Division of Pediatric Cardiology, Department of Pediatrics, Children's Hospital of Philadelphia and Perelman School of Medicine, University of Pennsylvania, Philadelphia, Pennsylvania.
Healthcare Analytics Unit, Children's Hospital of Philadelphia, University of Pennsylvania, Philadelphia, Pennsylvania.
J Am Soc Echocardiogr. 2021 Jul;34(7):775-785. doi: 10.1016/j.echo.2021.02.007. Epub 2021 Feb 16.
Identifying preoperative pulmonary venous obstruction in total anomalous pulmonary venous connection is important to guide treatment planning and risk prognostication. No standardized echocardiographic definition of obstruction exists in the literature. Definitions based on absolute velocities are affected by technical limitations and variations in pulmonary venous return. The authors developed a metric to quantify pulmonary venous blood flow variation: pulmonary venous variability index (PVVI). The aim of this study was to demonstrate its accuracy in defining obstruction.
All patients with total anomalous pulmonary venous connection at a single institution were identified. Echocardiograms were reviewed, and maximum (V), mean (V), and minimum (V) velocities along the pulmonary venous pathway were measured. PVVI was defined as (V - V)/V. These metrics were compared with pressures measured on cardiac catheterization. Echocardiographic measures were then compared between patients with and without clinical preoperative obstruction (defined as a need for preoperative intubation, catheter-based intervention, or surgery within 1 day of diagnosis), as well as pulmonary edema by chest radiography and markers of lactic acidosis. One hundred thirty-seven patients were included, with 22 having catheterization pressure recordings.
V and V were not different between patients with catheter gradients ≥ 4 and < 4 mm Hg, while PVVI was significantly lower and V higher in those with gradients ≥ 4 mm Hg. The composite outcome of preoperative obstruction occurred in 51 patients (37%). Absolute velocities were not different between patients with and without clinical obstruction, while PVVI was significantly lower in patients with obstruction. All metrics except V were associated with pulmonary edema; none were associated with blood gas metrics.
The authors developed a novel quantitative metric of pulmonary venous flow, which was superior to traditional echocardiographic metrics. Decreased PVVI was highly associated with elevated gradients measured by catheterization and clinical preoperative obstruction. These results should aid risk assessment and diagnosis preoperatively in patients with total anomalous pulmonary venous connection.
在完全性肺静脉异位连接中,识别术前肺静脉阻塞对于指导治疗计划和风险预测非常重要。文献中尚无阻塞的标准化超声心动图定义。基于绝对速度的定义受到技术限制和肺静脉回流变化的影响。作者开发了一种量化肺静脉血流变化的指标:肺静脉可变性指数(PVVI)。本研究旨在证明其在定义阻塞方面的准确性。
在一家机构中确定所有完全性肺静脉异位连接患者。回顾超声心动图,并测量肺静脉通路的最大(V)、平均(V)和最小(V)速度。PVVI 定义为(V-V)/V。将这些指标与导管插入术测量的压力进行比较。然后比较了有和无临床术前阻塞(定义为需要术前插管、基于导管的干预或诊断后 1 天内手术)的患者之间的超声心动图指标,以及通过胸部 X 射线和乳酸酸中毒标志物测量的肺水肿。共纳入 137 例患者,其中 22 例有导管压力记录。
V 和 V 在导管梯度≥4 和<4mmHg 的患者之间无差异,而在梯度≥4mmHg 的患者中,PVVI 明显较低,V 较高。51 例(37%)患者出现术前阻塞的复合结局。有和无临床阻塞的患者之间的绝对速度没有差异,而阻塞患者的 PVVI 明显较低。除 V 外,所有指标均与肺水肿相关;没有指标与血气指标相关。
作者开发了一种新的肺静脉血流定量指标,优于传统超声心动图指标。PVVI 降低与导管测量的梯度升高和临床术前阻塞高度相关。这些结果应有助于在完全性肺静脉异位连接患者术前进行风险评估和诊断。