右心室实时三维超声心动图——基于知识重建的小儿右心室容积参考值:一项多中心研究
Real-time 3D-echocardiography of the right ventricle-paediatric reference values for right ventricular volumes using knowledge-based reconstruction: a multicentre study.
作者信息
Herberg Ulrike, Smit Florentina, Winkler Christian, Dalla-Pozza Robert, Breuer Johannes, Laser Kai Thorsten
机构信息
Department of Paediatric Cardiology, University of Bonn, ELKI, Venusberg Campus 1, Germany.
Department of Paediatric Cardiology and Paediatric Intensive Care, Ludwig Maximilians University, Medical Hospital of the University of Munich, Munich, Germany.
出版信息
Quant Imaging Med Surg. 2021 Jul;11(7):2905-2917. doi: 10.21037/qims-20-1155.
BACKGROUND
Real-time 3D echocardiography is a promising method for non-invasive assessment of right ventricular performance in children with congenital heart disease. Volume quantification using knowledge-based reconstruction (KBR) enables the calculation of right ventricular dimensions by matching endocardial landmarks with a reference library of right ventricular shapes. However, paediatric reference values for volumes based on KBR are missing. Aim of this study was to establish reference values for right ventricular volumes in a large paediatric population using 3D echocardiography and KBR.
METHODS
In a multicentre prospective-design study, 545 healthy children and adolescents (age range, 1 day to 216 months) underwent 3D echocardiography of the right ventricle using two different vendors (iE33, Philips or Vivid 7, GE). Volume analysis was performed by a semiautomatic quantification software (VMS, Ventripoint Diagnostics Ltd., Washington, US). Reference centiles were computed using Cole's LMS method and the gamlss package in R. For vendor comparison, 3D datasets were recorded subsequently in 20 subjects using both ultrasound devices.
RESULTS
3D datasets of 406/545 (74.5%) subjects provided an adequate image quality. Right ventricular volumes had a significant association with age, body size and sex. We created sex-specific percentiles indexed to body surface area (BSA). Intra- and interobserver-variation for all volume calculations were excellent with intraclass correlation coefficients (ICCs) between 0.973-0.998. Agreement of both vendors showed slightly higher end-diastolic and stroke volumes (bias ± standard deviation 2.2%±6.8% respectively 4.5%±8.1%) and smaller end-systolic volumes (-0.9±10.3%) using Philips datasets.
CONCLUSIONS
Calculation of ventricular volumes by KBR allows reliable non-invasive assessment of right ventricular volumes with excellent intra- and interobserver variations. The calculated percentiles based on a large paediatric population serve as a reference and may facilitate the use of real-time 3D echocardiography for the analysis of right ventricular size and function.
背景
实时三维超声心动图是一种很有前景的非侵入性评估先天性心脏病患儿右心室功能的方法。使用基于知识的重建(KBR)进行容积定量可通过将心内膜标志与右心室形状参考库进行匹配来计算右心室尺寸。然而,基于KBR的儿童容积参考值尚不存在。本研究的目的是使用三维超声心动图和KBR为大量儿科人群建立右心室容积的参考值。
方法
在一项多中心前瞻性设计研究中,545名健康儿童和青少年(年龄范围为1天至216个月)使用两种不同的设备(iE33,飞利浦或Vivid 7,通用电气)接受了右心室的三维超声心动图检查。容积分析由半自动定量软件(VMS,Ventripoint Diagnostics Ltd.,美国华盛顿)进行。使用科尔的LMS方法和R中的gamlss包计算参考百分位数。为了比较设备,随后在20名受试者中使用两种超声设备记录了三维数据集。
结果
406/545(74.5%)名受试者的三维数据集提供了足够的图像质量。右心室容积与年龄、体型和性别显著相关。我们创建了以体表面积(BSA)为索引的性别特异性百分位数。所有容积计算的观察者内和观察者间变异都非常好,组内相关系数(ICC)在0.973 - 0.998之间。使用飞利浦数据集时,两种设备的一致性显示舒张末期容积和搏出量略高(偏差±标准差分别为2.2%±6.8%和4.5%±8.1%),收缩末期容积较小(-0.9±10.3%)。
结论
通过KBR计算心室容积可实现对右心室容积的可靠非侵入性评估,观察者内和观察者间变异均极佳。基于大量儿科人群计算出的百分位数可作为参考,可能有助于使用实时三维超声心动图分析右心室大小和功能。
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