Zhuang Shaowei, Zhang Youhua, Mowrey Kent A, Li Jianbo, Tabata Tomotsugu, Wallick Don W, Popović Zoran B, Grimm Richard A, Natale Andrea, Mazgalev Todor N
Department of Cardiovascular, The Cleveland Clinic Foundation, Cleveland, Ohio 44195, USA.
Circulation. 2002 Oct 1;106(14):1853-8. doi: 10.1161/01.cir.0000031802.58532.04.
Selective atrioventricular nodal (AVN) vagal stimulation (AVN-VS) has emerged as a novel strategy for ventricular rate (VR) control in atrial fibrillation (AF). Although AVN-VS preserves the physiological ventricular activation sequence, the resulting rate is slow but irregular. In contrast, AVN ablation with pacemaker implantation produces retrograde activation (starting at the apex), with regular ventricular rhythm. We tested the hypothesis that, at comparable levels of VR slowing, AVN-VS provides hemodynamic benefits similar to those of ablation with pacemaker implantation.
AVN-VS was delivered to the epicardial fat pad that projects parasympathetic nerve fibers to the AVN in 12 dogs during AF. A computer-controlled algorithm adjusted AVN-VS beat by beat to achieve a mean ventricular RR interval of 75%, 100%, 125%, or 150% of spontaneous sinus cycle length. The AVN was then ablated, and the right ventricular (RV) apex was paced either irregularly (i-RVP) using the RR intervals collected during AVN-VS or regularly (r-RVP) at the corresponding mean RR. The results indicated that all 3 strategies improved hemodynamics compared with AF. However, AVN-VS resulted in significantly better responses than either r-RVP or i-RVP. i-RVP resulted in worse hemodynamic responses than r-RVP. The differences among these modes became less significant when mean VR was slowed to 150% of sinus cycle length.
AVN-VS can produce graded slowing of the VR during AF without destroying the AVN. It was hemodynamically superior to AVN ablation with either r-RVP or i-RVP, indicating that the benefits of preserving the physiological antegrade ventricular activation sequence outweigh the detrimental effect of irregularity.
选择性房室结(AVN)迷走神经刺激(AVN-VS)已成为心房颤动(AF)心室率(VR)控制的一种新策略。尽管AVN-VS保留了生理性心室激活顺序,但由此产生的心率缓慢且不规则。相比之下,AVN消融并植入起搏器会产生逆行激活(从心尖开始),心室节律规则。我们检验了这样一个假设,即在VR减慢程度相当的情况下,AVN-VS提供的血流动力学益处与AVN消融并植入起搏器相似。
在12只犬发生AF期间,将AVN-VS施加于向AVN投射副交感神经纤维的心外膜脂肪垫。一种计算机控制算法逐搏调整AVN-VS,以实现平均心室RR间期为自发窦性周期长度的75%、100%、125%或150%。然后消融AVN,并使用AVN-VS期间收集的RR间期进行不规则右心室(RV)心尖起搏(i-RVP)或在相应平均RR下进行规则右心室心尖起搏(r-RVP)。结果表明,与AF相比,所有3种策略均改善了血流动力学。然而,AVN-VS产生的反应明显优于r-RVP或i-RVP。i-RVP产生的血流动力学反应比r-RVP差。当平均VR减慢至窦性周期长度的150%时,这些模式之间的差异变得不那么显著。
AVN-VS可在AF期间使VR产生分级减慢,而不破坏AVN。其血流动力学优于r-RVP或i-RVP的AVN消融,表明保留生理性顺行性心室激活顺序的益处超过了不规则性的不利影响。
