin pedicle including bilateral or unilateral superficial temporal fascia and the overlying skin was pre-expanded and transferred to repair the large facial defect in 12 cases. The skin pedicle contained the frontal branch of superficial temporal artery and one of main branches of superficial temporal vein. Among the 12 cases, the frontal branch of superficial temporal vein was used as the outflow in 4 cases, and the parietal branch was used as the outflow in 8 cases. The size of the flaps ranged from 3 cm×2 cm to 30 cm×13 cm. The skin pedicles were divided at 3 weeks after the flap transfer. ResultsIndocyanine green angiography could clearly showed the course and branching of the superficial temporal artery and vein. Individual differences existed in the location where the frontal branch of the superficial temporal artery entered the forehead. The superficial temporal vein had great variability and did not follow the artery. One patient had expander-related complication, which resulted in 3-cm flap necrosis. The necrotic tissue was debrided and repaired with skin grafting. The other flaps totally survived and the incisions healed by first intention. All patients were followed up 2-24 months, with a median of 11.5 months. The color, texture, and thickness of the flaps matched well with those of recipient sites. Hypertrophic scar was not observed in recipient or donor site. All patients were satisfied with the reconstructive outcomes. ConclusionIndocyanine green angiography can clearly visualize the course and the branches of the superficial temporal arteries and veins, which can help surgeons understand the position, distribution, and concomitant relationship of the superficial temporal vessels, and make a rational surgical plan of the forehead flap.
Objective To explore the effectiveness and safety of Pacman flap for repair of eyelid and periocular soft tissue defects. Methods The clinical data of 12 patients who underwent repair of eyelid and periocular soft tissue defects with Pacman flap between April 2015 and September 2020 was retrospectively reviewed. There were 5 males and 7 females, aged from 18 to 87 years, with a median age of 63 years. The disease duration ranged from 6 months to 50 years, with a median time of 3 years. The defect was located on the lateral eyelid in 5 cases, inferior eyelid in 3 cases, inferior and medial eyelid in 2 cases, inferior and lateral eyelid in 2 cases, and lateral eyebrow in 1 case. Pathological diagnosis included 4 cases of basal cell carcinoma, 4 cases of squamous cell carcinoma, 1 case of junction nevus, 1 case of intradermal nevus, 1 case of seborrheic keratosis, and 1 case of keratoacanthoma. The size of defects ranged from 1.4 cm×1.2 cm to 5.5 cm×5.0 cm. According to the skin mobility and toughness around the defects, Pacman flaps with the size of 1.6 cm×1.4 cm to 10.0 cm×6.0 cm were designed and advanced to repair the defects. ResultsAll flaps survived completely with no necrosis. One patient had infection, and another patient had partial wound dehiscence, but the wounds healed after dressing change without further debridement. Other patients all recovered successfully. The follow-up time ranged from4 to 51 months, with a median time of 12 months. No recurrence and metastasis occurred, and the scars were invisible without deformity of eyelid and brow. All patients were satisfied with the aesthetic and functional outcomes of the eyes. ConclusionPacman flap is a simple and feasible technique for repair of eyelid and periocular soft tissue defects, with satisfactory effectiveness.