Clinical application of infrared vascular imager in the transplantation of free arterialized venous flaps
10.3760/cma.j.cn114453-20210312-00111
- VernacularTitle:红外血管成像技术在动脉化静脉皮瓣游离移植中的临床应用
- Author:
Baolong LI
1
;
Hede YAN
;
Xiaobin LUO
;
Feiya ZHOU
;
Tinggang CHU
;
Zhipeng WU
;
Zhijie LI
;
Weiyang GAO
Author Information
1. 温州医科大学附属第二医院手显微外科,温州 325000
- Keywords:
Surgical flaps;
Infrared rays;
Veins;
Transplantation;
Arterialized vein flap
- From:
Chinese Journal of Plastic Surgery
2022;38(8):926-934
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To explore the feasibility and clinical effect of the infrared vascular imager in the transplantation of free arterialized venous flaps.Methods:A retrospective analysis was conducted with patient data of hand microsurgery using free arterialized venous flaps to repair hand wounds in the Second Affiliated Hospital of Wenzhou Medical University from March 2019 to November 2020. An arterialized venous flap was designed according to the Goldschlager’s Type Ⅲ flap design with the aid of a magnifying glass following the venous course. The flap was transfer to cover the wound of the recipient area. The reconstructive effect was observed postoperatively, including the blood supply, color, texture, survival of the flap, the flexion and extension of the affected finger, and the appearance of the forearm donor site. The hand function was evaluated by the Chinese Medical Association Hand Surgery Society’s upper limb function evaluation trial standard.Results:A total of 17 patients were included, including 11 males and 6 females, ranging in age from 19 to 68 years old, with an average age of 34.6 years. A total of 18 skin flaps were designed and elevated, and the flap size ranged from 2.0 cm × 3.0 cm to 8.0 cm × 9.0 cm. The patients were followed up 3 to 12 months after the operation, with an average follow-up of 6 months. Blisters appeared on the second day after the operation in 8 flaps, and the affected limbs were raised to maintain the integrity of the blisters. The blisters of the flaps subsided one week after the operation. Congestion occurred on the second day after operation in 7 flaps, which subsided after two weeks after routine treatment, such as raising the affected limb and removing some sutures. One flap developed progressive hypoperfusion one week after the operation, and eventually necrosis. Seventeen flaps survived, and one flap failure was observe. All the surviving skin flaps were free of bloat and had a good appearance. In two cases, the skin graft area was pigmented, and the flexion and extension activities of the affected fingers were suitable. Using the Chinese Medical Association Society of Hand Surgery’s upper limb function evaluation trial standard, 16 patients (excluding one flap failure) were evaluated for hand function, showing 11 cases were excellent and 5 cases were good.Conclusions:Infrared vascular imaging technology enables free arterialized venous flap transplantation to realize non-contact, non-invasive, simple operation, intuitive and accurate, and truly realizes rapid flap design under direct vision. Infrared vascular imaging technology is an effective auxiliary tool for free arterialized venous flap transplantation.
