Background: To explore the feasibility of a new method of achieving a permanent A-V block animal model. Methods: 16 beagles were randomly divided into two groups based on the method of their pre-implanted biventricular pacemakers. (1) In the first group (8 beagles), the A-V block model was achieved by ablating his-bundle potential at the site of the left ventricular superior-septum, under the aortic sinus, through femoral artery. (2) In the second group (8 beagles), the A-V block model was achieved by ablating his-bundle potential at the triangle of Koch, through femoral vein. A complete A-V block model was achieved as a standard in this study. The success rates, intraoperative arrhythmias, operative and X-ray exposure time, intraoperative bleeding amount were assessed in this two groups, both animal models were followed up for four weeks and then fasted to monitor myocardial pathological changes. Results: The success rate of the first group, which with fewer intraoperative arrhythmias, and less operative and X-ray exposure time, was significantly higher than the second group. Conclusions: Compared with traditional animal method, our new method of ablating his-bundle potential at the left ventricle from the femoral artery has a higher success rate, fewer occurrence of malignant arrhythmias, and less operation and X-ray time. Thus, our new method should be preferred in the building of Permanent A-V Block Model.
CITATION STYLE
Cheng, Z., Hai-Ge, Y., Jin, L., Wan-Chun, Y., Lu-Ping, W., Yue-Chun, L., & Jia-Feng, L. (2014). A new method of building permanent A-V block model: Ablating his-bundle potential through femoral artery with pre-implanted biventricular pacemaker. BMC Cardiovascular Disorders, 14(1). https://doi.org/10.1186/1471-2261-14-164
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