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 feasibility and effectiveness of repairing temporal skin and soft tissue defects and reconstructing sideburns with superficial temporal artery composite perforator flap.MethodsBetween January 2018 and January 2019, 12 patients with temporal tumors were treated. There were 5 males and 7 females with an average age of 51 years (range, 37-68 years). There were 8 cases of basal cell carcinoma and 4 cases of squamous cell carcinoma. The disease duration ranged from 3 months to 4 years (mean, 13 months). The area of residual wound after tumor resection was 3.8 cm×2.5 cm-5.2 cm×3.5 cm. The superficial temporal artery composite perforator flap was designed. The hairy superficial temporal artery frontal branch perforator flap was used to repair the hair growing area and reconstruct the sideburn; and the area of the flap was 2.5 cm×1.0 cm-4.2 cm×3.0 cm. And the superficial temporal artery descending branch perforator flap without hair was used to repair the hair-free area; and the area of the flap was 2.5 cm×1.5 cm-7.5 cm×4.0 cm. The donor sites were sutured directly.ResultsAll flaps survived, and the incisions at the donor and recipient sites healed by first intention. Eleven patients were followed up 6-12 months (mean, 9 months). The incisions were not obvious. The flaps were flat and the color of the flaps were not significantly different from the surrounding skin. The reconstructed sideburns were consistent with the healthy side and the facial appearance was satisfactory. No local tumor recurred during follow-up.ConclusionFor the temporal skin and soft tissue defects involving the sideburn, the superficial temporal artery composite perforator flap can be used to repair subunits with different aesthetic characteristics in sections and has the advantages of operating simply, obtaining satisfied facial appearance, and little effect on the donor site.
Objective To study the influence of the pedicle length on the perforator flaps in hemodynamics. Methods Four mature swine (2 males, 2 females; weight, 23.0±2.0 kg) were applied to the experiment.Two transverse abdominal skin flaps, based on the superior epigastric pedicle orits rectus abdominal muscle perforators, were designed; each swine was used as its own control. At 2 hours and 1, 2, 3 weeks postoperatively, the skin paddle perfusion and the blood stream velocity in the superior epigastric artery were measured by the Laser Doppler Flowmeter and the Color Doppler Ultrasound, respectively. Flap survival percentages were calculated by the grid method at 1 week postoperatively. The swine were euthanatized, and they underwent angiography at 3 weeks postoperatively. Results At 2 hours and 1 week after operation, edema of the perforator flaps with the superior epigastric pedicle was more severe than that of the skin flaps with the rectus abdominal muscle perforator, and the skin perfusion had a statistical difference between the two kindsof flaps (Plt;0.05). The skin paddle viability and the skin perfusion had nostatistical difference after the first week postoperatively (Pgt;0.05). At 2hours and 1 week after operation, the blood stream velocity in the superior epigastric artery in the perforator flap with the superior abdominal artery pediclewas reduced, and there was a statistical difference between the two kinds of flaps (Plt;0.05); however, the velocity was almost the same after the first week postoperatively. Conclusion The excessively long pedicle of the perforator skin flap may have an unfavorable influence on the flap perfusion,especially during the first week after operation, because of the vascular compromise during the dissection of the long pedicle. The blood vessel anastomosis atthis level of the blood vessels may have no relationship with the perforator flap in hemodynamics. This study can also indicate that the ligation of the branches in the recipient vessels cannot make the perforator flaps overperfused.
Objective To discuss the feasibil ity of repairing soft tissue defects of lower extremity with a distally based posterior tibial artery perforator cross-bridge flap or a distally based peroneal artery perforator cross-bridge flap. Methods Between August 2007 and February 2010, 15 patients with soft tissue defect of the legs or feet were treated. There were 14 males and 1 female with a mean age of 33.9 years (range, 25-48 years). The injury causes included traffic accident in 8 cases, crush injury by machine in 4 cases, and crush injury by heavy weights in 3 cases. There was a scar (22 cm × 8 cm atsize) left on the ankle after the skin graft in 1 patient (after 35 months of traffic accident). And in the other 14 patients, the defect locations were the ankle in 1 case, the upper part of the lower leg in 1 case, and the lower part of the lower leg in 12 cases; the defect sizes ranged from 8 cm × 6 cm to 26 cm × 15 cm; the mean interval from injury to admission was 14.8 days (range, 4-28 days). Defects were repaired with distally based posterior tibial artery perforator cross-bridge flaps in 9 cases and distally based peroneal artery perforator cross-bridge flaps in 6 cases, and the flap sizes ranged from 10 cm × 8 cm to 28 cm × 17 cm. The donor sites were sutured directly, but a spl it-thickness skin graft was used in the middle part. The pedicles of all flaps were cut at 5-6 weeks postoperatively. Results Distal mild congestion and partial necrosis at the edge of the skin flap occurred in 2 cases and were cured after dressing change, and the other flaps survived. After cutting the pedicles, all flaps survived, and wounds of recipient sites healed by first intention. Incisions of the donor sites healed by first intention, and skin graft survived. Fifteen patients were followed up 7-35 months with an average of 19.5 months. The color and texture of the flaps were similar to these of the reci pient site. According to American Orthopaedic Foot and Ankle Society (AOFAS) ankle and hindfoot score system, the mean score was 87.3 (range, 81-92). Conclusion A distally based posterior tibial artery perforator cross-bridge flap or a distally based peronealartery perforator cross-bridge flap is an optimal alternative for the reconstruction of the serious tissue defect of ontralateral leg or foot because of no microvascular anastomosis necessary, low vascular crisis risk, and high survival rate.
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.
ObjectiveTo discuss the effectiveness of deep inferior epigastric artery perforator flap to repair perineal and perianal cicatricial contracture.
MethodsBetween March 2007 and December 2013, 23 patients with perineal and perianal cicatricial contracture were treated with deep inferior epigastric artery perforator flap. There were 15 males and 8 females, aged from 21 to 62 years (mean, 42 years). Burn depth was III degree. The burning scars involved in the fascia, even deeper, which was rated as peripheral type (mild stenosis of the anal region and perianal cicatricial contracture) in 13 cases and as central type (severe stenosis of the anal region and anal canal with shift or defect of external genitalia) in 10 cases. All patients had limited hip abduction and squatting. Repair operation was performed at 3 months to 2 years (mean, 6 months) after wound healing. The size of soft tissue defects ranged from 10 cm×6 cm to 28 cm×13 cm after scar excision and release. The size of flaps ranged from 12 cm×7 cm to 30 cm×15 cm. The donor site was sutured directly in 16 cases and repaired by autograft of skin in 7 cases.
ResultsThe flap had distal necrosis, distal cyanosis, and spotted necrosis in 1 case, 2 cases, and 1 case respectively, which were cured after symptomatic treatment;the other flaps survived and wound healed primarily. Twenty-one patients were followed up 6 months to 2 years (mean, 1 year). Nineteen patients had good appearance of the perinea and position of external genitalia, normal function of defecation function;stenosis of the anal region was relived, and the flaps had good texture and elasticity. Linear scar contracture was observed at the edge of flap in 2 cases, and the appearance of the perineum was restored after Z plasty. The hip abduction reached 30-40°. No abdominal hernia was found at donor site.
ConclusionDeep inferior epigastric artery perforator flap has stable blood supply and flexible design, which is similar to the perianal and perineal tissues. The good effectiveness can be obtained to use this flap for repair of perineal and perianal cicatricial contracture.
ObjectiveTo explore the effectiveness of free-style perforator pedicled propeller flap to repair the wound after extensive resection of skin malignant tumor on the thigh.MethodsBetween December 2016 and June 2019, 12 patients with skin malignant tumor on the thigh were treated. There were 9 males and 3 females, aged from 8 to 65 years (median, 38.5 years). The etiologies included basal cell carcinoma in 3 cases, squamous cell carcinoma in 7 cases, fibrosarcoma in 1 case, and malignant melanoma in 1 case. The disease duration ranged from 5 months to 10 years (median, 7.5 years). Color Doppler ultrasound was used to detect and mark at least one perforator vessel before operation. After extensive resection, the size of wound ranged from 5.0 cm×3.5 cm to 8.5 cm×6.5 cm. In the range of 1-3 cm from the edge of the lesion, the perforator vessels were explored again from the deep surface of the deep fascia to confirm and mark. The perforator vessel with diameter greater than 0.5 mm and closest to the edge of the lesion was taken as the rotation point of the flap. According to the wound size and shape, the free-style perforator pedicled propeller flap in size of 8.0 cm×3.5 cm to 12.5 cm×6.0 cm was designed. The wound was repaired with the big blade of the flap. The donor site was closed directly with the aid of the small blade.ResultsThe distal part of the skin flap was necrosis after operation, and healed after symptomatic treatment such as dressing change; the other flaps survived successfully and the wounds healed by first intention. All incisions at the donor site healed by first intention. All patients were followed up 5-24 months (mean, 10.2 months). During the follow-up, there was no recurrence of tumor. The flap had good elasticity and texture with no obvious swelling or scar hyperplasia, and the appearance was satisfactory; the hip and knee joint activities were normal.ConclusionBased on the extensive skin blood supply and abundant perforator vessels of the thigh, the free-style perforator pedicled propeller flap is an ideal flap for repairing small or medium wound after extensive resection of skin malignant tumor on the thigh.
Objective To study the hemodynamic characteristics of concealed perforator flap in mini-pigs by ultrasonic Doppler technique. Methods Seven 7-month-old mini-pigs, weighing 20-25 kg, were included in the study. The saphenous artery perforator flap (group A, n=4), saphenous artery concealed perforator flap (group B, n=5), and saphenous artery concealed perforator flap combined with sarcolemma (group C, n=5) models were established randomly on both hind limbs of pigs. The pigs and flap survival conditions were observed after operation. The percentage of flap survival area was calculated by Photoshop CS5 software at 5 days after operation. Ultrasonic Doppler technique was performed on the flaps before operation and at immediate, 3 days, and 5 days after operation to record the hemodynamic changes of the flaps. The hemodynamic indicators of saphenous artery (inner diameter, peak systoli velocity, resistance index, and blood flow) and saphenous vein (inner diameter, maximum velocity, and blood flow) were recorded. Results At 1 day after operation, 1 pig died of infection, and the rest survived until the experiment was completed. Finally, the 3 flaps of group A, 4 of group B, and 5 of group C were included in the study. The flaps of the 3 groups all showed swelling after operation, which was most significant at 3 days. At 3 days after operation, the flaps in group B showed partial bruising and necrosis. At 5 days after operation, the flaps in groups A and C were basically alive, and the necrosis area of flap in group B increased further. The percentage of flap survival area in groups A, B, and C were 99.7%±0.5%, 74.8%±26.4%, and 100%, respectively. The percentage of flap was significantly lower in group B than in groups A and C (P<0.05). There was no significant difference between groups A and C (P>0.05). There were significant differences in the hemodynamic indicators of saphenous artery and vein between different time points in 3 groups (P<0.05). There was no significant difference in each indicator between groups at each time point (P>0.05). Conclusion Both the saphenous artery concealed perforator flap and the flap combined with sarcolemma have stable blood flow, but the survival area of the latter was better than the former.
