The Application of Preoperative Computed Tomography Angiography and Color Ultrasound Assisted Lower Limb Perforator Flap Design in the Repair of Lower Limb Soft Tissue Defects.

ABSTRACT

Objective: The goal of this study was to explore the application effect of preoperative computed tomography (CT) angiography and color ultrasound-assisted design of lower limb perforator flaps in the repair of lower limb soft tissue defects. Repair of soft tissue defects in the lower limbs is a challenging surgical task, and accurate preoperative location of vascular structures and detailed design of the surgical plan are crucial to the success of the surgery. This study aims to improve the accuracy and effectiveness of lower limb perforator flap repair surgery by introducing CT angiography and color ultrasound technology. Methods: Sixty-four patients who underwent lower limb soft tissue defect repair with perforator flaps were enrolled at our hospital from February 2020 to February 2023. According to their admission time, they were divided into two groups 32 patients admitted before June 31, 2022, were included in the control group, and preoperative color Doppler ultrasound was used to assist in designing the lower limb perforator flap; 32 patients admitted after June 31, 2022, were included in the study group, and preoperative CT angiography and color Doppler ultrasound were used to assist in designing the lower limb perforator flap. Specifically, we conducted detailed records and analyzes of patients' age distribution, gender ratio, and relevant medical history. This demographic information will help reveal whether there are differences in the effectiveness of preoperative CT angiography and color ultrasound-assisted lower extremity perforator flap design among different patient groups. By considering these key factors, we can more accurately assess the actual utility of new technologies in different patient groups and provide more specific guidance for clinical practice.The therapeutic effects of the two groups of patients were recorded. The differences between the preoperative CT angiography measurements and intraoperative actual measurements of the study group were compared. Clinical indicators, sensory function in the graft area, flap survival rate, flap complication rate, and donor area complication rate were compared between the two groups. The satisfaction of patients in the two groups with the recovery of the surgical area was also compared. Results: The treatment success rate of the study group was higher than that of the control group (P < .05). There was no significant difference in the preoperative CT angiography measurements (shallow branch localization, shallow branch starting diameter, shallow branch length, deep branch starting diameter) and intraoperative actual measurements of the study group (P > .05). The operation time and intraoperative blood loss of the study group were shorter than those of the control group (P < .05), and there was no significant difference in flap harvesting area and length of hospital stay between the two groups (P > .05). There was a difference in sensory function in the graft area between the two groups, with a higher proportion of S4 grade in the study group and better recovery compared to the control group (P < .05). There was no significant difference in satisfaction evaluation between the two groups (P > .05). Conclusion: Preoperative CT angiography and color ultrasound-assisted design of lower limb perforator flaps have shown significant clinical advantages in repairing lower limb soft tissue defects, improving treatment effects and surgical efficiency. In clinical practice, this technology is expected to reduce surgical complexity, shorten surgical time, reduce the risk of intraoperative bleeding, and achieve effective defect repair while maintaining or improving the patient's sensory function.However, there are some limitations to the study, such as the relatively small sample size and single-center nature. Future research can optimize the operation process of this technology, expand the scope of research, and explore its application in the repair of soft tissue defects caused by specific causes. This technology may provide more precise and effective options for personalized treatment, especially for patients who need to preserve more sensory function.