ObjectiveTo investigate the effect of pharmacologic delay with pioglitazone, a peroxisome proliferator-activated receptor γ (PPAR-γ) agonist, on extended perforator flap survival in a rat model. MethodsSeventy male Sprague Dawley rats, weighing 250-300 g, were randomly divided into control group (n=35) and experimental group (n=35). A three-territory flap was made, including two choke zones. Pioglitazone was dissolved in 1.5 mL saline. Oral doses of pioglitazone[10 mg/(kg·d)] was given by gavaged for 5 days in the experimental group, while the same volume of saline was given in the control group at same time point. After 7 days, the flap survival area was measured and angiographic diagnosis was made. The tissue samples were harvested from choke zone Ⅱ for histological study and vascular endothelial growth factor (VEGF) expression detection by immunohistochemical staining. The content of nitric oxide (NO) in choke zones I and Ⅱ was measured at immediate, 1, 3, 5, and 7 days after operation. ResultsThe flap general change of 2 groups was similar. Varying degrees of necrosis occurred with the extension of time in 2 groups. At 7 days after operation, the flap survival rate was 87.73%±3.25% in the experimental group and 76.07%±2.92% in the control group, showing a significant difference (t=-10.338, P=0.000). The number of true anastomosis in choke zones I and Ⅱ was 5.40±1.14 and 3.00±0.71 in the experimental group, and was 3.20±0.84 and 0.80±0.84 in the control group respectively, showing significant differences between the 2 groups (t=-3.479, P=0.008;t=-4.491, P=0.002). The microvessel density and the expression of VEGF in choke zone Ⅱ of experimental group were (33.16±7.73)/mm2 and 4 368.80±458.23, respectively, which were significantly higher than those of control group[(23.29±5.91)/mm2 and 2 241.24±554.43] (t=5.073, P=0.000;t=-14.789, P=0.000). The content of NO in the experimental group were significantly higher than those in the control group at other time points (P<0.05) except for at immediate after operation. ConclusionPharmacologic delay with pioglitazone can improve extended perforator flap viability through increasing ischemia-induced angiogenesis and choke vessels vasodilation in rat models.
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 of the extremities 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 coverage 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.