氙CT通气研究的参数估计与置信区间：一种蒙特卡罗方法。

Parameter estimation and confidence intervals for Xe-CT ventilation studies: a Monte Carlo approach.

作者信息

Simon B A, Marcucci C, Fung M, Lele S R

机构信息

Department of Anesthesia and Critical Care Medicine, Johns Hopkins School of Medicine, Baltimore, Maryland, USA.

出版信息

J Appl Physiol (1985). 1998 Feb;84(2):709-16. doi: 10.1152/jappl.1998.84.2.709.

DOI:10.1152/jappl.1998.84.2.709

PMID:9475884

Abstract

Xenon-enhanced computed tomography (Xe-CT) is a technique for the noninvasive measurement of regional pulmonary ventilation from the washin and/or washout time constants of radiodense stable xenon gas, determined from serial computed tomography scans. Although the measurement itself is straightforward, there is a need for methods for the estimation of variability and confidence intervals so that the statistical significance of the information obtained may be evaluated, particularly since obtaining repeated measurements is often not practical. We present a Monte Carlo (MC) approach to determine the 95% confidence interval (CI) for any given measurement. This MC method was characterized in terms of its unbiasedness and coverage of the CI. In addition, 10 identical Xe-CT ventilation runs were performed in an anesthetized dog, and the time constant was determined for several regions of varying size in each run. The 95% CI, estimated from these repeated measurements as the mean +/- 2 x SE, compared favorably with the CI obtained by the MC approach. Finally, a simulation was performed to compare the performance of three imaging protocols in estimating model parameters.

摘要

氙增强计算机断层扫描（Xe-CT）是一种通过从一系列计算机断层扫描中确定的放射性稳定氙气的吸入和/或呼出时间常数来无创测量局部肺通气的技术。尽管测量本身很简单，但需要有估计变异性和置信区间的方法，以便能够评估所获得信息的统计学意义，特别是因为进行重复测量往往不切实际。我们提出了一种蒙特卡罗（MC）方法来确定任何给定测量的95%置信区间（CI）。这种MC方法的特点在于其无偏性和对CI的覆盖范围。此外，在一只麻醉的狗身上进行了10次相同的Xe-CT通气扫描，并在每次扫描中为几个不同大小的区域确定了时间常数。从这些重复测量中估计的95%CI作为均值±2×标准误，与通过MC方法获得的CI相比具有优势。最后，进行了一次模拟，以比较三种成像方案在估计模型参数方面的性能。

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氙CT通气研究的参数估计与置信区间：一种蒙特卡罗方法。

Parameter estimation and confidence intervals for Xe-CT ventilation studies: a Monte Carlo approach.

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