Objective To introduce the application of the pedicled anterolateral thigh flap transferring for coverage of the oversized skin defect of the hand. Methods The pedicled anterolateral thigh flap was transferred to cover the large skin defects of the hands or the skin defects of theabdomen after the abdominal flap transferred to the hand in 5 male patients aged 16-44 years from April 2002 to August 2005. The injured sites were as follows:4 right hands and 1 left hand, including 2 hands injured by a machine and 3 hands injured by burning.The mechanically injured patients underwent an operation within 6 hours after the injury. The burned patients were reconstructed by the flap transferring 4-7 days after the burn when the decayed tissues could be clearly indentified.The areas of the hand defects were 12.19 cm×18.22 cm.The areas of the pedicled anterolateral thigh flaps were 7.12 cm×16.24 cm. The areas of the abdominal flaps were 13.20 cm×19.23 cm.The pedicles were separated 3 weeks after the repairing operation. Results All the flaps survived well and there was no vascular crisis, with the wound healing of the first intention. The skin defects of the hand were covered completely. Five patients were followed up for 6-12 months. The texture of the flaps was soft and the flaps had a good blood circulation. Of the patients, 3 underwent the finger exclusion and degreasing operation 47 months after operation. All the flaps of the hands had protective sensation, which could meet the requirement of the daily life. Conclusion The pedicled anterolateral thigh flap can provide the large coverage for the skin defects of the hands. The risk of the operation can be greatly decreased by obviation of the vessel anastomosis. It can be an optimal choice for themanagement of the oversized skin defects of the hands.
Objective To introduce the technique and clinical application of free lobed anteromedial thigh perforator flap. MethodsBetween October 2017 and December 2021, 65 patients with buccal and oral cancer penetrating defects were planned to treat with free lobed anterolateral thigh flap transplantation, of which 15 cases were found that the sole anterolateral thigh perforator was actually a branch of the anteromedial thigh perforator, and then the free lobed anteromedial thigh perforator flap was harvested for repair. There were 12 males and 3 females with an average age of 34.6 years (range, 29-55 years). According to Union for International Cancer Control (UICC) TNM staging, there were 7 cases of T4N0M0, 4 cases of T4N1M0, 2 cases of T3N1M0, and 2 cases of T3N2M0. The disease duration was 1-10 months (mean, 6.3 months), and the area of secondary soft tissue defect left after radical resection of buccal and oral cancer was from 5 cm×4 cm to 10 cm×6 cm. The anterolateral thigh skin flap ranged from 5 cm×4 cm to 13 cm×6 cm, and the anteromedial thigh skin flap ranged from 5 cm×3 cm to 10 cm×6 cm. The free trilobed anteromedial thigh flap was prepared according to the actual branches of the main trunk of the anteromedial thigh perforator in 4 cases, and the vastus medialis muscle flap was used to fill the cavity defect of the floor of mouth in 7 cases. Among the 15 patients, the vessel pedicles of the anteromedial thigh perforators were derived from the main femoral artery and vein in 8 cases, from the main descending branch of the lateral femoral circumflex artery in 4 cases, and from the main lateral femoral circumflex artery in 3 cases. Results Hematoma occurred in 2 cases after operation, which was successfully saved after emergency exploration. No vascular crisis occurred, and partial necrosis of anterolateral femoral skin island occurred in 1 case, which was healed with debridement. The remaining flaps survived successfully, and the wounds and donor site incisions healed by first intention. All the patients were followed up 12-36 months (mean, 14.6 months). The appearance of the flap was satisfactory, and no obvious swelling was found; the mouth opening and language function were satisfactory; only linear scar was left in the donor area, and the thigh function was not significantly affected. Local recurrence occurred in 3 cases, and the defect after tumor resection was repaired with pedicled pectoralis major myocutaneous flap. Four patients with neck lymph node metastasis, including ipsilateral side in 3 patients and contralateral side in the other 1 patient, all underwent neck lymph node dissection again. The 3-year survival rate was 86.7% (13/15). Conclusion The anteromedial thigh perforator vessels distributed in the anterolateral region of the thigh can be used to prepare the anterolateral thigh split lobed flap to repair the buccal and oral cancer penetrating defects.
ObjectiveTo summarize the combination methods and optimization strategies of the harvest procedure of anterolateral thigh chimeric perforator myocutaneous flap. MethodsA clinical data of 359 cases of oral cancer admitted between June 2015 and December 2021 was retrospectively analyzed. There were 338 males and 21 females with an average age of 35.7 years (range, 28-59 years). There were 161 cases of tongue cancer, 132 cases of gingival cancer, and 66 cases of buccal and oral cancer. According to the Union International Center of Cancer (UICC) TNM staging, there were 137 cases of T4N0M0, 166 cases of T4N1M0, 43 cases of T3N1M0, 13 cases of T3N2M0. The disease duration was 1-12 months (mean, 6.3 months). The soft tissue defects in size of 5.0 cm×4.0 cm to 10.0 cm×7.5 cm remained after radical resection were repaired with the free anterolateral thigh chimeric perforator myocutaneous flaps. The process of harvesting the myocutaneous flap was mainly divided into 4 steps. Step 1: exposing and separating the perforator vessels, which mainly came from the oblique branch and the lateral branch of the descending branch. Step 2: isolating the main trunk of the perforator vessel pedicle and determining the origin of the vascular pedicle of muscle flap, which was came from oblique branch, lateral branch of the descending branch, or medial branch of the descending branch. Step 3: determining the source of muscle flap, including lateral thigh muscle and rectus femoris muscle. Step 4: determining the harvest form of muscle flap, which included muscle branch type, main trunk distal type, and main trunk lateral type. Results The 359 free anterolateral thigh chimeric perforator myocutaneous flaps were harvested. In all cases, the anterolateral femoral perforator vessels existed. The perforator vascular pedicle of the flap came from the oblique branch in 127 cases and the lateral branch of the descending branch in 232 cases. The vascular pedicle of muscle flap originated from the oblique branch in 94 cases, the lateral branch of the descending branch in 187 cases, and the medial branch of the descending branch in 78 cases. The muscle flaps harvested from the lateral thigh muscle in 308 cases and the rectus femoris muscle in 51 cases. The harvest forms of muscle flaps included 154 cases of muscle branch type, 78 cases of main trunk distal type, and 127 cases of main trunk lateral type. The size of skin flaps ranged from 6.0 cm×4.0 cm to 16.0 cm×8.0 cm, and the size of muscle flaps range from 5.0 cm×4.0 cm to 9.0 cm×6.0 cm. In 316 cases, the perforating artery anastomosed with the superior thyroid artery, and the accompanying vein anastomosed with the superior thyroid vein. In 43 cases, the perforating artery anastomosed with the facial artery, and the accompanying vein anastomosed with the facial vein. After operation, the hematoma occurred in 6 cases and vascular crisis in 4 cases. Among them, 7 cases were successfully saved after emergency exploration, 1 case had partial necrosis of skin flap, which was healed after conservative dressing change, and 2 cases had complete necrosis of skin flap, which was repaired by pectoralis major myocutaneous flap. All patients were followed up 10-56 months (mean, 22.5 months). The appearance of the flap was satisfactory, and the swallowing and language functions were restored satisfactorily. Only linear scar left in the donor site with no significant effect on thigh function. During follow-up, 23 patients had local tumor recurrence and 16 patients had cervical lymph node metastasis. The 3-year survival rate was 38.2% (137/359). Conclusion The flexible and clear classification of the key points in the harvest process of anterolateral thigh chimeric perforator myocutaneous flap can optimize the protocol to the greatest extent, increase the safety of the operation, and reduce the difficulty of the operation.
Objective To investigate the donor-site compl ications of the anterolateral thigh flap and its influencing factors. Methods Between July 1988 and July 2007, 427 patients were treated with anterolateral thigh flap. Among them, 33 patients had postoperative donor-site compl ications and their cl inical data were analyzed retrospectively. There were 21 malesand 12 females aged 14-47 years old (average 32.7 years old). The size of the wound defect ranged from 16 cm × 7 cm to 28 cm × 13 cm. The area of the flap harvested during operation ranged from 16 cm × 7 cm to 30 cm × 13 cm. The donor sites were treated by direct suture in 7 cases; free spl it-thickness skin graft in 23 cases, and reverse superficial epigastric artery flap repair in 3 cases. The size of graft in the donor site ranged from 10 cm × 5 cm to 18 cm × 8 cm. The occurrence of short-term (within 4 weeks) and long-term (over 6 months) compl ications were analyzed. Results All patients were followed up for 8-54 months (average 21 months). There were 26 patients (78.8%) with short-term and long-term compl ications and 7 patients (21.2%) with long-term compl ications. The short-term compl ications included skin graft necrosis in 23 cases (69.7%), wound infection in 17 cases (51.5%), and muscle necrosis in 2 cases (6.1%). The long-term compl ications included non-heal ing wounds in 21 cases (63.6%), serious scar in 28 cases (84.8%), discomfort in 25 cases (75.8%), and dysfunction of the quadriceps femoris in 16 cases (48.5%). Conclusion The occurrence of anterolateral thigh flap donor-site compl ications is related to the anatomical structure of the anterolateral thigh region, the surgical procedure, and the patient’s physique.
ObjectiveTo summarize the present status and progress of vascular anatomy and preoperative design technology of the anterolateral thigh flap. MethodsThe relative researches focused on vascular anatomy and preoperative design technology of the anterolateral thigh flap were extensively reviewed, analyzed, and summarized. ResultsVascular anatomy of the anterolateral thigh flap has been reported by numerous researchers, but perforators' location, origin, course, and the variation of the quantity have been emphasized. Meanwhile, the variation of descending branch, oblique branch, and lateral circumflex femoral artery has also been widely reported. Preoperative design technology of the anterolateral thigh flap includes hand-held Doppler, Color Doppler, CT angiography (CTA), magnetic resonance angiography, digital subtraction angiography, and digital technology, among which the hand-held Doppler is most widely used, and CTA is the most ideal, but each method has its own advantages and disadvantages. ConclusionThere is multiple variation of vascular anatomy of the anterolateral thigh flap. Though all kinds of preoperative design technologies can offer strong support to operation of anterolateral thigh flap, a simple, quick, precise, and noninvasive technology is the direction of further research.
Objective To discuss different applications ofanterolateral thigh flap in repairing large skinsoft tissue defects. Methods From January 1997 to July 2004, 27 pitients with large-complex tissue defects were treated using anterolateral thigh flap. The tissue defect was located at face in 9 cases,at cervix in 4 cases, at lower limbs in 6 cases, at vulvae in 4 cases,at hip in 1 case, at groin in 1 case and at breast tissue in 2 cases. The defect area was from 9 cm×8 cm to 20 cm×15 cm and the flap was harvested from 10 cm×8 cm to 33 cm×15 cm. Results Flaps survived in 26 cases after operation, and patients were satisfied with local function and appearance; flap necrosis occurred only in1 case,and the defect was covered with free skin graft after dress exchanges. Twenty-three cases were followed up from 3 months to 2 years. The appearance and the sense of recipient site were similar to the adjacent tissue. No obvious malformation of the donor site was observed. No local recurrence was found in the 6 cases of malignancy during the follow-up from 6 months to 15 months. Conclusion Anterolateral thigh skin flap can provide enough tissue to repair large skinsoft tissue defect,and can be used in different ways. So anterolateral femoral skin flap is an ideal flap in repairing large skinsoft tissue defect.
ObjectiveTo investigate the effectiveness of multiple tension reduction suture of in-situ return needle vertical mattress suture and in-situ return needle horizontal mattress suture combination with intradermal intermittent continuous suture (denominated as Zunyi’s Suture Method) on suturing the donor site of the anterolateral thigh flap. MethodsBetween January 2019 and December 2019, 62 patients were treated with anterolateral thigh flaps to repair wounds. There were 46 males and 16 females, aged 9-67 years (mean, 31 years). The size of anterolateral thigh flap ranged from 6 cm×5 cm to 25 cm×7 cm. The donor site of the flap was sutured directly by the Zunyi’s Suture Method. The skin on both sides of the incision was advanced to the middle, and the wound edge was attached and in a state of negative tension. The intradermal suture line was removed at 7 days after operation. The complications and scars at donor site were observed during follow-up. The Vancouver Scar Scale was used to assess the appearance of scars and the width of scars were measured at 6 months after operation.ResultsThe flaps survived smoothly, and the wounds healed by first intention. The incisions at donor sites healed by first intention at 2 to 3 weeks after operation. All patients were followed up 7-16 months, with an average of 10.7 months. There was no ischemic necrosis of the donor site or skin threading. There was pigmentation of the needle back point in the early stage, and the pigmentation completely disappeared after 3 to 6 months without scar hyperplasia. At 6 months after operation, liner scars were achieved in all the patients with an average Vancouver Scar Scale score of 2.5 (range, 1.0-3.5) and an average width of 2.4 mm (range, 0.8-9.1 mm). ConclusionThe suture of the donor site of the anterolateral thigh flap with Zunyi’s Suture Method can effectively reduce the tension on wound edges and scar hyperplasia.
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.
ObjectiveTo investigate the effectiveness of selectively thinning of the free anterolateral thigh flap in repair of the heel skin and soft tissue defect.MethodsBetween April 2013 and August 2015, 8 patients with tissue defect of heel caused by different reasons were recruited. There were 6 males and 2 females with an average age of 31.2 years (range, 15-49 years). The size of wound ranged from 14 cm×10 cm to 19 cm×14 cm. All the wounds were repaired with the contralateral free anterolateral thigh flap. The partial flap which was going to repair the defects of the heel and non-weight-bearing area of planta pedis was selectively thinned. The size of flap ranged from 14 cm×10 cm to 19 cm×14 cm. The donate site was repaired by skin grafting.ResultsAll flaps survived after operation, and wounds healed by first intention. The marginal necrosis of skin graft occurred in 2 cases, and healed after changing the dressing. The other skin grafts survived. All patients were followed up 8-20 months (mean, 12.3 months). All patients could walk normally. During follow-up, 2 flaps were injured and cured after symptomatic management. The appearance of flap was good in 7 cases with no influence in wearing shoes. Only 1 patient received the second-stage surgery of thinning the flap after 1 year.ConclusionApplication of the selectively thinning of the free anterolateral thigh flap can repair the heel skin and soft tissue defects, and achieve an ideal appearance and function.
ObjectiveTo investigate the effectiveness of digital technology in repairing wounds of the hand and foot with anterolateral thigh flap. MethodsBetween September 2013 and September 2014, 16 cases of wounds of the hand and foot were treated with the anterolateral thigh flap. There were 10 males and 6 females, with an average age of 31 years (range, 20-52 years). The causes included traffic accident injury in 8 cases, crushing injury by machine in 6 cases, burning injury in 1 case, and animal biting injury in 1 case. The locations of soft tissue defect were the dorsum of the foot in 5 cases, the ankle in 4 cases, the planta pedis in 1 case, and the hand and forearm in 6 cases. The time was 2 hours to 45 days from injury to hospitalization (mean, 14.3 days). All defects were associated with exposure of bone and tendon. The size of wound was from 9.0 cm×4.0 cm to 29.0 cm×8.5 cm. CT angiography (CTA) was performed before operation, and the appropriate perforator as well as the donor site was selected. Then the Mimics15.0 software was used to reconstruct the data of CTA so as to locate the main perforators, design the three-dimensional models of the anterolateral thigh flap, and simulate operation. The flap was obtained according to preoperative plan during operation. The size of flaps varied from 11 cm×5 cm to 31 cm×10 cm. The donor sites were sutured directly in 14 cases and were repaired by free skin graft in 2 cases. ResultsThe lateral femoral circumflex artery identified by Mimics15.0 software before operation, as well as the starting position of its descending branch, the blood vessel diameter at start site, vascular distribution, the maximum cutting length of the vascular pedicle were consistent with the actual observation during operation. All flaps were harvested and were used to repair defect smoothly. Vascular crisis occurred in 1 flap after operation, and the other flaps survived successfully. The wounds and the incisions obtained healing by first intention, and grafted skin survived completely. All cases were followed up 6-17 months (mean, 9 months). Fifteen flaps had good shape;but a second-stage operation was performed to make the flap thinner in 1 case. At last follow-up, the results were excellent in 3 cases, good in 2 cases, and fair in 1 case according to total active motion (TAM) in 6 cases of hand and forearm injury;the results were excellent in 5 cases, good in 3 cases, and fair in 2 cases according to American Orthopaedic Foot and Ankle Society (AOFAS) in 10 cases of foot injury. The total excellent and good rate was 81.25%. ConclusionThe preoperative individualization design of the flap can be realized through CTA digital technology and Mimics15.0 software;it can reduce the operation risk.