Pagel Paul S, Boettcher Brent T, De Vry Derek J, Freed Julie K, Iqbal Zafar
Anesthesia Service, Clement J. Zablocki Veterans Affairs Medical Center, Milwaukee, WI.
Anesthesia Service, Clement J. Zablocki Veterans Affairs Medical Center, Milwaukee, WI.
J Cardiothorac Vasc Anesth. 2016 Oct;30(5):1260-5. doi: 10.1053/j.jvca.2016.03.144. Epub 2016 Mar 23.
Transmitral blood flow produces a vortex ring (quantified using vortex formation time [VFT]) that enhances the efficiency of left ventricular (LV) filling. VFT is attenuated in LV hypertrophy resulting from aortic valve stenosis (AS) versus normal LV geometry. Many patients with AS also have aortic insufficiency (AI). The authors tested the hypothesis that moderate AI falsely elevates VFT by partially inhibiting mitral leaflet opening in patients with AS.
Observational study.
Veterans Affairs medical center.
Patients with AS in the presence or absence of moderate AI (n = 8 per group) undergoing aortic valve replacement (AVR) were studied after institutional review board approval.
None.
Under general anesthesia, peak early LV filling (E) and atrial systole (A) blood flow velocities and their corresponding velocity-time integrals were obtained using pulse-wave Doppler transesophageal echocardiography (TEE) to determine E/A and atrial filling fraction (beta). Mitral valve diameter (D) was calculated as the average of major and minor axis lengths obtained in the midesophageal bicommissural (transcommissural anterior-lateral-posterior medial) and LV long-axis (anterior-posterior) TEE imaging planes, respectively. VFT was calculated as 4·(1-beta)·SV/πD(3), where SV = stroke volume measured using thermodilution. Hemodynamics, diastolic function, and VFT were determined during steady-state conditions before cardiopulmonary bypass. The severity of AS (mean and peak pressure gradients, peak transvalvular jet velocity, aortic valve area) and diastolic function (E/A, beta) were similar between groups. Moderate centrally directed AI was present in 8 patients with AS (ratio of regurgitant jet width to LV outflow tract diameter of 36±6%). Pulse pressure and mean pulmonary artery pressure were elevated in patients with versus without AI, but no other differences in hemodynamics were observed. Mitral valve minor and major axis lengths, diameter, and area were reduced in the presence versus the absence of AI. VFT was increased significantly (5.7±1.7 v 3.2±0.6; p = 0.00108) in patients with AS and AI compared with AS alone.
Moderate AI falsely elevates VFT in patients with severe AS undergoing AVR by partially inhibiting mitral valve opening. VFT may be an unreliable index of LV filling efficiency with competitive diastolic flow into the LV.
经二尖瓣血流会产生一个涡流环(用涡流形成时间[VFT]来量化),该涡流环可提高左心室(LV)充盈效率。与正常LV形态相比,主动脉瓣狭窄(AS)所致LV肥厚时VFT会减弱。许多AS患者还合并主动脉瓣关闭不全(AI)。作者检验了这样一个假设:中度AI会通过部分抑制AS患者的二尖瓣叶开放而错误地提高VFT。
观察性研究。
退伍军人事务医疗中心。
经机构审查委员会批准,对接受主动脉瓣置换术(AVR)的合并或不合并中度AI的AS患者(每组n = 8)进行了研究。
无。
在全身麻醉下,使用脉冲波多普勒经食管超声心动图(TEE)获取LV早期充盈峰值(E)和心房收缩期(A)血流速度及其相应的速度-时间积分,以确定E/A和心房充盈分数(β)。二尖瓣直径(D)计算为分别在食管中段双 commissural(跨 commissural 前-侧-后内侧)和LV长轴(前-后)TEE成像平面获得的长轴和短轴长度的平均值。VFT计算为4·(1-β)·SV/πD(3),其中SV = 使用热稀释法测量的每搏输出量。在体外循环前的稳态条件下测定血流动力学、舒张功能和VFT。两组之间的AS严重程度(平均和峰值压力梯度、峰值跨瓣射流速度、主动脉瓣面积)和舒张功能(E/A,β)相似。8例AS患者存在中度中心性AI(反流束宽度与LV流出道直径之比为36±6%)。与无AI的患者相比,有AI的患者脉压和平均肺动脉压升高,但未观察到其他血流动力学差异。与无AI相比,有AI时二尖瓣短轴和长轴长度、直径及面积减小。与单纯AS患者相比,AS合并AI患者的VFT显著增加(5.7±1.7对3.2±0.6;p = 0.00108)。
中度AI会通过部分抑制二尖瓣开放而错误地提高接受AVR的重度AS患者的VFT。当存在竞争性舒张期血流进入LV时,VFT可能是LV充盈效率的一个不可靠指标。
