Miyoshi Hirokazu, Oishi Yoshifumi, Mizuguchi Yukio, Iuchi Arata, Nagase Norio, Ara Nusrat, Oki Takashi
Cardiovascular Section, Higashi Tokushima Medical Center, National Hospital Organization, Tokushima, Japan.
Echocardiography. 2013 Jul;30(6):658-66. doi: 10.1111/echo.12117. Epub 2013 Jan 24.
Two-dimensional speckle tracking echocardiography (2DSTE) has recently been applied to evaluate left atrial (LA) function in addition to left ventricular (LV) function. However, whether 2DSTE can provide insight into LA-LV interaction related to an increase in LV pressure overload remains unknown.
One hundred five asymptomatic patients with hypertension were studied by conventional, pulsed and tissue Doppler, and 2DSTE. Hypertensive patients were classified into 2 groups according to the ratio of early diastolic to atrial systolic velocity (E/A) of transmitral flow: E/A ≥ 1 (n = 37) and E/A < 1 (n = 68). We used (E/peak early diastolic mitral annular motion velocity [e'])/peak systolic LA strain (S-LAs) and E/e', as parameters of LA stiffness during ventricular systole and LV diastolic stiffness, respectively.
The peak early diastolic LV longitudinal strain rate, and peak early diastolic LA strain and strain rate were lower in the E/A < 1 group than in the E/A ≥ 1 group. The E/e'/S-LAs and E/e' were greater in the E/A < 1 group. In the E/A < 1 group, systolic blood pressure (SBP) correlated with LV wall thickness parameters, A, e', E/e', peak early diastolic LV longitudinal strain rate, and E/e'/S-LAs. Multivariate regression analysis indicated that A, E/e', and E/e'/S-LAs were defined as strong predictors related to SBP.
In patients with hypertension, an elevation in SBP leads to increased LA stiffness during ventricular systole and LV diastolic stiffness, in association with continued and further advanced LV diastolic dysfunction. 2DSTE is considered a sensitive tool for detecting abnormal LA-LV coupling related to an increased LV pressure overload.
二维斑点追踪超声心动图(2DSTE)最近已被用于评估左心房(LA)功能以及左心室(LV)功能。然而,2DSTE能否深入了解与左心室压力超负荷增加相关的左心房 - 左心室相互作用仍不清楚。
对105例无症状高血压患者进行了传统、脉冲和组织多普勒以及2DSTE检查。根据二尖瓣血流舒张早期与心房收缩期速度之比(E/A)将高血压患者分为两组:E/A≥1(n = 37)和E/A < 1(n = 68)。我们分别使用(E/舒张早期二尖瓣环运动峰值速度[e'])/收缩期峰值左心房应变(S-LAs)和E/e'作为心室收缩期左心房僵硬度和左心室舒张僵硬度的参数。
E/A < 1组的舒张早期左心室纵向应变率峰值、舒张早期左心房应变和应变率峰值低于E/A≥1组。E/A < 1组的E/e'/S-LAs和E/e'更大。在E/A < 1组中,收缩压(SBP)与左心室壁厚度参数、A、e'、E/e'、舒张早期左心室纵向应变率峰值以及E/e'/S-LAs相关。多变量回归分析表明,A、E/e'和E/e'/S-LAs被确定为与SBP相关的强预测因子。
在高血压患者中,收缩压升高导致心室收缩期左心房僵硬度增加和左心室舒张僵硬度增加,并伴有持续且进一步加重的左心室舒张功能障碍。2DSTE被认为是检测与左心室压力超负荷增加相关的异常左心房 - 左心室耦合的敏感工具。
