Objective:To explore the clinical effect on the treatment of radiation induced deep ulcers in the inguinal region with ipsilateral anterolateral thigh chimeric perforator flap.Methods:From March 2020 to March 2024, retrospective analysis of 8 patients with radiation induced deep ulcers in the inguinal region were treated with ipsilateral anterolateral thigh chimeric perforator flap in the Medical Centre of Burn Plastic and Wound Repair, the First Affiliated Hospital of Nanchang University. All ulcers induced by radiation were caused by postoperative radiotherapy in the inguinal region, of which 4 were of vulvar or penile cancer, 2 of urinary tract tumour, 1 of inguinal protuberant dermatofibrosarcoma and 1 of myofibroblastic sarcoma in lower abdominal wall. The course of the radiation induced ulcer was 0.5-11.0 years, with an average of 2.9 years. The sizes of the ulcerative wound were 2.5 cm × 3.0 cm - 5.5 cm × 7.5 cm. Preoperative biopsies of the tissues around wound and pelvic CT scans were performed to preliminarily exclude a tumour recurrence or an ulcerative malignancy, as well as to confirm the depth of radiation ulcer. The wound size after debridement was 4.5 cm × 6.0 cm-13.5 cm × 19.0 cm, with a depth of 2.0-4.0 cm. An ipsilateral anterolateral thigh chimeric perforator flap was transferred to reconstruct the wound, after the wound edges were cleared from tumour through intraoperative frozen section examinations. The flaps were 5.5 cm × 7.0 cm - 14.0 cm × 20.0 cm in size, with the volumes of muscle flap at 7.0 cm × 4.0 cm × 3.0 cm - 14.0 cm × 7.0 cm × 3.0 cm. After having the deep defect at the base of wound filled with a muscle flap, the wound surface was covered by the flap. Four patients had direct suture of the donor sites and 4 received a thick skin graft of head or contralateral thigh grafting. Survival of the anterolateral thigh chimeric perforator flaps and the healing of donor sites were observed after surgery through scheduled postoperative follow-up by the visits of outpatient clinic and distant interviews via telephone, WeChat or the internet hospital.Results:One of the ipsilateral anterolateral thigh chimeric perforator flaps had venous occlusion within 24 hours after surgery. Emergency surgical exploration revealed that it was caused by a haematoma compression due to haemorrhage in the muscle flap. Further debridement, haemostasis and suture were performed, then the wound healed. The rest of 7 flaps all survived. All donor sites healed primarily. The postoperative follow-up lasted for 5-17 months with all of the 8 patients, at 8.4 months in average. Both the donor and recipient sites healed well without recurrence of radiation ulcer in the affected sites. The appearance and texture of the flaps were good, and there was no obvious functional impairment at the donor sites.Conclusion:The treatment of radiation induced deep ulcer in the inguinal region with an ipsilateral anterolateral thigh chimeric perforator flap has shown good results, without recurrence of ulcer after surgery. The appearance and texture of the affected sites are good, and there is no secondary functional impairment at the donor site.

Objective:To explore the application strategies and clinical effects of superior gluteal artery perforator tissue flaps in repairing stage Ⅳ pressure ulcers in the sacrococcygeal region.Methods:This study was a retrospective observational study. From July 2019 to April 2024, 89 patients with stage Ⅳ pressure ulcers in the sacrococcygeal region who met the inclusion criteria were admitted to the First Affiliated Hospital of Nanchang University, including 59 males and 30 females, aged 21 to 84 years. There were 89 sacrococcygeal pressure ulcers, with an area of 5.0 cm×4.0 cm-21.0 cm×21.0 cm after debridement. According to the shape, size, and depth of the wounds after debridement, combined with the elasticity and texture of the skin around the wounds, and the principle of minimizing damage to the donor area, the appropriate forms of superior gluteal artery perforator tissue flaps were cut for wound repair in the following three conditions. (1) For wounds with a round shape, an area of 5.0 cm×5.0 cm-21.0 cm×21.0 cm, and a depth of 1.0-3.5 cm, the superior gluteal artery perforator propeller flap or myocutaneous flap, bilobed superior gluteal artery perforator relay flap, and bilateral superior gluteal artery perforator rotational flap were used. (2) For wounds with an oval shape, an area of 5.0 cm×4.0 cm-18.5 cm×10.5 cm, and a depth of 1.0-3.0 cm, the superior gluteal artery perforator propeller flap or myocutaneous flap, unilateral superior gluteal artery perforator propeller flap combined with contralateral superior gluteal artery perforator V-Y advanced flap or keystone flap were used. (3) For wounds with a fusiformis shape, an area of 7.0 cm×4.0 cm-17.5 cm×6.0 cm, and a depth of 1.5-5.0 cm, the unilateral or bilateral superior gluteal artery perforator V-Y advanced flap, superior gluteal artery perforator keystone flap, or superior gluteal artery perforator keystone flap combined with gluteus maximus muscle flap were used. In this group of patients, a total of 40 superior gluteal artery perforator propeller flaps (with an resection area of 11.0 cm×6.0 cm-17.0 cm×11.0 cm), 22 superior gluteal artery perforator propeller myocutaneous flaps (with an resection area of 10.0 cm×5.0 cm-14.0 cm×8.0 cm), 7 bilobed superior gluteal artery perforator relay flaps (with a main flap resection area of 5.5 cm×5.5 cm-18.0 cm×11.5 cm and a side flap resection area of 4.5 cm×3.0 cm-11.0 cm×6.5 cm), 5 bilateral superior gluteal artery perforator rotational flaps (with a total resection area of 20.0 cm×16.0 cm-26.0 cm×21.0 cm on both sides), 14 superior gluteal artery perforator V-Y advanced flaps (with an resection area of 12.0 cm×10.0 cm-18.0 cm×18.0 cm), 13 superior gluteal artery perforator keystone flaps (with an resection area of 13.0 cm×6.5 cm-19.0 cm×18.0 cm), and 3 gluteus maximus muscle flaps (with an resection area of 8.0 cm×3.0 cm-15.0 cm×4.5 cm). The donor area wounds were all directly sutured. The survival of tissue flaps was observed and the incidence rate of delayed wound healing in the reception area was calculated, and wound healing in the donor area was observed. The appearance and texture of tissue flaps and recurrence of pressure ulcers were followed up.Results:After surgery, all bilateral superior gluteal artery perforator rotational flaps, superior gluteal artery perforator V-Y advanced flaps, superior gluteal artery perforator keystone flaps, and gluteus maximus muscle flaps survived well. There were 6 cases of delayed wound healing in the reception area after surgery, with an incidence rate of 6.7% (6/89). Two patients had incision dehiscence in the donor area wounds due to postoperative bleeding, the wounds healed after debridement, vacuum sealing drainage, and dressing change. The wounds in the donor area of the remaining patients healed well. Six patients were lost to follow-up. Eighty-three patients were followed up for 3-48 months, of whom 4 patients died. Among the remaining 79 patients, 3 cases had pressure ulcers recur due to improper nursing, while the rest of the patients had tissue flaps with good appearance and soft texture and no recurrence of pressure ulcers.Conclusions:Based on the characteristics of wound shape, size, and depth after debridement of stage Ⅳ pressure ulcers in the sacrococcygeal region, individualized selection of flap, myocutaneous flap, or a combination of flap and gluteus maximus muscle flap based on the perforating branch of the superior gluteal artery perforator can achieve good clinical repair results. The postoperative tissue flap survived well, with a good appearance, soft texture, and less recurrence of pressure ulcers.

Objective:To investigate the feasibility and clinical outcomes of using the deep inferior epigastric perforator flap to repair stage Ⅳ pressure ulcers in elderly patients with the femoral trochanter.Methods:Retrospective analysis of clinical data of elderly patients with stage Ⅳ pressure ulcers of the femoral trochanter treated at the Medical Center of Burn Plastic and Wound Repair, the First Affiliated Hospital of Nanchang University from May 2018 to May 2023 using the deep inferior epigastric perforator flap.The deep inferior epigastric perforator flap was designed on the same side of the abdomen based on the preoperative detection of the paraumbilical perforating branch.The axis of the inferior epigastric artery was determined by the line connecting the femoral artery pulsation point at the inguinal ligament and the obvious paraumbilical perforating branch point. The axis of the skin flap was determined by the line connecting the obvious paraumbilical perforating branch point and the subscapular angle. Combined with the situation of the sinus after pressure ulcer debridement and the range of skin and soft tissue defects, the inferior epigastric artery perforating branch skin flap was cut and repaired. The pedicle of the inferior epigastric artery was freed to the required length according to the location of the pressure ulcer, and the wound was transferred and repaired through a subcutaneous tunnel. The donor area was directly pulled and sutured. The survival of the skin flap and the healing of the donor site wound after surgery were observed, and the recurrence of pressure ulcers, the appearance and texture of the skin flap, and the recovery of the donor site were followed up regularly.Results:A total of 11 patients were included, including 7 males and 4 females; age ranged from 66 to 83 years old, with an average of 72.1 years old. There were total of 11 pressure ulcers in the femoral trochanter, with an area of 5.0 cm × 3.0 cm-13.0 cm ×6.0 cm before debridement and an area of 8.0 cm × 5.0 cm-16.0 cm × 8.0 cm after debridement. The deep inferior epigastric perforator flap was used to repair the wound. The flap was cut with an area of 10.0 cm × 6.0 cm-18.0 cm × 9.0 cm, and the length of the blood vessels in the flap pedicle was 12-16 cm, with an average of 14 cm. After surgery, 9 of the 11 flaps survived completely. One skin flap developed purplish discoloration at the distal end 24 hours after surgery, which was relieved by removing the suture at the site with high tension at the wound edge. One skin flap also showed slight necrosis at the distal end. The flap was removed under local anesthesia at the bedside of the ward, and the surgical wound was directly sutured. After dressing change, it healed. The wounds in the donor area all healed well. Follow up for 3-15 months postoperatively, with an average of 11 months, showed no recurrence of pressure ulcers in all patients. The skin flap had a soft texture, and its color and appearance were similar to those of the surrounding skin. No abdominal wall hernia was observed in the inferior epigastric donor area.Conclusion:The deep inferior epigastric perforator flap has a long vascular pedicle, reliable blood supply, sufficient tissue volume for cutting, no recurrence of pressure ulcers after surgery, good appearance and texture of the affected area, and no secondary abdominal wall hernia in the donor site. It is an effective method for repairing stage Ⅳ pressure ulcers of the femoral trochanter in elderly patients.

Objective:To explore the clinical effect on the treatment of radiation induced deep ulcers in the inguinal region with ipsilateral anterolateral thigh chimeric perforator flap.Methods:From March 2020 to March 2024, retrospective analysis of 8 patients with radiation induced deep ulcers in the inguinal region were treated with ipsilateral anterolateral thigh chimeric perforator flap in the Medical Centre of Burn Plastic and Wound Repair, the First Affiliated Hospital of Nanchang University. All ulcers induced by radiation were caused by postoperative radiotherapy in the inguinal region, of which 4 were of vulvar or penile cancer, 2 of urinary tract tumour, 1 of inguinal protuberant dermatofibrosarcoma and 1 of myofibroblastic sarcoma in lower abdominal wall. The course of the radiation induced ulcer was 0.5-11.0 years, with an average of 2.9 years. The sizes of the ulcerative wound were 2.5 cm × 3.0 cm - 5.5 cm × 7.5 cm. Preoperative biopsies of the tissues around wound and pelvic CT scans were performed to preliminarily exclude a tumour recurrence or an ulcerative malignancy, as well as to confirm the depth of radiation ulcer. The wound size after debridement was 4.5 cm × 6.0 cm-13.5 cm × 19.0 cm, with a depth of 2.0-4.0 cm. An ipsilateral anterolateral thigh chimeric perforator flap was transferred to reconstruct the wound, after the wound edges were cleared from tumour through intraoperative frozen section examinations. The flaps were 5.5 cm × 7.0 cm - 14.0 cm × 20.0 cm in size, with the volumes of muscle flap at 7.0 cm × 4.0 cm × 3.0 cm - 14.0 cm × 7.0 cm × 3.0 cm. After having the deep defect at the base of wound filled with a muscle flap, the wound surface was covered by the flap. Four patients had direct suture of the donor sites and 4 received a thick skin graft of head or contralateral thigh grafting. Survival of the anterolateral thigh chimeric perforator flaps and the healing of donor sites were observed after surgery through scheduled postoperative follow-up by the visits of outpatient clinic and distant interviews via telephone, WeChat or the internet hospital.Results:One of the ipsilateral anterolateral thigh chimeric perforator flaps had venous occlusion within 24 hours after surgery. Emergency surgical exploration revealed that it was caused by a haematoma compression due to haemorrhage in the muscle flap. Further debridement, haemostasis and suture were performed, then the wound healed. The rest of 7 flaps all survived. All donor sites healed primarily. The postoperative follow-up lasted for 5-17 months with all of the 8 patients, at 8.4 months in average. Both the donor and recipient sites healed well without recurrence of radiation ulcer in the affected sites. The appearance and texture of the flaps were good, and there was no obvious functional impairment at the donor sites.Conclusion:The treatment of radiation induced deep ulcer in the inguinal region with an ipsilateral anterolateral thigh chimeric perforator flap has shown good results, without recurrence of ulcer after surgery. The appearance and texture of the affected sites are good, and there is no secondary functional impairment at the donor site.

Objective:To explore the application strategies and clinical effects of superior gluteal artery perforator tissue flaps in repairing stage Ⅳ pressure ulcers in the sacrococcygeal region.Methods:This study was a retrospective observational study. From July 2019 to April 2024, 89 patients with stage Ⅳ pressure ulcers in the sacrococcygeal region who met the inclusion criteria were admitted to the First Affiliated Hospital of Nanchang University, including 59 males and 30 females, aged 21 to 84 years. There were 89 sacrococcygeal pressure ulcers, with an area of 5.0 cm×4.0 cm-21.0 cm×21.0 cm after debridement. According to the shape, size, and depth of the wounds after debridement, combined with the elasticity and texture of the skin around the wounds, and the principle of minimizing damage to the donor area, the appropriate forms of superior gluteal artery perforator tissue flaps were cut for wound repair in the following three conditions. (1) For wounds with a round shape, an area of 5.0 cm×5.0 cm-21.0 cm×21.0 cm, and a depth of 1.0-3.5 cm, the superior gluteal artery perforator propeller flap or myocutaneous flap, bilobed superior gluteal artery perforator relay flap, and bilateral superior gluteal artery perforator rotational flap were used. (2) For wounds with an oval shape, an area of 5.0 cm×4.0 cm-18.5 cm×10.5 cm, and a depth of 1.0-3.0 cm, the superior gluteal artery perforator propeller flap or myocutaneous flap, unilateral superior gluteal artery perforator propeller flap combined with contralateral superior gluteal artery perforator V-Y advanced flap or keystone flap were used. (3) For wounds with a fusiformis shape, an area of 7.0 cm×4.0 cm-17.5 cm×6.0 cm, and a depth of 1.5-5.0 cm, the unilateral or bilateral superior gluteal artery perforator V-Y advanced flap, superior gluteal artery perforator keystone flap, or superior gluteal artery perforator keystone flap combined with gluteus maximus muscle flap were used. In this group of patients, a total of 40 superior gluteal artery perforator propeller flaps (with an resection area of 11.0 cm×6.0 cm-17.0 cm×11.0 cm), 22 superior gluteal artery perforator propeller myocutaneous flaps (with an resection area of 10.0 cm×5.0 cm-14.0 cm×8.0 cm), 7 bilobed superior gluteal artery perforator relay flaps (with a main flap resection area of 5.5 cm×5.5 cm-18.0 cm×11.5 cm and a side flap resection area of 4.5 cm×3.0 cm-11.0 cm×6.5 cm), 5 bilateral superior gluteal artery perforator rotational flaps (with a total resection area of 20.0 cm×16.0 cm-26.0 cm×21.0 cm on both sides), 14 superior gluteal artery perforator V-Y advanced flaps (with an resection area of 12.0 cm×10.0 cm-18.0 cm×18.0 cm), 13 superior gluteal artery perforator keystone flaps (with an resection area of 13.0 cm×6.5 cm-19.0 cm×18.0 cm), and 3 gluteus maximus muscle flaps (with an resection area of 8.0 cm×3.0 cm-15.0 cm×4.5 cm). The donor area wounds were all directly sutured. The survival of tissue flaps was observed and the incidence rate of delayed wound healing in the reception area was calculated, and wound healing in the donor area was observed. The appearance and texture of tissue flaps and recurrence of pressure ulcers were followed up.Results:After surgery, all bilateral superior gluteal artery perforator rotational flaps, superior gluteal artery perforator V-Y advanced flaps, superior gluteal artery perforator keystone flaps, and gluteus maximus muscle flaps survived well. There were 6 cases of delayed wound healing in the reception area after surgery, with an incidence rate of 6.7% (6/89). Two patients had incision dehiscence in the donor area wounds due to postoperative bleeding, the wounds healed after debridement, vacuum sealing drainage, and dressing change. The wounds in the donor area of the remaining patients healed well. Six patients were lost to follow-up. Eighty-three patients were followed up for 3-48 months, of whom 4 patients died. Among the remaining 79 patients, 3 cases had pressure ulcers recur due to improper nursing, while the rest of the patients had tissue flaps with good appearance and soft texture and no recurrence of pressure ulcers.Conclusions:Based on the characteristics of wound shape, size, and depth after debridement of stage Ⅳ pressure ulcers in the sacrococcygeal region, individualized selection of flap, myocutaneous flap, or a combination of flap and gluteus maximus muscle flap based on the perforating branch of the superior gluteal artery perforator can achieve good clinical repair results. The postoperative tissue flap survived well, with a good appearance, soft texture, and less recurrence of pressure ulcers.

Objective:To investigate the feasibility and clinical outcomes of using the deep inferior epigastric perforator flap to repair stage Ⅳ pressure ulcers in elderly patients with the femoral trochanter.Methods:Retrospective analysis of clinical data of elderly patients with stage Ⅳ pressure ulcers of the femoral trochanter treated at the Medical Center of Burn Plastic and Wound Repair, the First Affiliated Hospital of Nanchang University from May 2018 to May 2023 using the deep inferior epigastric perforator flap.The deep inferior epigastric perforator flap was designed on the same side of the abdomen based on the preoperative detection of the paraumbilical perforating branch.The axis of the inferior epigastric artery was determined by the line connecting the femoral artery pulsation point at the inguinal ligament and the obvious paraumbilical perforating branch point. The axis of the skin flap was determined by the line connecting the obvious paraumbilical perforating branch point and the subscapular angle. Combined with the situation of the sinus after pressure ulcer debridement and the range of skin and soft tissue defects, the inferior epigastric artery perforating branch skin flap was cut and repaired. The pedicle of the inferior epigastric artery was freed to the required length according to the location of the pressure ulcer, and the wound was transferred and repaired through a subcutaneous tunnel. The donor area was directly pulled and sutured. The survival of the skin flap and the healing of the donor site wound after surgery were observed, and the recurrence of pressure ulcers, the appearance and texture of the skin flap, and the recovery of the donor site were followed up regularly.Results:A total of 11 patients were included, including 7 males and 4 females; age ranged from 66 to 83 years old, with an average of 72.1 years old. There were total of 11 pressure ulcers in the femoral trochanter, with an area of 5.0 cm × 3.0 cm-13.0 cm ×6.0 cm before debridement and an area of 8.0 cm × 5.0 cm-16.0 cm × 8.0 cm after debridement. The deep inferior epigastric perforator flap was used to repair the wound. The flap was cut with an area of 10.0 cm × 6.0 cm-18.0 cm × 9.0 cm, and the length of the blood vessels in the flap pedicle was 12-16 cm, with an average of 14 cm. After surgery, 9 of the 11 flaps survived completely. One skin flap developed purplish discoloration at the distal end 24 hours after surgery, which was relieved by removing the suture at the site with high tension at the wound edge. One skin flap also showed slight necrosis at the distal end. The flap was removed under local anesthesia at the bedside of the ward, and the surgical wound was directly sutured. After dressing change, it healed. The wounds in the donor area all healed well. Follow up for 3-15 months postoperatively, with an average of 11 months, showed no recurrence of pressure ulcers in all patients. The skin flap had a soft texture, and its color and appearance were similar to those of the surrounding skin. No abdominal wall hernia was observed in the inferior epigastric donor area.Conclusion:The deep inferior epigastric perforator flap has a long vascular pedicle, reliable blood supply, sufficient tissue volume for cutting, no recurrence of pressure ulcers after surgery, good appearance and texture of the affected area, and no secondary abdominal wall hernia in the donor site. It is an effective method for repairing stage Ⅳ pressure ulcers of the femoral trochanter in elderly patients.

Objective:To explore the clinical effect of a pedicled gracilis musculocutaneous flap on reconstruction of chronic sinus wounds in inguinal region.Methods:From September 2015 to June 2023, 10 patients with chronic inguinal sinus wounds were treated in Medical Centre of Burn Plastic and Wound Repair, the First Affiliated Hospital of Nanchang University. The patients were 6 males and 4 females, aged 15-72 years old with an average age of 45 years old. Causes of injury: 4 patients were of non-healed wound after inguinal lymph node dissection for external genital or penile cancer, 2 of chronic radiation ulcers formed in the inguinal area after radiotherapy, 2 of femoral artery angiography site non-healing after lower limb artery balloon angioplasty, 1 of wound non-healing after resection of inguinal protuberant skin fibrosarcoma, and 1 of non-healing ulceration after repeated scratching due to inguinal pruritus. The wounds were all chronic in the groin region, all with a course over 30 days and sinus formation. Soft tissue defects on the surface of wounds ranged from 2.0 cm × 3.0 cm to 5.0 cm × 7.0 cm, and the depth of the sinus was from 2.0 cm to 5.0 cm. After debridement, ipsilateral gracilis musculocutaneous flaps were taken for defect reconstruction. Size of the flaps was 3.5 cm × 4.0 cm - 8.0 cm × 9.0 cm, the length of the gracilis musculocutaneous composite flaps was 16.0 - 24.0 cm, and the volume of the flap was 96.0 - 180.0 cm 3. The gracilis tissue of the flap was filled into the sinus tract and the wound was covered by the cutaneous tissue of the flap. Donor sites of the flap were pulled together and directly sutured. After surgery, hip movements were avoided and appropriately raised the affected limb, observed the survival of gracilis musculocutaneous flap as well as the healing of donor site. Scheduled postoperative follow-ups were conducted through the visits of outpatient clinic and interviews via WeChat or Internet hospital. Results:All the flaps survived. One flap had bleeding at the edge of flap within 24 hours after surgery and resulted in suture dehiscence. After bedside haemostasis, debridement and re-suture, it was healed. All donor sites achieved primary healing. All of the 10 patients were included in the postoperative follow-up for 6-21 months, with an average of 13 months. The flaps were in good colour and appearance, and the patients were satisfactory with the appearance. Scars were seen in the donor sites, but there was no obvious functional impairment. During the follow-up, no flap rupture occurred.Conclusion:The pedicled gracilis musculocutaneous flap is used to reconstruction of chronic inguinal sinus wounds, which can fully fill the sinus tract and simultaneously reconstruct the soft tissue defect of wound. This surgery is simple, practical and with good clinical efficacy.

Objective:To explore the clinical efficacy of posterior femoral cutaneous nerve nutrient vessel adipofascial flaps plus free-style gluteal perforator flaps in repairing stage IV sciatic tuberosity pressure ulcers.Methods:A retrospective case series study was conducted to analyze the clinical data of 16 patients (16 wounds) with stage IV sciatic tuberosity pressure ulcers admitted to First Affiliated Hospital of Nanchang University from May 2021 to February 2024, including 10 males and 6 females, aged 21-84 years [(58.5±16.5)years]. Among them, 8 patients were complicated with chronic osteomyelitis of the ischium at 8 sites. The wound area before debridement ranged from 2.0 cm×1.5 cm to 9.0 cm×7.0 cm. All the patients underwent staged surgery. In phase I surgery, the scar tissue at the wound margin, necrotic tissue, bursa, and chronic osteomyelitic lesions were removed in the ischium. After debridement, the wound area ranged from 4.0 cm×3.0 cm to 12.0 cm×8.0 cm. Negative pressure closure drainage (VSD) was performed and wound bed preparation was completed. In phase II surgery, the posterior femoral cutaneous nerve nutrient vessel adipofascial flaps were flipped, filled into the wound cavity, and then used to repair the wound by advancing and rotating in combination with free-style gluteal perforator flap. The area of posterior femoral cutaneous nerve nutrient vessel adipofascial flaps ranged from 9.0 cm×3.5 cm to 19.0 cm×10.0 cm and the area of the free-style gluteal perforator flaps ranged from 5.0 cm×4.0 cm to 13.0 cm×8.5 cm. The amount of bleeding in phase II surgery was recorded. The survival and wound healing of the posterior femoral cutaneous nerve nutrient vessel adipofascial flaps and free-style gluteal perforator flaps were observed. At the last follow-up, recurrence of pressure ulcers and osteomyelitis, external appearance of the wound, and secondary functional impairment and deformity in the donor sites were observed.Results:All the patients were followed up for 6-15 months [(9.4±3.1)months]. The intraoperative bleeding volume in phase II surgery was 80-300 ml [(162.9±60.6)ml]. All the posterior femoral cutaneous nerve nutrient vessel adipofascial flaps survived well after surgery. A small area of bruising was observed at the distal end of the freestyle gluteal perforator flap in 1 patient at 1 day after surgery, which was relieved after removing some of the sutures. Torn suture of the incision was found as a result of postoperative subcutaneous hematoma in the donor site of the posterior femoral cutaneous nerve nutrient vessel adipofascial flap in 1 patient at 1 day after surgery, which healed at 22 days after bedside debridement and dressing change. All other incisions healed well. At the last follow-up, there was no recurrence of pressure ulcers or osteomyelitis and the wound was mildly pigmented and soft. There were no secondary functional impairments or deformities in the posterior femoral or gluteal donor sites.Conclusion:Posterior femoral cutaneous nerve nutrient vessel adipofascial flaps plus freestyle gluteal perforator flaps can be used in the repair of stage IV sciatic tuberosity pressure ulcer wounds, with the advantages of less intraoperative bleeding, high tissue flap survival rate, good wound healing, no recurrence of pressure ulcers or osteomyelitis after surgery, good wound appearance and texture, and no secondary functional impairment or deformity in the donor sites.

Objective:To explore the feasibility and clinical efficacy of reconstruction of the soft tissue defect after keloidectomy and/or cicatricial ulcers excision caused by sternotomy with the 5th intercostal perforator flap of the internal thoracic artery.Methods:From September 2016 to August 2023, 10 patients with sternal keloids and/or sternal scar ulcers caused by sternotomy were treated in the Medical Centre of Burn Plastic Surgery and Wound Repair, the First Affiliated Hospital of Nanchang University. The soft tissue defect after resection reconstructed by the pedicled 5th intercostal perforator flap of the internal thoracic artery. The patients were 7 males and 3 females, aged 17-65 years, with an average age of 43 years. The history of sternal scar was 2-15 years, with an average of 5.5 years. And the sizes of sternal scars were 2.0 cm×6.5 cm-5.5 cm×10.0 cm. After admission, the patients firstly received surgery to remove sternal keloids and/or scar ulcers. The defects of soft tissue were found from 2.5 cm×7.0 cm to 6.0 cm×10.5 cm in size after surgery. Then one-stage reconstructive surgery were performed on all of the patients with a transposition of the pedicled 5th intercostal perforator flap of the internal thoracic artery. Flaps were harvested in surgery at 3.5 cm×7.5 cm-6.0 cm×11.0 cm in size. The donor sites of flaps were pulled and directly sutured. After the surgery, wound healing and flap survival were observed, through regular follow-ups at outpatient clinics, and via internet hospitals or WeChat reviews to monitor the colour and appearance of the flaps, recurrence of keloids and/or ulcers, the appearance of donor sites and the secondary dysfunction of surgery.Results:All incisions healed well after surgery, and all the pedicled 5th intercostal perforator flaps of the internal thoracic artery survived. All 10 patients were included in the postoperative follow-up for a period of 6-31 months, with an average of 15 months. During follow-up, the colour and appearance of the flaps were found good, and the patients were satisfied. There was no recurrence of keloid and/or scar ulcer in the reception sites. Two patients had linear scar hyperplasia at the incision sites over the period of follow-up, due to the failure of adherence to regular scar prevention and treatment after wound healing. Appearances of the donor sites were good without functional impairment.Conclusion:The pedicled 5th intercostal perforator flap of the internal thoracic artery has a better clinical effect in reconstruction of the soft tissue defect after keloidectomy and/or cicatriciad ulcers excision caused by sternotomy and without a postoperative recurrence of a keloid and/or scar ulcer, with a good colour and appearance in the affected area and in a good appearance without a secondary functional impairment at the donor site.

Diabetic foot ulcer is one of the serious complications of diabetes. Diabetic wounds are of great difficulty to repair, causing a high amputation rate and a great burden to patients and their family members and society. Researches showed that the delayed sural neurotrophic vascular flap has a great effect in repairing diabetic foot ulcers. This article mainly reviewed the clinical status and research advances of the delayed sural neurotrophic vascular flap in repairing diabetic foot ulcers, intending to provide a reference for its application and research.