一种信息概率模型，可增强实时超声生物测量以提高胎儿体重估计准确性。

An informative probability model enhancing real time echobiometry to improve fetal weight estimation accuracy.

作者信息

Cevenini G, Severi F M, Bocchi C, Petraglia F, Barbini P

机构信息

Department of Surgery and Bioengineering, University of Siena, Viale Mario Bracci 16, Siena, Italy.

出版信息

Med Biol Eng Comput. 2008 Feb;46(2):109-20. doi: 10.1007/s11517-007-0299-2. Epub 2008 Jan 10.

DOI:10.1007/s11517-007-0299-2

PMID:18196306

Abstract

A multinormal probability model is proposed to correct human errors in fetal echobiometry and improve the estimation of fetal weight (EFW). Model parameters were designed to depend on major pregnancy data and were estimated through feed-forward artificial neural networks (ANNs). Data from 4075 women in labour were used for training and testing ANNs. The model was implemented numerically to provide EFW together with probabilities of congruence among measured echobiometric parameters. It enabled ultrasound measurement errors to be real-time checked and corrected interactively. The software was useful for training medical staff and standardizing measurement procedures. It provided multiple statistical data on fetal morphometry and aid for clinical decisions. A clinical protocol for testing the system ability to detect measurement errors was conducted with 61 women in the last week of pregnancy. It led to decisive improvements in EFW accuracy.

摘要

提出了一种多元正态概率模型，以纠正胎儿超声生物测量中的人为误差，并改进胎儿体重（EFW）的估计。模型参数设计为依赖于主要妊娠数据，并通过前馈人工神经网络（ANN）进行估计。来自4075名分娩妇女的数据用于训练和测试人工神经网络。该模型通过数值实现，以提供EFW以及测量的超声生物测量参数之间的一致性概率。它能够实时检查并交互式地纠正超声测量误差。该软件有助于培训医务人员并规范测量程序。它提供了关于胎儿形态测量的多个统计数据，并辅助临床决策。在怀孕最后一周对61名妇女进行了一项测试系统检测测量误差能力的临床方案。这使得EFW准确性有了决定性的提高。

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一种信息概率模型，可增强实时超声生物测量以提高胎儿体重估计准确性。

An informative probability model enhancing real time echobiometry to improve fetal weight estimation accuracy.

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