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.
Objective To conduct anatomical study on the iliac crest chimeric tissue flap and summarize its effectiveness of clinical application in repairing limb wounds. Methods Latex perfusion and anatomical study were performed on 6 fresh adult cadaver specimens with 12 sides, to observe the initial location, distribution, quantity, and direction of the common circumflexa iliac artery, the deep circumflexa iliac artery, and the superficial circumflexa iliac artery, and to measure their initial external diameter. Between December 2020 and September 2022, the iliac crest chimeric tissue flap repair was performed on 5 patients with soft tissue of limbs and bone defects. There were 3 males and 2 females, with an average age of 46 years (range, 23-60 years). Among them, there were 3 cases of radii and skin soft tissue defects and 2 cases of tibia and skin soft tissue defects. The length of bone defects was 4-8 cm and the area of skin soft tissue defects ranged from 9 cm×5 cm to 15 cm×6 cm. The length of the iliac flap was 4-8 cm and the area of skin flap ranged from 12.0 cm×5.5 cm to 16.0 cm×8.0 cm. The donor sites were directly sutured. Results Anatomical studies showed that there were 10 common circumflex iliac arteries in 5 specimens, which originated from the lateral or posterolateral side of the transition between the external iliac artery and the femoral artery, with a length of 1.2-1.6 cm and an initial external diameter of 0.8-1.4 mm. In 1 specimen without common circumflexa iliac artery, the superficial and deep circumflex iliac arteries originated from the external iliac artery and the femoral artery, respectively, while the rest originated from the common circumflex iliac artery. The length of superficial circumflex iliac artery was 4.6-6.7 cm, and the initial external diameter was 0.4-0.8 mm. There were 3-6 perforator vessels along the way. The length of deep circumflex iliac artery was 7.8-9.2 cm, and the initial external diameter was 0.5-0.7 mm. There were 3-5 muscular branches, 4-6 periosteal branches, and 2-3 musculocutaneous branches along the way. Based on the anatomical observation results, all iliac crest chimeric tissue flaps were successfully resected and survived after operation. The wounds at recipient and donor sites healed by first intention. All patients were followed up 8-24 months, with an average of 12 months. The tissue flap has good appearance and soft texture. X-ray film reexamination showed that all the osteotomy healed, and no obvious bone resorption was observed during follow-up. Conclusion The common circumflex iliac artery, deep circumflex iliac artery, and superficial circumflex iliac artery were anatomically constant, and it was safe and reliable to use iliac crest chimeric tissue flap in repairing the soft tissue and bone defects of limbs.
Objective To summarize the effect of free skin graft for repairing scrotal avulsion injury, and to investigate the repair impact of the method on spermatogenesis. Methods Between June 2001 and June 2010, 8 cases of complete avulsion injury of the scrotal skin were treated with the free skin graft, aged 22 to 64 years (mean, 29 years). The causes of injury included machine twisting in 4 cases, animal attack in 3 cases, and traffic accident in 1 case. The time between injury and hospital ization was 1-7 hours (mean, 3.5 hours). Five cases compl icated by avulsion of penile skin, 3 by perineal lacerationwith exposure of testes and spermatic cord, and 1 by avulsion of leg skin. Results After 10 days, 80% to 95% grafted skinsurvived. The reconstructed scrotum had shrinks and the wound healed by first intention after dressing change. Eight patients were followed up 12 to 24 months (mean, 16 months). At last follow-up, the patients had relaxed and droop scrotum, and penile erection was normal. Semen qual ity analysis showed: semen volume of 2-6 mL (mean, 4.2 mL); complete l iquefaction with l iquefaction time of 15-30 minutes (mean, 23 minutes); sperm density of (12-27) × 106/mL (mean, 16 × 106/mL); sperm motil ity of 45%-65% (mean, 56%); and sperm motil ity (grade A) of 25%-42% (mean, 32%). Conclusion Complete avulsion of the scrotal skin can be repaired by free skin graft, which has no significant effect on spermatogenesis.
Objective To investigate the characteristics of blood supply of popliteal fossa middle artery pedicled flaps and the feasibility of reconstruction of postburn popliteal fossa contractures using the flaps in children. Methods Between January 2008 and October 2010, 6 cases of postburn popliteal fossa contractures were recontructed using popliteal fossa middle artery pedicled flaps. Of them, 2 were boys and 4 were girls, aged from 2 years and 2 months to10 years. All burns were caused by hot water. The wound ranged from 5 cm × 4 cm to 10 cm × 8 cm after scar relaxation. The size of the flap ranged from 6 cm × 4 cm to 11 cm × 9 cm. Donor sites were covered with split-thickness skin graft in 5 cases, and sutured directly in 1 case. Results All the flaps and the skingraft survived; no vascular crisis or flap necrosis occurred. All incisions at donors and wounds healed by first intention. All patients were followed up 12-24 months. The color, texture, and appearance of the flaps were good. Hyperplastic scar was found at incision of popliteal fossa in 1 case at 6 months after operation; the range of motion (ROM) of the knee joint was 0-175°, and no obvious change was observed at 15 months after operation. The others had no functional disturbance of the knee joints or claudication; the ROM of the knee joint was 0-180°. Conclusion The popliteal fossa middle artery pedicled flap has reliable blood supply, simple operative procedure, and good results in reconstruction of popliteal fossa contracture.
ObjectiveTo investigate the effectiveness of lateral circumflex femoral artery chimeric flap transplantation in repair of complex wounds of foot and ankle.MethodsA retrospective study was conducted to analyze the clinical data of 20 patients with complex wounds of foot and ankle treated with lateral circumflex femoral artery chimeric flap between June 2017 and June 2020. There were 14 males and 6 females with an average age of 42.8 years (range, 21-65 years). Among them, 8 cases had dorsalis pedis tendon defect with or without bone exposure, 4 cases had partial or total Achilles tendon defect without bone exposure, and 8 cases had deep cavity and bone exposure. The wound area ranged from 10 cm×6 cm to 21 cm×11 cm. The time from injury to operation ranged from 6 to 22 days, with an average of 9.4 days. The lateral femoral circumflex artery flap was used in 6 cases with fascia lata flap, 6 cases with rectus femoris aponeurosis flap, and 8 cases with lateral femoral muscle flap. The flap area ranged from 12.0 cm×6.5 cm to 35.0 cm×7.5 cm. All flap donor sites were sutured directly. The survival, appearance, texture, sensation of the flap, and complications of the donor site were observed. The foot and ankle function was evaluated by Kofoed score.ResultsAll patients were followed up 8-24 months (mean, 14.2 months). On the 3rd day after operation, 1 case had partial necrosis of 1 flap with fascia lata flap and healed after dressing change; 1 case of chimeric muscle flap developed venous crisis at 12 hours after operation; the chimeric flaps survived successfully in the other 18 patients and the wounds were primary healing. The color and texture of the flaps were good, the flaps recovered protective sensation. Only linear scar remained in the donor site of thigh. There was no sensory disturbance around the incision or walking disturbance. The Kofoed score of the foot and ankle function at last follow-up was 75-96, with an average of 89.8. Among them, 15 cases were excellent, 4 cases were good, and 1 case was qualified. The excellent and good rate was 95.0%.ConclusionThe application of lateral circumflex femoral artery chimeric flap can accurately and stereoscopically repair the complex wounds of foot and ankle and achieve satisfactory effectiveness.
Objective Inducing human amniotic membrane mesenchymal stem cells (hAMSCs) to Schwann cells-like cells (SCs-like cells) in vitro, and to evaluate the efficacy of transplantation of hAMSCs and SCs-like cells on nerves regeneration of the rat flaps. Methods hAMSCs were isolated from placenta via two-step digestion and cultured by using trypsin and collagenase, then identified them by flow cytometry assay and immunofluorescence staining. The 3rd generation of hAMSCs cultured for 6 days were induced to SCs-like cells in vitro; at 19 days after induction, the levels of S-100, p75, and glial fibrillary acidic protein (GFAP) were detected by immunofluorescence staining, Western blot, and real-time fluorescence quantitative PCR (qPCR). The levels of brain-derived neurotrophic factor (BDNF) and nerve growth factor (NGF) were measured by ELISA in the supernatant of the 3rd generation of hAMSCs cultured for 6 days and the hAMSCs induced within 19 days. In addition, 75 female Sprague Dawley rats were taken to establish the rat denervated perforator flap model of the abdominal wall, and were divided into 3 groups (n=25). The 3rd generation of hAMSCs (1×106 cells) in the proliferation period of culturing for 6 days, the SCs-like cells (1×106 cells), and equal volume PBS were injected subcutaneously in the skin flap of the rat in groups A, B, and C, respectively. At 2, 5, 7, 9, and 14 days after transplantation, 5 rats in each group were killed to harvest the flap frozen sections and observe the positive expression of neurofilament heavy polypeptide antibody (NF-01) by immunofluorescence staining. Results The cells were identified as hAMSCs by flow cytometry assay and immunofluorescence staining. The results of immunofluorescence staining, Western blot, qPCR showed that the percentage of positive cells, protein expression, and gene relative expression of S-100, p75, and GFAP in SCs-like cells group were significantly higher than those in hAMSCs group (P<0.05). The results of ELISA demonstrated that the expression of BDNF and NGF was significantly decreased after added induced liquid 1, and the level of BDNF and NGF increased gradually with the induction of liquids 2 and 3, and the concentration of BDNF and NGF was significantly higher than that of hAMSCs group (P<0.05). Immunofluorescence staining showed that the number of regenerated nerve fibers in group B was higher than that in groups A and C after 5-14 days of transplantation. Conclusion The hAMSCs can be induced into SCs-like cells with the proper chemical factor regulation in vitro, and a large number of promoting nerve growth factor were released during the process of differentiation, and nerve regeneration in flaps being transplanted the SCs-like cells was better than that in flaps being transplanted the hAMSCs, which through a large number of BDNF and NGF were released.