The application of overlay reconstruction technique of angiography in surgical planning of scalp arteriovenous fistulas
10.3760/cma.j.cn114453-20200520-00305
- VernacularTitle:血管造影叠加重建技术在头皮动静脉瘘手术计划中的应用
- Author:
Chungang DAI
1
;
Xiaoming XIE
;
Zhe DENG
;
Ailin CHEN
;
Dongdong CAO
;
Tao WU
;
Yao WU
;
Qing ZHU
Author Information
1. 苏州大学附属第二医院神经外科 215004
- Keywords:
Arteriovenous fistula;
scalp;
Treatment outcome;
Angiography;
Digital subtraction
- From:
Chinese Journal of Plastic Surgery
2021;37(5):508-513
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To explore the value and technique details of the overlay reconstruction technique of angiography in surgical planning of scalp arteriovenous fistulas.Methods:The clinical data of patients admitted from February 2014 to April 2020 in the Neurosurgical Department of Second Affiliated Hospital of Soochow University with scalp arteriovenous fistulas were analyzed retrospectively. Preoperative angiography was carried out in all patients for diagnosis, and the angiographical data was obtained without injection of the contrast agent by the mode of XperCT Cereb. Fast HD followed by three-dimension rotation angiography (3DRA) with the contrast agent. The overlay reconstruction was achieved for surgical planning to demonstrate feeding arteries and drainage veins surrounding the fistula. Surgeries were conducted by resection or devascularization of the lesion. All patients were followed up in the out-patient clinic to assess the healing and to detect the symptomatic recurrence and scalp necrosis. The pathological changes of the lesion were observed by HE staining.Results:Five patients were enrolled in this study, including three males and two females aged from 10 to 60 years old (average 34.2-year-old). Pulsatile mass of local scalp was presented in all patients, one with a thin scalp. Five patients suffered from five scalp arteriovenous fistulas, including three on the right side and two on the left. Feeding arteries mainly originated from the superficial temporal artery were confirmed in four cases, and the posterior auricular artery in one case. Single venous drainage was noted in two cases, as well as multiple drainage veins in three cases. Three lesions were supplied by unilateral feeding arteries, while bilateral feeding arteries supplied the rest lesions. Two fistulas were treated by resection, two were treated by devascularization, and one was treated by resection with skin grafting. One lesion was fed by a single artery, three lesions were fed by two arteries, and one lesion was fed by three arteries. Three lesions were fed by unilateral arteries, and two lesions were fed by bilateral arteries. Single fistula was detected in one lesion and multiple fistulas in four lesions. Single drainage was confirmed in two lesions, doubled drainages in two lesions, and tripledrainages in one lesion. All patients experienced surgical treatment in one stage.Two patients underwent complete resection of the lesion, two with complete devascularization, and one with autologous thigh skin grafting after resection. Postoperative pathological examination demonstrated dilated and congested vascular lumen, which was consistent with arteriovenous fistula. All patients healed well after surgery. With13-87 months follow-up, no recurrence and necrosis were noted. Two were reexamined by cerebral angiography, which showed no recurrence.Conclusions:Digital subtraction angiography facilitates the diagnosis of scalp arteriovenous fistula accurately and effectively. The overlay reconstruction technique of angiography is crucial for precise localization of fistula shunt and the surrounding feeders and drainages, which is helpful for surgical planning.
