Kim K B, Rodefeld M D, Schuessler R B, Cox J L, Boineau J P
Department of Surgery, Washington University School of Medicine, St Louis, Mo 63110, USA.
Circulation. 1996 Dec 1;94(11):2961-7. doi: 10.1161/01.cir.94.11.2961.
Atrial refractory periods and their spatial distribution are important determinants of atrial reentrant arrhythmias. The objective of this study was to demonstrate a correlation between the local atrial fibrillation interval (AFI) and local effective refractory period (ERP).
To measure the local ERP and local AFI under stable conditions without hemodynamic, autonomic, or reflex influences, isolated perfused canine whole atria were used (n = 8). The isolated atria were mounted on two endocardial electrodes. Bipolar electrograms were simultaneously recorded from 253 endocardial sites, and 16 to 20 randomly distributed electrodes were used to measure the local ERP by the extrastimulus technique. In all studies, several episodes of AF were induced by a single extrastimulus. The ERP and minimum AFI converged with increasing duration of AF. The convergence was more rapid if the total duration of AF analyzed came from multiple episodes of AF. The correlation coefficient between the local ERP and minimum local AFI was .92 (n = 119, P < .001). The minimum AFI was used to construct AFI distribution maps at all 253 sites. Activation block during premature stimulation correlated with regions of long AFI.
The minimum local AFI measured from at least 10 seconds of AF approximates the local ERP. Construction of a minimum local AFI map during AF can be used to predict the distribution of refractoriness and can be used to predict sites of functional block. Contrary to studies done in intact animals and patients, the AFI were longer than the ERPs, suggesting that reflex changes may shorten ERP in the intact heart.
心房不应期及其空间分布是心房折返性心律失常的重要决定因素。本研究的目的是证明局部房颤间期(AFI)与局部有效不应期(ERP)之间的相关性。
为了在无血流动力学、自主神经或反射影响的稳定条件下测量局部ERP和局部AFI,使用了离体灌注的犬全心房(n = 8)。将离体心房安装在两个心内膜电极上。从253个心内膜部位同时记录双极电图,并使用16至20个随机分布的电极通过额外刺激技术测量局部ERP。在所有研究中,通过单次额外刺激诱发数次房颤发作。随着房颤持续时间的增加,ERP和最小AFI趋于一致。如果分析的房颤总持续时间来自多次房颤发作,这种趋同会更快。局部ERP与最小局部AFI之间的相关系数为0.92(n = 119,P <.001)。使用最小AFI构建所有253个部位的AFI分布图。过早刺激期间的激动阻滞与长AFI区域相关。
从至少10秒的房颤中测量的最小局部AFI接近局部ERP。在房颤期间构建最小局部AFI图可用于预测不应期的分布,并可用于预测功能阻滞部位。与在完整动物和患者中进行的研究相反,AFI长于ERP,这表明反射变化可能会缩短完整心脏中的ERP。
