ObjectiveTo explore the feasibility and accuracy of modified three longitudinal and five transverse method in locating perforating branches before anterolateral thigh perforator flap (ALTP) repair.MethodsBetween January 2019 and December 2019, 41 patients with skin and soft tissue defects were repaired with ALTP. There were 31 males and 10 females. The age ranged from 18 to 61 years, with an average of 32 years. The soft tissue defects were caused by trauma in 38 cases, and the time from injury to operation was 3-7 days, with an average of 4 days. The wounds left after excision of scar contracture deformity because of burn in 3 cases. Soft tissue defects located at upper limbs in 16 cases and lower limbs in 25 cases. The size of soft tissue defects ranged from 10 cm×4 cm to 25 cm×12 cm. Before operation, zonesⅠ, Ⅱ, Ⅲ, and Ⅳwere formed on the anterolateral thigh by modified three longitudinal and five transverse method. The perforating branches were detected in these four zones by Doppler ultrasound, and the skin flaps were designed according to the wound area. The perforating branches were explored during operation, and the distribution and types of perforating branches in each zone and the relationship between perforating branches and lateral femoral cutaneous nerve were observed. The ALTP with the size of 12 cm×5 cm to 30 cm×10 cm was used to repair the wound, and the donor site was sutured directly or repaired with the flap. ResultsA total of 117 perforating branches were detected in 41 patients before operation, and 111 perforating branches were found during operation, with a false positive rate of 5%. The probability of perforating branches in zonesⅠ, Ⅱ, Ⅲ, and Ⅳ were 56%, 73%, 76%, and 66% respectively, and the false positive rates were –9%, 7%, 16%, and 4%, respectively. All perforating branches located near the trunk of lateral femoral cutaneous nerve, especially in posterolateral area. There were only 1 perforating branch in 6 cases, 2 perforating branches in 12 cases, 3 perforating branches in 10 cases, and 4 perforating branches in 13 cases. The main types of perforating branches in zonesⅠ, Ⅱ, Ⅲ, and Ⅳ were transverse perforating branches, oblique perforating branches, descending perforating branches, and descending perforating branches, respectively. Partial distal necrosis occurred in 2 cases and complete necrosis occurred in 1 case after operation, and the wounds were repaired with skin grafts. The remaining 38 flaps survived successfully, and the wounds and the incisions of donor sites healed by first intention. All patients were followed up 3 to 12 months, with an average of 6 months. The appearance and texture of the skin flap were acceptable, and linear scar remained in the donor site.ConclusionIt can simply locate and distinguish the perforating branches and better protect the lateral femoral cutaneous nerve by using the modified three longitudinal and five transverse method before ALTP repair.
Objective To evaluate the effectiveness of anterolateral thigh polyfoliate perforator flap plus pedicle with one foliate flap for repairing extremities soft tissue defect. Methods Between January 2014 and January 2017, 24 patients with extremities soft tissue defects were treated by anterolateral thigh polyfoliate perforator flap plus pedicle with one foliate flap. There were 15 males and 9 females, with a median age of 33.5 years (range, 5-64 years). Wounds located in upper limb in 8 cases, complicated with radial styloid fracture in 1 case, extensor tendon exposure in 3 cases, and brachioradialis muscle tendon exposed in 1 case. Wounds located in lower extremity in 16 cases, complicated with calcaneal or metatarsal, phalangeal fractures in 4 cases, Achilles tendon departure in 1 case, toe long extensor tendon and flexor digitorum longus tendon exposed in 8 cases. The wound area ranged from 8 cm×5 cm to 18 cm×12 cm. According to wound size, anterolateral thigh perforators were detected by conventional ultrasound Doppler (2-5 perforators). The irregular wounds were decomposed into multiple parts and the leaf number (2-4 leaves) of polyfoliate flap depended on the part number of the wound. The flap area ranged from 9 cm×6 cm to 20 cm×14 cm, and the largest area of single leaf was 24 cm×6 cm. The vascular pedicle length ranged from 7 cm to 12 cm. The foliate flap area with protecting pedicle ranged from 5 cm×3 cm to 7 cm×5 cm. Results All the flaps survived, and no vascular crisis occurred. All the patients were followed up 2-28 months (mean, 9 months). Sinus occurred in 1 case of calcaneal fracture after flap repair, and the sinus was healed after 3 months by conventional dressing. All the flaps were thin and had a good texture. Healing of soft tissue was found in 5 patients with fracture. The wrist and ankle plantar flexion and dorsiflexion function of recipient site were normal in all patients. Conclusion It is safe and reliable to repair the extremities soft tissue defect with anterolateral thigh polyfoliate perforator flap plus pedicle with one foliate flap. And it is one of the ways to reduce the vascular crisis of the anterolateral thigh free perforator flap.
Objective To compare the effectiveness of poly ether ether ketone (PEEK) localization marker combined with mixed reality technology versus color doppler ultrasound guidance for the vessel localization of anterolateral thigh perforator flap. Methods A retrospective analysis was conducted on 40 patients with tissue defects after oral cancer resection who underwent repair using the anterolateral thigh perforator flap between January 2022 and June 2023. According to the different intraoperative positioning methods of the anterolateral thigh perforator flap, they were randomly divided into PEEK group [using PEEK localization marker combined with mixed reality technology based on CT angiography (CTA) data] and color ultrasound group (using color ultrasound guidance), with 20 cases in each group. There was no significant difference in gender, age, etiology, and disease duration between the two groups (P>0.05). The number of perforator vessels identified in the two groups of regions of interest was recorded, and compared them with the intraoperative actually detected number to calculate the success identifying rate of perforator vessels; the distance between the perforating point and the actual puncture point was measured, the operation time of the two groups of flaps was recorded. ResultsIn the PEEK group, 32 perforator vessels were identified, 34 were detected by intraoperative exploration, and the success identifying rate was 94.1% (32/34); in the color ultrasound group, 29 perforator vessels were identified, 33 were detected by intraoperative exploration, and the success identifying rate was 87.8% (29/33); there was a significant difference in the success identifying rate between the two groups (P<0.05). The distance between the perforating point and the actual puncture point and the operation time in PEEK group were significantly shorter than those in color ultrasound group (P<0.05). Patients in both groups were followed up 6-30 months, with a median of 17 months; there was no significant difference in follow-up time between the two groups (P>0.05). In the PEEK group, there was 1 case of flap necrosis at the distal edge and delayed healing after trimming and dressing change. In the color ultrasound group, there was 1 case of flap necrosis at 7 days after operation and pectoralis major myocutaneous flap was selected for repair after removal of the necrotic flap. In the rest, the flap survived and the incision healed by first intention. Donor site infection occurred in 1 case in PEEK group and healed after anti-inflammatory treatment. The maxillofacial appearance of the two groups was good, the flap was not obviously bloated, and the patients were satisfied with the repair effect. Conclusion Compared with the traditional color ultrasound guidance, the PEEK localization marker combined with mixed reality technology based on CTA data in vessel localization of anterolateral thigh perforator flap has higher success identifying rate and positioning accuracy, and the flap production time is shorter, which has high clinical application value.
ObjectiveTo investigate the effectiveness of bipaddled anterolateral thigh perforator flap in repair of through-and-through maxillofacial defect following oral cancer ablation.MethodsBetween January 2008 and December 2016, 42 patients with oral cancer were treated. There were 31 males and 11 females with an average age of 44.5 years (range, 31-68 years). There were 28 cases of buccal mucosa carcinoma, 10 cases of basal cell carcinoma of buccal skin, 3 cases of gingiva carcinoma, and 1 case of recurrent parotidduct carcinoma. The disease duration ranged from 1 to 24 months (mean, 13.5 months). The size of through-and-through maxillofacial defect ranged from 6.0 cm×4.5 cm to 9.0 cm×7.0 cm. All defects were repaired with the bipaddled anterolateral thigh perforator flap. The paddles were adjusted to repair the buccal area. And the size of flap ranged from 7 cm×5 cm to 10 cm×8 cm. The donor sites were closed directly.ResultsThe operation time was 4.5-7.5 hours (mean, 5.5 hours). All flaps healed and the wounds of recipient and donor sites healed by first intention. All patients were followed up 9-60 months (mean, 22 months). All patients were satisfied with their facial appearance and the speech function. The range of mouth opening was 3-5 cm. Three patients died of recurrence during the follow-up period and the other patients were alive.ConclusionThe bipaddled anterolateral thigh perforator flap is flexible and reliable for the through-and-through maxillofacial defect reconstruction following oral cancer ablation.
Objective To investigate the method, effectiveness, andclinical application of the anterolateral thigh perforator free flaps for reconstruction of the soft tissue defects in the head and the four limbs after tumorresection. Methods From April 2004 to April 2006, 16 patients (13 males, 3 females; aged 26-72 years) with the soft tissue defects in the head (9 patients) and the four limbs (7 patients) underwent reconstructive operations with the anterolateral thigh perforator free flaps after their tumor resection. The defects ranged in area from 8 cm×6 cm to 20 cm×13 cm in the head with the process of diseases from 6 to 24 months, and the defects ranged in area from 10 cm×7 cm to 21 cm× 12 cm in the four limbs with the process of diseases from 2 to 18 months.The technique for the anterolateral thigh perforator flap freegrafting, the degree of the injury in the donor sites, and the appearance of the donor and recipient sites, and the influence on the anatomy and function in the both local sites were analyzed. Results In the 16 patients with the soft tissue defects in the head and the four limbs after tumor resection, 14 had a primary wound healing (Stage Ⅰ), and 2 had a delayed wound healing (Stage Ⅱ) . Fifteen flaps survived completely but two flaps had a partial failure. Theflap appearance was good and smooth without any severe scarring, and there was a minimal effect on the function at the donor and recipient sites. Conclusion Because of the less morbidity at the donor site, the better result at the recipient site, and the use of the anterolateral thigh perforator flap free grafting, this kind of the technique for reconstruction of the head and fourlimb soft tissue defects after tumor resection is well acceptable.
Objective To explore the feasibility of harvesting free thinned innervated anterolateral thigh (ALT) perforator flap for repairing the donor defect after wrap-around flap transfer. Methods Between May 2011 and December 2013, free thinned innervated ALT perforator flap was used to repair the donor defects after wrap-around flap transfer in 9 patients. There were 8 males and 1 female, with a mean age of 31.2 years (range, 19-42 years). The interval time between injury and admission was 3-12 hours (mean, 6.5 hours). Injury causes included machine crush injury (4 cases), traffic accident injury (3 cases), and twisting injury (2 cases). The wrap-around flaps were transferred to reconstruct thumb defects. And the size of donor site defect ranged from 3 cm×2 cm to 8 cm×5 cm. A branch of the lateral femoral cutaneous nerve was carried to make innervated ALT perforator flap for donor site repair. The size of innervated ALT perforator flap ranged from 3.0 cm×2.0 cm to 8.5 cm×5.0 cm. The thickness of innervated ALT perforator flap before defatting ranged from 2.0 to 4.5 cm (mean, 3.2 cm); the thickness after defatting ranged from 0.4 to 0.6 cm (mean, 0.5 cm). The defect at the anterolateral thigh was primarily closed in all cases. Results All reconstructed thumbs and ALT perforator flaps survived. All patients were followed up 6-30 months (mean, 15.8 months). The ALT perforator flaps had good appearance and color, with no further flap revision or defatting procedures. The static two-point discrimination was 8-15 mm (mean, 10.5 mm). All patients could walk and run normally without postoperative skin erosions or ulcerations. Conclusion The free thinned innervated ALT perforator flap is pliable and thin. It is suitable for repairing the donor site defects after wrap-around flap transfer for thumb reconstruction.
Objective To summarize the cl inical effect of anterolateral thigh pedicle or free perforator flap in repairing soft tissue defect in the extremities. Methods From March 2000 to January 2009, 32 cases of soft tissue defect were treated with pedicle or free anterolateral thigh perforator flap. There were 30 males and 2 females with an median age of28 years (4-53 years). Soft tissue defects included left radial side in 3 cases, the left lateral elbow in 1 case, knee in 5 cases, calf in 14 cases, dorsal is pedis in 5 cases, and planta pedis in 4 cases. The defect area ranged from 9 cm × 6 cm to 15 cm × 13 cm. Nine cases compl icated by bone defect and 1 case by radial nerve defect. The time from injury to hospital ization was 1 hourto 4 months (mean 5 days). Defects in 27 cases were repaired by anterolateral thigh perforator flap, simultaneously combined with transplantation with the second toe in 1 case, with sural nerve using arterial ized small saphenous vein in 1 case, nd with fibular or il ium in 4 cases. Defects in other 5 cases were repaired with flaps pedicled with superior lateral genicular artery. Neuroanastomosis was performed in 14 cases of the flaps. The size of the flaps ranged from 10 cm × 8 cm to 16 cm × 15 cm. Skin defects at donor site were repaired with spl it thickness skin graft or sutured directly. Results All patients were followed up from 8 months to 9 years with an average of 18 months. The flaps survived well and the wounds healed by first intention in 29 cases, 3 flaps necrosed and cured after symptomatic management. Skin graft at donor site survived completely in 9 cases. The color and texture and thickness of the flaps were similar to those of recipient site. After 6 months, the sensation of the flaps recovered to grade S3-4 in 14 patients whose cutaneous nerve were anastomosed, partial recovery was observed in other patients. In 4 patients receiving transplantation of fibular or il ium, the bony heal ing was achieved within 4 to 6 months. No obvious dysfunction was found at the donor site. Conclusion The pedicle anterolateral thigh perforator flap is long and thick with constant location. Anastomosis or transferring is easy to perform. It can provide big area and feel ing recovery by nerve anastomosis. It is an effective method to repair soft tissue defect of the extremities.
Objective To explore the effectiveness of modified anterolateral thigh perforator flap pedicled by cross-bridge microvascular anastomosis in treatment of soft tissue defects in the middle and lower segments of the leg. Methods Between March 2011 and June 2015, 15 cases with skin and soft tissue defects in the middle and lower segments of the legs were treated. There were 9 males and 6 females, aged 22-48 years (mean, 32.6 years). Of whom, 8 patients caused by traffic accidents, 5 by machine twist, and 2 by crash injury of heavy object. The mean interval from injury to admission was 82.6 hours (range, 2 hours to 1 week). The area of defect ranged from 13 cm×9 cm to 23 cm×16 cm. After primary debridement and vaccum sealing drainage treatment, the defects were repaired with modified anterolateral thigh perforator flap pedicled by cross-bridge microvascular anastomosis. The size of flap ranged from 15 cm×10 cm to 25 cm×15 cm. The donor sites were sutured directly or repaired with the skin grafts. The pedicle division was done at 4 weeks after operation. Results After operation, venous crisis occurred in 1 case and distal skin necrosis in 2 cases which was healed by dressing change. The other tissue flaps survived successfully and wounds healed by first intention. All skin grafts at donor site survived after operation, and primary healing of wound was obtained. All patients were followed up 6-24 months (mean, 13 months). All flaps were characterized by soft texture, satisfactory appearance, and restoring the protective sensation. Moreover, the two-point discrimination ranged from 15 to 28 mm (mean, 19.5 mm) at 6 months after operation. The function of both lower extremities were normal without obvious contracture of scar at donor site. Conclusion Modified free anterolateral thigh perforator flap, with little damage in donor site, a reliable blood supply by making a cross-bridge microvascular anastomosis with pretibial or posterior tibial blood vessel on normal leg, is a reliable alternative method for repairing soft tissue defects with the main vessels of serious injury in the middle and lower segments of the leg.