...采用快速心房刺激致心房颤动动物模型,观察氯沙坦(血管紧张素受体I拮抗剂)对心房有效不应期(atrial effective refractory period,AERP)及缝隙连接蛋白40、45(Cx45、Cx40)的作用。
基于35个网页-相关网页
...采用快速心房刺激致心房颤动动物模型,观察氯沙坦(血管紧张素受体I拮抗剂)对心房有效不应期(atrial effective refractory period,AERP)及缝隙连接蛋白40、45(Cx45、Cx40)的作用。
基于12个网页-相关网页
...采用快速心房刺激致心房颤动动物模型,观察氯沙坦(血管紧张素受体I拮抗剂)对心房有效不应期(atrial effective refractory period,AERP)及缝隙连接蛋白40、45(Cx45、Cx40)的作用。
基于8个网页-相关网页
... : 正目的探讨年龄因素对心房传导速度(atrial conduction velocity,ACV)和心房有效不应期(atrial effective refractory period,AERP)等电生理特性的影响。
基于6个网页-相关网页
Conclusion The extent of atrial fibro sis was increased in abdominal aorta banded rats. Although longer P wave duration and IACT are present, there is no change in atrial effective refractory period.
结论腹主动脉结扎大鼠心房纤维化程度增加,P波时限增宽,IACT延长,心房有效不应期没有改变。
The relative refractory period, functional refractory period and effective refractory period (ERP) of right atrial, atrioventricular node and right ventricle were increased.
心房、房室结及心室相对不应期、功能不应期及有效不应期(erp)延长。
Conclusion the atrial pacing rate of change can affect the AV node effective refractory period and conduction in refractory period.
结论心房起搏频率的改变可影响房室结的有效不应期和传导功能。
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