Nuffield Department of Obstetrics and Gynaecology, University of Oxford, Oxford, UK.
Ultrasound Obstet Gynecol. 2011 Dec;38(6):613-9. doi: 10.1002/uog.9074. Epub 2011 Nov 11.
Volume charts of fetal organs and structures vary considerably among studies. This review identified 42 studies reporting normal volumes, namely for fetal brain (n = 3), cerebellum (n = 4), liver (n = 6), femur (n = 2), lungs (n = 15), kidneys (n = 3) and first-trimester embryo (n = 9). The differences among median volumes were expressed both in percentage form and as standard deviation scores. Wide discrepancies in reported normal volumes make it extremely difficult to diagnose pathological organ growth reliably. Given its magnitude, this variation is likely to be due to inconsistencies in volumetric methodology, rather than population differences. Complicating factors include the absence of clearly defined anatomical landmarks for measurement; inadequate assessment and reporting of method repeatability; the inherent difficulty in validating fetal measurements in vivo against a reference standard; and a multitude of mutually incompatible three-dimensional (3D) imaging formats and software measuring tools. An attempt to standardize these factors would improve intra- and inter-researcher agreement concerning reported volumetric measures, would allow generalization of reference data across different populations and different ultrasound systems, and would allow quality assurance in 3D fetal biometry. Failure to ensure a quality control process may hamper the wide use of 3D ultrasound.
胎儿器官和结构的体积图表在不同的研究中差异很大。本综述确定了 42 项报告正常体积的研究,分别为胎儿大脑(n=3)、小脑(n=4)、肝脏(n=6)、股骨(n=2)、肺(n=15)、肾脏(n=3)和第一 trimester 胚胎(n=9)。中位数体积的差异既以百分比形式表示,也以标准差分数表示。报告的正常体积差异很大,使得可靠地诊断病理性器官生长变得极其困难。鉴于这种差异的幅度,这种变化很可能是由于体积测量方法的不一致,而不是人群差异造成的。复杂的因素包括缺乏明确界定的测量解剖学标志;对方法重复性的评估和报告不足;在体内将胎儿测量值与参考标准进行验证的固有困难;以及多种相互不兼容的三维(3D)成像格式和软件测量工具。尝试标准化这些因素将提高报告体积测量值的研究者内和研究者间的一致性,允许在不同人群和不同超声系统之间推广参考数据,并允许在 3D 胎儿生物测量中进行质量保证。未能确保质量控制过程可能会阻碍 3D 超声的广泛应用。
