Objective To introduce a method to repair soft tissue defect in different regions and different areas of hand in one procedure. Methods From May 2002 to May 2005, anterolateral femoral flap or lobulated anterolateral femoralflap(forming irregular anterolateral femoral flap) was designed into different shapes to repair multiple soft tissue defect in different regions in hand, whichwas used clinically in 27 cases. Among 27 cases, there were 16 males and 11 females; the locations were left hand in 9 , right hand in 16 and left foot in 2; including 5 penetrating injury, 9 hotpressing injury, 2 soft tissue defection of instep and planta by milled injury, 6 gearing injury and 5 carding machine injury. All the cases complicated by exposure of tendons, bones or joints. Defect was repaired with H-shape flaps in 5 cases of penetrating palm injuries; with Y-shape or K-shape flaps in 11 cases of dorsals or combined with fingers of hand with skin defect; with shape flaps in 3 cases of dorsals combined with sides of palms or the first web of hands with skin defect and in 2 cases of skin defects of dorsals combinedwith palms of feet;with h-shape flaps in 6 cases of skin defects of dorsal or palms combined with disconnected skin defect of fingers. The sizes of main flaps ranged from 6.5 cm×4.8 cm to 17.0 cm×12.0 cm, the sizes of lobulate flaps ranged from 3.5 cm×2.8 cm to 7.5 cm×4.5 cm. Results Allflaps survived without vascular crisis after operation. Except the fascia flapall recipient sites healed by first intention. The follow-up period ranged from 3 months to 1 year, all cases had satisfactory appearance, the texture of flaps was soft. Except 2 cases of penetrating injury, 3 cases of hotpressing injuryand1 case of carding machine injury whose function was not satisfactory, theremaining cases achieved the function of snap and pinch. More than 1 year after operation, the sense of pain and touch recovered. There was no functional impairment at the donor sites although scar hyperplasia was formed in some cases.Conclusion The application of irregular anterolateral femoralflap is an optimal choice for complex skin defect of hand.
Objective To observe the clinical outcome of primary repair of the tissue defects of the Achilles tendon and skin by thigh anterolateral free flap and free iliotibial tract. Methods From January 2000 to January 2005, the thigh anterolateral free flap and the iliotibial tract were used to primarily repair the defects of the Achilles tendon and skin in 11 patients (7 males and 4 females, aged 6-45 years). The defects of the skin and Achilles tendon were found in 6 patients, and the defects of the Achilles tendonand skin accompanied by the fracture of the calcaneus were found in 5 patients.The defect of the Achilles skin was 6 cm×5cm-14 cm×8 cm in area. The defect of the Achilles tendon was 511 cm in lenth. The skin flap was 11 cm×6 cm-17 cm×11 cm in area.The iliotibial tract was 7-13 cm in length and 3-5 cm in width. The medial and lateral borders were sutured to from double layers for Achilles tendon reconstruction. The woundon the donor site could be sutured directly in 5 patients, and the others could be repaired with skin grafting. Results After operation, all the flaps survived and the wound healed by first intention. The followup of the 11 patients for 6 mouths-4 years (average, 30 months) revealed that according to Yin Qingshui’s scale, the result was excellent in 6 patients, goodin 4, and fair in 1. The excellent and good rate was 99%. The results showed a significant improvement in the “heel test” and the Thompson sign, and both were negative. No complications of ulceration on the heel and re-rupture of the Achiles tendon occurred. Conclusion The primary repair of the tissue defects of the Achilles tendon and skin by free grafting of the anterolateral femoral skin flap and the iliotibial tract is an effective surgical method.
Objective To investigate a method of improving design of the skin flap pedicled with descending branch of lateral femoral circumflex artery, in order to increase the accuracy of preoperative Doppler location. Methods Firstly, the interspace between rectus femoris and vastus lateralis was regarded as line A, and the point of intersection between line A and the vertical line through the midpoint of the line between anterior superior iliac spine and lateral margin of patella was point A. And then the line between the midpoint of groin and point A was regarded as line B. Based on this , the perforating point of cutaneous branch could be located by Doppler along the line B. From November 2001 to October 2004, this method was used in 38 skin flaps of 37 cases, being all males and 16-48 years old. The area of the flap ranged from 7 cm×6 cm to 24 cm×16 cm. Results All the perforatingpoint of cutaneous branch were located outward the line A. The rate that the preoperative Doppler location was consistent with the utility point of formatting skin flap was 97.4%. All the cases were followed up postoperatively 1-20 months. Among the cases, 36 skin flaps of 35 cases was successful and only 2 skin flaps partially necrosed, which healed after changing dressings or skin graft.Out of 35 cases, the sensation restoration of the skin flap was S2-S3 in 6 cases owing to the anastomosis of lateral femoral cutaneous nerve and a skin nerve of the recipient site, while that of the other cases was S0-S1. Conclusion Preoperative Doppler location and improving design of lineB can be a useful instruction for the design of skin flap pedicled with descending branch of lateral femoral circumflex artery.
ObjectiveTo investigate the feasibility of the anterolateral thigh free flap with the oblique branch in reconstructing the soft tissue defects of lower extremity. MethodsBetween June 2009 and February 2013,12 patients (including 7 males and 5 females) with soft tissue defects of lower extremity were treated with the anterolateral thigh free flap with the oblique branch,aged from 8 to 42 years (median,32 years).The locations of soft tissue defect were the dorsum of the foot in 5 cases,the ankle and foot in 4 cases,the lower leg in 2 cases,and the distal foot in 1 case.All defects were associated with exposure of tendon and bone.The size of the wound was from 15 cm×7 cm to 27 cm×12 cm.The interval of injury and operation was 1 to 7 days (mean,3.7 days).The anterolateral thigh flap was pedicled with only the oblique branch in 7 patients,and with the both descending branch and oblique branch in 5 patients,and the size of flap was from 17 cm×9 cm to 30 cm×15 cm.The donor sites were repaired by suture in 3 patients,and by skin graft in 9 patients. ResultsDistal skin flap necrosis occurred in 1 case,and was cured after dressing change and skin graft.The other flaps survived,and the donor site healed primarily.The follow-up time was from 10 months to 2 years (mean,18 months).Thinning operation was performed in 3 cases,and the other flaps recovered pain and warm sensation with good appearance. ConclusionIt is a safe and effective method to reconstruct soft tissue defects of the lower extremity with the anterolateral thigh flap pedicled with the oblique branch.
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 explore the effectiveness of anterolateral thigh bridge flap with free skin graft wrapping vascular bridge in repairing complex calf soft tissue defects. Methods The clinical data of 11 patients with complex calf soft tissue defects between April 2018 and October 2021 were retrospectively analyzed, including 9 males and 2 females, aged 11-60 years, with a median age of 39 years. There were 8 cases of calf soft tissue defect caused by traffic accident, and 3 cases of calf skin infection caused by chronic osteomyelitis. The skin and soft tissue defects ranged from 10 cm×8 cm to 35 cm×10 cm after thorough debridement and accompanied with bone and tendon exposure. There was only one main vessel in calf of 9 cases and no blood vessel that could be anastomosed with the flap vessel could be found in the recipient site of 2 cases. The anterolateral thigh skin flap (the flap size ranged from 12 cm×10 cm to 37 cm×12 cm) was taken to repair the soft tissue defect. The donor site of the flap was treated with direct suture (8 cases) or partial suture followed by skin grafting (3 cases), and the vascular bridge was wrapped with medium-thickness skin graft. Results The flaps of 11 patients survived completely without necrosis, infection, and vascular crisis. The blood supply of the vascular bridge was unobstructed and the pulse was good. The color of the medium-thickness skin graft were ruddy. All 11 patients were followed up 2-40 months, with an average of 19.4 months. The flaps healed well with the surrounding tissues without obvious exudation and color difference. The flaps had normal color and temperature, good blood supply, and soft texture. The shape of the flap and calf contour were satisfactory and the function of the limb recovered well. The donor area of thigh flap healed by first intention without obvious scar formation. The donor area of skin healed well with a longitudinal oblong scar only and the appearance was satisfactory. ConclusionThe anterolateral thigh bridge flap transplantation with free skin wrapping vascular bridge is an effective method for the treatment of complex calf soft tissue defects.
Objective To investigate the effect of different degrees of wound eversion on scar formation at the donor site of anterolateral thigh flaps by a prospective clinical randomized controlled study. MethodsAccording to the degree of wound eversion, the clinical trial was designed with groups of non-eversion (group A), eversion of 0.5 cm (group B), and eversion of 1.0 cm (group C). Patients who underwent anterolateral femoral flap transplantation between September 2021 and March 2023 were collected as study subjects, and a total of 36 patients were included according to the selection criteria. After resected the anterolateral thigh flaps during operation, the wound at donor site of each patient was divided into two equal incisions, and the random number table method was used to group them (n=24) and perform corresponding treatments. Thirty of these patients completed follow-up and were included in the final study (group A n=18, group B n=23, and group C n=29). There were 26 males and 4 females with a median age of 53 years (range, 35-62 years). The body mass index was 17.88-29.18 kg/m2 (mean, 23.09 kg/m2). There was no significant difference in the age and body mass index between groups (P>0.05). The incision healing and scar quality of three groups were compared, as well as the Patient and Observer Scar Assessment Scale (POSAS) score [including the observer component of the POSAS (OSAS) and the patient component of the POSAS (PSAS)], Vancouver Scar Scale (VSS) score, scar width, and patient satisfaction score [visual analogue scale (VAS) score]. Results In group C, 1 case had poor healing of the incision after operation, which healed after debridement and dressing change; 1 case had incision necrosis at 3 months after operation, which healed by second intention after active dressing change and suturing again. The other incisions in all groups healed by first intention. At 6 months after operation, the PSAS, OSAS, and patient satisfaction scores were the lowest in group B, followed by group A, and the highest in group C. The differences between the groups were significant (P<0.05). There was no significant difference between the groups in the VSS scores and scar widths (P>0.05). ConclusionModerate everted closure may reduce the formation of hypertrophic scars at the incision site of the anterior lateral thigh flap to a certain extent.
Objective To investigate the application of three-dimensional (3D) reconstruction technology in preoperative planning for anterolateral thigh flap transplantation. Methods A retrospective analysis was performed on the clinical data of 11 patients with skin and soft tissue defects treated with free anterolateral thigh flap transplantation between January 2022 and January 2024, who met the selection criteria. There were 8 males and 3 females, aged 34-70 years (mean, 50.8 years). Causes of injury included traffic accidents (4 cases), machine trauma (3 cases), heavy object crush injury (3 cases), and tumor (1 case). The time from injury to flap repair ranged from 7 to 35 days (mean, 23 days). Preoperatively, the patients’ CT angiography images were imported into Mimics21.0 software. Through the software’s segmentation, editing, and reconstruction functions, 3D visualization and measurement of the vascular pedicle, perforators, wound size, and morphology were performed to plan the flap harvest area, contour, vascular pedicle length, and anastomosis site, guiding the implementation of flap transplantation. Results The length of the vascular pedicle needed by the recipient site was (9.1±0.9) cm, and the maximum length of vascular pedicle in the donor area was (10.6±0.6) cm, with a significant difference (t=4.230, P<0.001). The operation time ranged from 220 to 600 minutes (mean, 361.9 minutes). One patient had poor wound healing at the recipient site, which healed after dressing changes. All 11 flaps survived well without necrosis. All patients were followed up 6-19 months (mean, 11 months). Four flaps showed bulkiness and underwent secondary debulking; the remaining flaps had good contour and soft texture. The donor sites healed well, with no sensory disturbance around the incision or complications such as walking impairment.ConclusionPreoperative planning using CT angiography data and 3D reconstruction software can effectively determine the flap area, contour, required vascular pedicle length, anastomosis site, and whether vascular grafting is needed, thereby guiding the successful execution of anterolateral thigh flap transplantation.