Safety of intraarterial microguidewire electrocoagulation in aneurysms: an animal experimental study
10.3760/cma.j.cn115354-20210820-00529
- VernacularTitle:动脉内微导丝电凝治疗动脉瘤疗效和安全性的动物实验研究
- Author:
Tao WU
1
;
Longjiang XU
;
Wei XIA
;
Zhigao JIN
;
Yao WU
;
Zhaoliang LI
;
Dehong YANG
;
Ailin CHEN
;
Chungang DAI
;
Qing ZHU
Author Information
1. 苏州大学附属第二医院神经外科,苏州 215004
- Keywords:
Intracranial aneurysm;
Electrocoagulation;
Microguidewire;
Thrombosis;
Safety
- From:
Chinese Journal of Neuromedicine
2022;21(5):443-449
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To explore the efficacy and safety of intraarterial microguidewire electrocoagulation in arterial aneurysms.Methods:(1) SilverSpeed, a kind of microguidewire used in clinical intravascular treatment for intracranial aneurysms, was used to conduct in vitro electrolysis gas generation experiment with isolated arterial blood of anticoagulant New Zealand white rabbits as medium, and thrombus attachment on the surface of microguidewire was observed under scanning electron microscope. (2) Rabbit common carotid artery aneurysm models were established by using vein bag transplantation method, and divided into microguidewire electrocoagulation treatment groups ( n=40) and blank control group ( n=10). The number of closured tumor cavity and the quality of formed thrombus were observed after electrocoagulation simulation treatment with SilverSpeed microguidewire (charging at 6, 9, 12, 15, and 18 V voltage, respectively for 1, 3, 6, 9, 12, and 15 min). DSA was used to observe whether there was ruptured aneurysms or thrombosis of parent artery. Twelve h later, head MRI diffusion weighted sequence scan was performed to detect whether there were new cerebral ischemia foci in the distal cerebral blood supply area of the parent artery. DSA was performed again 6 months after surgery to observe whether the aneurysms recurred. Results:(1) Electrolytic gas generation experiment results showed that bubbles were generated after electrification of SilverSpeed microguidewire; the higher the voltage, the more severe the reaction. Scanning electron microscope showed that thrombus attached to the surface of the microguidewire after electrification in isolated blood; and the higher the voltage, the denser the thrombus. (2) Under the same charging time, the higher the voltage, the larger the number of closured tumor cavity in rabbits of the microguidewire electrocoagulation treatment groups. Under the same voltage, the longer the charging time, the better the quality of thrombosis. Ischemic events occurred only in the microguidewire electrocoagulation treatment group with voltage>9 V, and the charging duration was not associated with the incidence of embolic events. When the voltage was 15 V, 2 experimental rabbits died due to aneurysm rupture 3 min after electrification. When the voltage was 18 V, 4 experimental rabbits died of cardiac arrest 9 min after electrification, and another 2 rabbits died of aneurysm rupture 6 min after electrification.Conclusions:High voltage is the main cause of adverse events in the microguidewire electrocoagulation treatment of aneurysms. After setting the appropriate voltage, prolonging the electrification time can improve the electrocoagulation effect without increasing the safety risk.
